Product Overview
Product Identity and Market Position
The FMSI D1890 ceramic brake pad set represents a cutting-edge braking solution specifically engineered for Ford Fiesta and compatible vehicle models. Positioned as an OEM-grade replacement product, this ceramic brake pads Ford Fiesta solution targets the mid-to-premium aftermarket segment, delivering exceptional safety, comfort, and environmental performance for discerning drivers.
Incorporating state-of-the-art ceramic brake technology originally developed for high-performance sports cars and racing applications, this product brings advanced materials science to everyday driving. Unlike traditional semi-metallic brake pads, ceramic brake pads offer significant improvements across multiple performance dimensions including braking effectiveness, service life, and environmental impact.
The FMSI designation ensures adherence to rigorous international standards for friction materials, while the D1890 model number represents comprehensive technical specifications and quality requirements that have been validated through extensive testing and real-world applications.
This isn’t simply a replacement component—it’s a comprehensive OEM brake pads solution that takes into account the specific characteristics of Ford Fiesta vehicles, including vehicle weight, braking system design, and typical driving conditions. Through precise engineering calculations and extensive real-vehicle testing, we’ve ensured perfect integration with original equipment systems.
Target Demographics and Application Scenarios
The FMSI D1890 ceramic brake pad addresses diverse market segments with varying performance requirements and usage patterns:
Individual Vehicle Owners: Our primary user base consists of Ford Fiesta owners who prioritize driving experience quality. These customers typically value safety performance, seek quiet brake pads and comfortable driving experiences, prefer reduced maintenance frequency and costs, and maintain environmental consciousness. This demographic includes urban professionals, family users, and automotive enthusiasts who appreciate quality engineering.
Professional Service Market: This encompasses Ford dealerships, independent repair shops, and quick-service chains. These professional users require reliable OEM brake pads that satisfy customer needs while enhancing service quality. They focus particularly on product consistency, compatibility, and the ability to reduce customer complaints.
B2B Procurement Market: Large-volume users including rental car companies, driving schools, and corporate fleets prioritize value proposition, bulk purchasing advantages, and long-term partnership benefits.
Driving Environment Applications:
Urban Commuting: City driving environments demand frequent stop-and-go performance. Our product’s low-noise brake pads characteristics make it ideal for urban use, eliminating annoying brake squeal. Superior low-speed braking performance ensures urban driving safety.
Highway Driving: High-speed applications require rapid deceleration from elevated speeds, placing stringent demands on thermal fade resistance. Ceramic brake pads’ high-temperature stability ensures consistent braking force even under continuous braking conditions.
Mountain Road Driving: Extended downhill sections present the most severe braking system challenges. Traditional brake pads often experience thermal fade under these conditions, while ceramic brake technology maintains stable friction coefficients at elevated temperatures, ensuring driving safety.
Adverse Weather Conditions: Wet and snowy conditions create slippery road surfaces that demand enhanced braking performance. Our specially formulated product delivers reliable braking force on slippery surfaces, improving driving safety in challenging weather.
Detailed Product Specifications
Based on comprehensive technical specifications, the FMSI D1890 ceramic brake pad features precise geometric dimensions and technical parameters:
Precision Dimensional Specifications: The product employs a dual-pad design with two distinct dimensional specifications to accommodate Ford Fiesta brake caliper requirements. Both Length-1 and Length-2 measure 123mm—a dimension determined through precise calculations to ensure adequate braking contact area while maintaining proper caliper fitment.
Width specifications vary: Width-1 measures 46mm while Width-2 measures 42.5mm. This differentiated design addresses brake caliper internal space constraints and braking force distribution requirements. Uniform thickness of 14.8mm represents the optimal value determined through extensive testing, balancing strength requirements with caliper clearance and service life considerations.
Each set contains 4 brake pads, meeting Ford Fiesta front and rear braking system configuration requirements.
Identification and Certification Information: FMSI number D1890-9118 serves as the product’s unique global identifier, enabling recognition and traceability worldwide. This numbering system ensures standardization and traceability—technicians anywhere can accurately identify product specifications and applications using this code.
Material Composition Details: The product utilizes advanced ceramic fiber composite materials comprising multiple high-performance components: ceramic fibers as primary friction material providing stable friction coefficients; metallic fibers enhancing structural strength and wear resistance; organic binders ensuring effective component integration; and specialized additives improving braking performance while reducing noise.
The entire formulation resulted from hundreds of mixture trials and performance tests, ensuring stable performance across various operating conditions. Material selection considers not only braking performance but also environmental requirements—all raw materials comply with EU RoHS environmental standards.
Value Proposition
Core Problem Resolution
The FMSI D1890 ceramic brake pad development addresses multiple critical issues Ford Fiesta owners encounter during daily use, providing systematic solutions:
In-Depth Analysis of Braking Performance Degradation: As vehicle usage time extends, original brake pads gradually wear, involving not just thickness reduction but more importantly, friction material structural changes. Traditional semi-metallic brake pads experience metal particle exposure during wear, causing friction coefficient instability. At elevated temperatures, friction materials may undergo thermal decomposition, further affecting braking effectiveness.
FMSI D1890 ceramic brake pads utilize ceramic materials with superior thermal stability, maintaining stable molecular structure even at high temperatures, ensuring friction coefficient consistency. Through precise material formulation and manufacturing processes, the product delivers stable braking force output throughout its entire service life.
Technical Solutions for Brake Noise Issues: Brake noise troubles many vehicle owners, particularly in urban driving environments. Noise generation stems from three primary sources: material resonance, uneven surface friction, and braking system vibration transmission. Traditional metallic brake pads readily generate high-frequency noise due to material characteristics.
Our low-noise brake pads address this through multi-level noise control technology: ceramic materials possess excellent damping characteristics, effectively absorbing vibration energy; specialized surface treatment processes ensure friction surface flatness; optimized geometric design reduces harmonic resonance during braking operations.
Environmental Solutions for Dust Contamination: Traditional brake pads generate substantial metallic dust during braking, not only contaminating wheel surfaces and affecting aesthetics but more importantly causing environmental pollution. Metallic dust may contain copper, iron, and other heavy metal elements, posing potential threats to soil and water sources.
FMSI D1890 ceramic brake pads employ low-dust formulations, producing approximately 20% of traditional brake pad dust levels. Generated dust appears light-colored and won’t leave obvious contamination traces on wheel surfaces. Most importantly, ceramic dust poses significantly lower environmental hazards compared to metallic dust.
Service Life and Cost-Effectiveness Solutions: Many vehicle owners focus excessively on purchase price while overlooking total lifecycle costs. Low-quality brake pads may have lower initial costs but actually result in higher total costs due to rapid wear requiring frequent replacement.
Ceramic brake pads deliver superior wear resistance with service life typically 1.5-2 times that of traditional brake pads. While initial investment is slightly higher, reduced replacement frequency and lower maintenance costs result in lower total ownership costs long-term.
Core Advantages and Unique Selling Points
In-Depth Technical Advantage Analysis:
Advanced Ceramic Formulation Technology: Our ceramic brake technology represents 15 years of technical accumulation and continuous improvement. Unlike ordinary market ceramic brake pads, our formulation employs multi-element ceramic fiber composite technology using nano-level material dispersion techniques ensuring uniform distribution of various functional materials. This technology delivers not only superior braking performance but also ensures performance consistency and stability.
Progressive Braking Force Output Design: Through precise friction coefficient curve design, the product achieves progressive braking force output characteristics. Initial braking provides moderate force preventing wheel lockup during emergency braking; when strong braking is required, adequate force is rapidly available. This characteristic enhances both braking safety and driving comfort.
Ultra-Low Noise Control Technology: Employing patented damping technology and surface texturing processes, braking noise is controlled below 70 decibels. This technology changes friction interface microstructure, disrupting noise-generating resonance conditions and fundamentally solving brake noise problems.
Temperature Adaptability Optimization: Through specialized heat treatment processes and material modification technology, the product maintains stable performance across -40°C to 650°C temperature ranges. This broad temperature adaptability ensures product reliability under various climate conditions and operating scenarios.
Commercial Advantage Market Value:
Direct Factory Supply Cost Benefits: As an ISO 9001 certified professional manufacturer, we employ direct factory supply models, eliminating multiple distributor markup levels. This enables more competitive pricing for end users while ensuring supply chain stability and product quality traceability.
OEM-Grade Quality Assurance: Over 15 years of OEM supply experience means products have undergone rigorous automotive manufacturer certification processes. These certifications include not only performance testing but also durability testing, environmental adaptability testing, and comprehensive verification. OEM-grade quality assurance provides users with reliable quality commitments.
Flexible Business Policies: Our 50-set minimum order quantity policy fully considers different-scale customer needs. Whether large chain repair shops or small independent garages, all can enjoy direct supply pricing advantages. This flexibility helps establish long-term stable cooperative relationships.
Customization Service Capabilities: We support OEM/ODM customization services including packaging design, brand identification, and technical specification adjustments. This customization capability enables partners to establish brand image and enhance market competitiveness.
Competitive Differentiation Characteristics
Technical Differentiation Analysis:
Compared to international renowned brands, FMSI D1890 maintains technical parity while emphasizing cost-effectiveness and localized service. Versus European brands like Bosch and Brembo, our product offers significant price advantages while achieving equivalent technical performance levels.
Compared to Japanese/Korean brands like Akebono, our product features unique innovations in material formulation and manufacturing processes. Particularly in low-noise control and dust emission aspects, technical indicators often exceed some imported products.
Versus other domestic manufacturers, our OEM brake pads demonstrate clear advantages in quality consistency and technical service. Through comprehensive quality management systems and technical support networks, we provide more reliable products and services.
Market Positioning Differentiation:
Multi-Brand Compatibility Strategy: Unlike most products focusing on single brands, FMSI D1890 employs multi-brand compatibility strategy. Through precise engineering design and extensive testing validation, we achieve compatibility with Ford, Citroën, Peugeot, and other brand vehicles. This strategy not only expands market coverage but also provides inventory management convenience for dealers and repair shops.
Comprehensive Certification System Safety Assurance: Products have obtained IATF 16949, ECE R90, DOT, and other international certifications covering quality management, safety performance, and environmental standards. Compared to partially certified competitive products, our comprehensive certification system provides more complete safety assurance.
Value-Added Technical Service Advantages: Beyond the product itself, we provide comprehensive technical services including technical training, installation guidance, and fault diagnosis. This service model not only helps users better utilize products but also establishes long-term cooperative relationships.
Feature Specifications
Detailed Main Function Modules
Braking Performance Module Technical Architecture:
Friction Coefficient Optimization Design: This module represents the ceramic brake pad’s core, achieving stable 0.35-0.45 friction coefficients through precise material formulation and surface treatment processes. This value range represents the optimal interval determined through extensive testing, providing adequate braking force without causing overly sensitive braking response.
Friction coefficient design isn’t a fixed value but rather a dynamic curve varying with temperature and pressure. Under low-temperature, low-pressure light braking conditions, friction coefficients remain relatively low ensuring braking smoothness; under high-temperature, high-pressure emergency braking situations, friction coefficients appropriately increase providing adequate braking force.
Progressive Braking Force Output System: Through specialized friction material distribution design, we achieve progressive braking force output characteristics. Initially, surface soft materials provide primary friction force; as braking pressure increases, deeper hard materials gradually participate in friction, creating progressive braking force growth.
This design effectively prevents initial “bite” phenomena, improving braking controllability. During emergency braking, maximum braking force can be rapidly provided ensuring braking safety.
Thermal Fade Resistance Mechanism: High-temperature performance stability represents a key ceramic brake pad advantage. Our product employs multi-level thermal management design effectively resisting thermal fade: material-level high-temperature stable ceramic fibers, structural-level effective heat dissipation channels, and surface-level anti-oxidation treatments.
Comfort Module Engineering Implementation:
Multi-Frequency Noise Control Technology: Brake noise typically divides into low-frequency (100-1000Hz) and high-frequency (1000Hz+) categories. Low-frequency noise primarily affects comfort while high-frequency noise causes auditory discomfort.
Our product employs frequency-specific control strategies: for low-frequency noise, we optimize brake pad geometry and installation methods, altering system natural frequencies to avoid resonance with braking systems; for high-frequency noise, we use specialized surface texture design and damping material applications effectively absorbing and dispersing noise energy.
Vibration Damping System: Braking vibrations not only generate noise but also affect braking comfort and steering wheel stability. Our product employs multi-layer damping design: base material layer provides structural strength, damping layer absorbs vibration energy, and friction layer provides braking force.
Through finite element analysis and vibration testing, we’ve optimized layer material thickness ratios and physical characteristics, controlling braking vibration to minimum levels.
Low Dust Emission System: Traditional brake pad dust problems affect not only aesthetics but may also impact health. Our product achieves ultra-low dust emission through material modification and structural optimization:
Higher-strength binder systems reduce material shedding; optimized friction particle size distribution improves wear uniformity; improved surface treatment processes reduce initial wear. Actual testing shows dust emission levels reduced over 70% compared to traditional products.
Durability Module Reliability Design:
Material Durability Engineering: Selected ceramic fibers possess superior wear resistance characteristics—perfect combination of hardness and toughness ensures long-term performance stability. Through microstructure analysis and wear mechanism research, we’ve optimized fiber orientation and distribution, maximizing material utilization efficiency.
Environmental Aging Resistance Design: Considering brake pads face various harsh environments including high temperatures, low temperatures, humidity, and corrosive media, products undergo comprehensive anti-aging design. Anti-corrosion coating technology, anti-oxidation additives, and sealing optimization ensure long-term stability under various environmental conditions.
Fatigue Strength Optimization: Braking involves repetitive loading-unloading processes with materials experiencing cyclic stress. Through fatigue strength analysis and optimization design, we ensure products won’t experience fatigue failure within expected service life.
In-Depth Technical Parameters and Performance Indicators
Scientific Foundation of Material Characteristics:
Ceramic Fiber Composite Material Composition Analysis: Our ceramic fiber composite material represents a complex multi-phase system with primary components including:
- Ceramic fibers (40-50%): Providing primary friction and wear resistance
- Metallic fibers (10-15%): Enhancing thermal conductivity and mechanical strength
- Organic binders (15-20%): Ensuring effective component integration
- Functional additives (15-25%): Including damping materials, lubricants, anti-oxidants, etc.
Each component content underwent precise calculations and extensive testing validation ensuring optimal comprehensive performance.
Friction Coefficient Temperature Characteristics: Product friction coefficient performance across different temperatures represents important technical capability demonstration:
- Room temperature (20°C): Friction coefficient 0.40±0.02
- Medium temperature (200°C): Friction coefficient 0.38±0.02
- High temperature (400°C): Friction coefficient 0.36±0.03
- Extreme high temperature (600°C): Friction coefficient 0.35±0.03
This temperature stability ensures reliable product performance across various operating conditions.
Engineering Significance of Performance Indicators:
Braking Distance Performance: ECE R90 standard compliance means products must meet specified ranges under standard test conditions (100km/h to 0 braking distance). Our product’s actual braking distances typically exceed standard requirements by 10-15%, providing users additional safety margins.
Wear Rate Control: ≤0.25mm/10000km wear rate results from rigorous bench testing and road test validation. This value means under normal usage conditions, brake pads can serve 80,000-100,000km, far exceeding traditional product service life.
Noise Level Control: ≤70dB noise level equals normal conversation volume, representing extremely low noise levels in braking systems. Achieving this indicator requires comprehensive optimization across materials, structure, and processes.
Dust Emission Indicators: 50% below OEM standard dust emission verified through specialized dust testing benches. This not only reduces wheel cleaning frequency but more importantly decreases environmental impact.
Testing Verification System:
All technical parameters undergo rigorous testing verification including:
- Bench testing: Repeatable testing under standardized conditions
- Road testing: Comprehensive performance verification under actual road conditions
- Durability testing: Accelerated aging testing simulating long-term usage conditions
- Environmental adaptability testing: Performance verification under various extreme environmental conditions
Innovation Points and Technical Highlights
Breakthrough Material Science Innovations:
Nano-Enhancement Technology: Adding nano-level reinforcement materials to traditional ceramic substrates significantly improves material mechanical properties and thermal stability. Nano material addition isn’t simple physical mixing but employs specialized dispersion processes and surface treatment technologies achieving uniform nano material distribution in substrates with strong interfacial bonding.
This technology enables materials to maintain ceramic excellence while gaining better toughness and impact resistance. Nano-enhancement technology application improves comprehensive product performance by 20-30%.
Functionally Graded Material Design: Unlike traditional homogeneous materials, our product employs functionally graded material design concepts. From friction surface to backing plate, material composition and performance vary gradually: surface layer emphasizes friction performance and wear resistance, middle layer emphasizes strength and thermal conductivity, backing plate layer emphasizes brake caliper compatibility.
This design enables each position’s materials to achieve optimal performance with overall effects far superior to traditional homogeneous designs.
Manufacturing Process Technical Innovation:
Precision Hot-Press Molding Technology: Employing program-controlled hot-press molding processes with precise temperature, pressure, and time parameter control ensures material density uniformity and structural compactness. Compared to traditional molding processes, hot-press molding better controls material microstructure improving product consistency.
The entire hot-press process divides into multiple stages: preheating stage removes material volatiles, heating stage achieves material plasticization, pressure-holding stage ensures densification, cooling stage completes curing. Each stage’s parameters undergo precise calculation and optimization.
Surface Precision Processing Technology: Friction surface microscopic morphology significantly impacts braking performance. We employ specialized surface processing technology creating specific microscopic texture structures on friction surfaces. These textures not only improve friction characteristics but also aid heat dissipation and noise reduction.
Surface texture design bases on fluid dynamics and tribology principles using computer simulation and experimental verification combined optimization methods.
Intelligent Quality Control Innovation:
Online Quality Monitoring Systems: Production processes employ multi-sensor fusion online monitoring systems real-time monitoring critical process parameters and product quality indicators. Systems automatically identify quality abnormalities and make real-time adjustments ensuring every product meets quality standards.
Complete Lifecycle Traceability Systems: Every product receives unique electronic identity files recording complete information from raw material procurement to finished product shipping. These traceability systems not only aid quality management but also provide customers with product authenticity verification and usage guidance services.
User Experience
Comprehensive Installation Convenience and Usability Analysis
Installation Convenience Engineering Design:
FMSI D1890 ceramic brake pads prioritize installation convenience from initial design. Products employ direct replacement design meaning no original vehicle braking system modifications are required—technicians can follow standard brake pad replacement procedures.
Precision Dimensional Matching: Through in-depth Ford Fiesta original braking system research, product dimensions achieve complete original equipment matching. Beyond main dimension matching, details like chamfers and hole positions undergo precise measurement and verification. This precision matching ensures smooth installation processes while avoiding installation difficulties caused by dimensional mismatches.
Standardized Interface Design: All product interfaces strictly follow industry standard designs including positioning pin holes and anti-noise pad grooves. This standardized design not only simplifies installation processes but also ensures proper coordination with other braking system components.
Installation Tool Compatibility: Considering different repair shop tool configuration variations, product design accommodates standard braking system maintenance tools. No special tools or equipment required—standard wrenches, piston compression tools, etc. suffice for installation completion.
User-Friendly Maintenance Simplicity:
Visual Wear Indication: Products feature intuitive wear indication systems—observing indicator groove depth easily determines brake pad remaining thickness. This design enables both vehicle owners and technicians to timely understand brake pad usage conditions, reasonably schedule replacement timing, and avoid safety hazards from excessive wear.
The wear indication system employs stepped design: when wear reaches 50%, first-level indication lines disappear; when wear reaches 80%, second-level indication lines disappear; when immediate replacement is needed, final safety indication lines disappear. This multi-level indication system provides users ample replacement reminder time.
Self-Cleaning Characteristics: Ceramic material special properties provide products with excellent self-cleaning capabilities. During normal braking processes, friction-generated heat effectively removes surface oil contamination and debris, maintaining friction surface cleanliness. This self-cleaning characteristic not only reduces maintenance workload but also ensures consistently stable braking performance.
Long-Life Design Philosophy: Through optimized material formulation and structural design, product expected service life reaches 80,000-100,000km. This long-life design not only reduces user usage costs but also decreases replacement frequency, providing greater user convenience.
User-Friendly Service Support:
Detailed Installation Manuals: Every product set includes illustrated installation guidance manuals covering complete content from disassembly steps to precautions. Manuals offer multi-language versions with clear diagram explanations enabling even beginners to understand and operate.
Technical Support Hotline: Dedicated technical support hotlines staffed by experienced technical engineers provide real-time consultation services. Whether installation process issues or usage concerns, professional answers are available.
Online Resource Platforms: Dedicated online resource platforms provide rich resources including installation videos, FAQ, and technical documentation. Users can access these resources anytime obtaining needed technical support.
In-Depth Performance Experience Analysis
Detailed Braking Sensation Description:
Pedal Feedback Characteristics: FMSI D1890 ceramic brake pads provide linear and precise pedal feedback. When drivers depress brake pedals, they clearly sense progressive braking force growth—this linear characteristic makes braking processes more controllable and comfortable.
Unlike some brake pads exhibiting “dead zones” or “sudden changes,” our product provides continuous, smooth braking force response from light to heavy pedal pressure. This characteristic proves extremely important for driving safety and comfort, particularly when precise braking force control is required.
Cold Vehicle Braking Performance: During initial braking after engine startup, products demonstrate superior cold vehicle braking effectiveness. No “warm-up” process required—first brake application provides reliable braking force. This characteristic proves especially important in cold weather or after extended parking when first starting vehicles.
Superior cold vehicle braking performance stems from special material formulation design. Even in low-temperature environments, ceramic materials maintain good friction characteristics ensuring immediate braking system response.
High-Temperature Braking Stability: Under extended braking or high-intensity braking conditions, products demonstrate exceptional high-temperature stability. Even when brake disc temperatures reach 400-500°C, braking force output remains stable without obvious thermal fade phenomena.
This high-temperature stability undergoes specialized high-temperature braking test verification including mountain road long-downhill testing and high-speed emergency braking testing under extreme conditions. Test results show even under most severe usage conditions, products maintain over 85% braking efficiency.
Quantified Comfort Experience Evaluation:
Actual Noise Level Performance: In practical usage, product noise control effectiveness gains widespread user recognition. Through professional noise testing, across various braking conditions, noise levels remain controlled below 70 decibels—equivalent to normal indoor conversation volume levels.
More importantly, noise frequency characteristics undergo optimization. Unpleasant high-frequency sharp sounds are avoided—even with slight braking sounds, they remain relatively gentle low-frequency sounds not causing auditory discomfort to passengers.
Vibration Control Effects: Braking vibration control significantly impacts driving comfort. Products employ optimized damping design effectively reducing braking vibration transmission to steering wheels and vehicle bodies. During emergency braking, steering wheels maintain relative stability enhancing driver confidence and comfort.
Wheel Cleanliness: Thanks to ultra-low dust formulations, wheel cleanliness significantly improves after using our products. Even after continuous thousands-of-kilometers usage, wheel surfaces remain relatively clean with occasional light dust being light-colored and easy to clean.
Authentic Customer Feedback and Usage Cases
Detailed Individual User Feedback:
Urban Commuter User Case: Mr. Zhang, a Beijing white-collar worker, drives his Ford Fiesta daily for commuting with annual mileage of approximately 20,000km. Before replacing FMSI D1890 ceramic brake pads, his most troubling issue was morning rush hour frequent braking noise—particularly when parking in residential communities, harsh braking sounds caused embarrassment.
After installing new brake pads, Mr. Zhang reported: “The most obvious change is noise disappearance—now braking remains quiet regardless of timing. Moreover, braking feels more linear, particularly during rush hour frequent stop-and-go traffic—foot feel is very comfortable. After using for one-and-a-half years covering over 30,000km, inspection shows minimal wear with expectations for continued long usage.”
Family User Case: Ms. Li, a homemaker primarily using vehicles for child pickup and daily shopping, maintains high braking safety requirements. She chose FMSI D1890 mainly because ceramic brake pads are reportedly safer and more environmentally friendly.
Usage experience: “Previously children often complained about excessive braking noise—now this issue is completely resolved. I also notice wheels stay much cleaner than before without frequent washing needs. Most importantly, braking effectiveness is excellent—even emergency braking remains stable, providing great security confidence.”
Long-Distance Driving User Case: Mr. Wang, a sales professional frequently requiring long-distance driving with annual mileage exceeding 40,000km, maintains high requirements for brake pad durability and high-speed braking performance.
Usage experience: “I most value high-speed braking stability and product durability. This brake pad performs excellently on highways—even braking from 120km/h to complete stops maintains stable braking force without thermal fade situations. Already used for 60,000km with wear remaining within normal ranges—very cost-effective.”
Professional User In-Depth Evaluations:
Repair Shop Technician Feedback: Master Zhao, a well-known chain repair shop technician with 15 years braking system maintenance experience, evaluates FMSI D1890: “This product maintains excellent quality stability with virtually no quality issues encountered. Installation proves convenient with high dimensional accuracy avoiding assembly difficulties. Most importantly, customer satisfaction remains high with basically no customer complaints regarding noise or braking effectiveness after installation.”
Master Zhao also mentioned details: “Product packaging appears professional with each brake pad receiving independent protection preventing transportation collision damage. Moreover, packaging technical parameters and installation instructions provide detailed information very helpful for our work.”
4S Shop Service Manager Evaluation: A Ford 4S shop service manager states: “When recommending this brake pad to customers, we primarily emphasize OEM quality and environmental characteristics. Customer acceptance remains high, particularly those customers focusing on driving quality. From after-sales feedback, customer satisfaction exceeds 95%—very high levels in automotive parts industry.”
Fleet User Large-Scale Application Cases:
Rental Company Batch Application: A major rental company owns 800 Ford Fiestas with enormous annual brake pad consumption. After trialing FMSI D1890, their maintenance manager reported: “Initially choosing this product was due to price advantages, but after usage we discovered better comprehensive benefits. First, complaint rates dramatically decreased—previously frequent customer brake noise complaints now basically eliminated. Second, replacement frequency reduced with average service life over 30% longer than previous products, greatly reducing maintenance costs.”
This company also established detailed usage data files tracking each vehicle’s brake pad usage conditions. Data shows after using FMSI D1890, average annual braking system maintenance costs per vehicle decreased 25%.
Driving School Educational Applications: A driving school owns 50 Ford Fiesta training vehicles—due to frequent braking operations, brake pad requirements prove extremely high. After using FMSI D1890, the driving school director reported: “Training vehicle usage intensity remains very high with students’ inexperienced operations frequently causing sudden braking. Previously brake pad noise was severe affecting teaching effectiveness—now this problem is completely resolved. Moreover, durability proves excellent with obviously reduced replacement frequency.”
Special Condition Application Feedback:
Mountain Road Usage Cases: Users from Yunnan mountain regions report that during frequent uphill and downhill road sections, FMSI D1890 demonstrates superior thermal stability. “Our area has many mountain roads with long downhill sections severely testing braking systems. Previously used brake pads experienced braking force decreases after long downhill sections, but this product consistently maintains stable braking effectiveness.”
High-Temperature Environment Applications: Users from Xinjiang regions state: “Summer ground temperatures here can reach over 60 degrees, severely challenging automotive components. But this brake pad performs stably in high-temperature environments without braking performance decreases due to high temperatures.”
Business Information
Pricing Strategy and Package Selection Commercial Logic
Pricing Strategy Market Positioning:
FMSI D1890 ceramic brake pads employ differentiated pricing strategies, providing competitive price solutions for different customer types while ensuring reasonable profit margins.
Direct Factory Supply Cost Advantages: Through factory direct supply models, we eliminate multiple markup levels in traditional distribution systems. Traditional models require products to pass through general agents, regional agents, dealers, and other multiple levels—each level generating 15-25% markups. Direct supply models pass these intermediate costs to end users, making product prices 30-40% lower than equivalent imported products.
Dynamic Pricing Mechanisms: Based on order quantities, cooperation periods, market regions, and other factors, we implement flexible dynamic pricing. This mechanism ensures price market competitiveness while incentivizing long-term cooperation and bulk purchasing, achieving win-win situations for supply and demand parties.
Cost Transparency Principles: We provide cost structure analysis to important customers including raw material costs, manufacturing costs, quality certification costs, R&D amortization, etc., helping customers understand true product value and establishing value-recognition-based pricing mechanisms.
Customer-Oriented Package Selection Design:
Standard Packages: Targeting ordinary repair shops and individual users, employing standard packaging containing 4 brake pads, installation guidance manuals, quality certification certificates, and other basic configurations. This package advantage is immediate purchase and use without waiting, suitable for emergency replacement needs.
Packaging design fully considers transportation and storage requirements using professional moisture-proof and shock-proof packaging materials ensuring product quality safety during circulation processes. Each brake pad receives independent protective packaging preventing mutual friction causing surface damage.
Customized Packages: Targeting chain repair shops, 4S shops, and other professional users, supporting customized packaging design, brand identification, technical parameter adjustments, and other personalized services. Customized packages not only satisfy customer brand building needs but also provide differentiated market competitive advantages.
Customization services include packaging appearance design, product identification customization, technical document personalization, and even product performance fine-tuning optimization. Entire customization processes involve professional technical teams and design teams ensuring final products completely meet customer requirements.
Mixed Packages: Targeting multi-brand repair shops, providing multi-vehicle model combination purchasing solutions. Since many repair shops need to service multiple brand vehicles, mixed packages simplify purchasing processes, reduce inventory costs, and provide more favorable bulk pricing.
Mixed package design bases on market research and customer demand analysis, selecting high-market-volume, stable-demand vehicle model combinations ensuring customers obtain actual commercial value.
Comprehensive Purchasing Channels and Sales Policy Layout
Diversified Purchasing Channel Construction:
Direct Factory Procurement Channels: For large customers with annual procurement exceeding certain standards, we provide factory direct procurement services. This model not only provides most favorable pricing but also ensures supply stability and product quality traceability.
Factory direct procurement customers enjoy dedicated customer manager services including demand forecasting, production planning coordination, logistics arrangements, technical support, and other comprehensive services. We’ve established dedicated large customer service teams comprising senior sales engineers and technical experts ensuring timely response and professional satisfaction of customer needs.
Authorized Distributor Networks: We’ve established comprehensive authorized distributor networks in major market regions—distributors undergo rigorous screening and training with professional product knowledge and service capabilities. Distributor networks provide convenient purchasing channels and localized services for small and medium customers.
Distributor management employs strict certification and assessment mechanisms including sales capabilities, service levels, market reputation, and other multi-dimensional evaluations. We regularly organize distributor training updating product knowledge and technical information ensuring distributors provide professional consultation and services to customers.
B2B E-commerce Platforms: We’ve established official stores on mainstream B2B e-commerce platforms providing customers with online inquiry, price comparison, ordering, payment, and other convenient services. E-commerce platform advantages include high transparency, convenient operation, and secure payment—particularly suitable for small and medium procurement merchants.
B2B e-commerce platform product displays employ multimedia formats including high-definition product images, technical parameter tables, installation videos, user reviews, and other rich content helping customers comprehensively understand product information for intelligent procurement decisions.
Customer-Friendly Sales Policy Design:
Flexible Delivery Schedule Management: Standard product delivery schedules are 15-25 days considering raw material procurement, production arrangements, quality testing, packaging shipping, and other process elements. For urgent orders, we provide expedited production services reducing delivery schedules to 7-10 days.
Delivery schedule management employs modern production planning systems enabling real-time order status tracking, delivery time prediction, and timely customer notification of any possible changes. Customers can check order progress anytime through online systems achieving transparent management.
Comprehensive Customization Service Support: Beyond standard products, we provide OEM/ODM customization services including product specification adjustments, performance parameter optimization, packaging design, brand identification, etc. Customization service processes are standardized from requirement research to sample production, from batch production to quality acceptance—each stage has clear time nodes and quality standards.
Customization service teams comprise product engineers, process engineers, and quality engineers providing customers with complete support from concept design to batch production. Customized products enjoy same quality assurance and after-sales service as standard products.
Global Shipping Service Networks: We’ve established comprehensive international logistics networks supporting worldwide product shipping. Cooperation with multiple renowned logistics companies enables optimal transportation solution selection based on customer requirements, finding best balances among cost, timeliness, and safety.
International shipping services include customs clearance, transportation insurance, destination port clearance, and complete service processes. For customers unfamiliar with import procedures, we provide specialized trade consultation services assisting customers in smoothly completing procurement and import procedures.
Professional After-Sales Service and Technical Support Systems
Comprehensive Quality Assurance System Coverage:
Product Quality Guarantee Period Policy: We provide 12-month product quality guarantee periods calculated from product manufacturing dates. Within guarantee periods, if performance defects result from product quality issues, we provide free replacement services.
Quality assurance covers not only products themselves but also packaging integrity, technical document accuracy, and other comprehensive content. We’ve established comprehensive quality issue handling processes—from problem reporting to problem resolution, entire processes maintain clear time requirements and responsibility divisions.
Defective Product Handling Mechanisms: For customer-reported quality issues, we employ 100% replacement policies. Regardless of problem magnitude, we handle issues based on customer satisfaction principles. Simultaneously, we’ve established defective product analysis mechanisms conducting root cause analysis for every quality issue with continuous product and process improvements.
Defective product handling processes include problem confirmation, cause analysis, corrective measures, preventive measures, and other elements. All quality issues are recorded in quality management systems forming data foundations for quality improvements.
Rapid Response Commitments: For customer-reported technical problems, we commit to providing preliminary responses within 48 hours and final solutions within one week. We’ve established 24-hour technical service hotlines ensuring customers receive timely technical support.
Rapid response mechanisms include tiered response systems—based on problem urgency and impact scope, we employ different response speeds and resource allocations. For emergency problems affecting safety, we provide immediate response services.
Professional Depth of Technical Support Services:
Professional Technical Team Building: Technical support teams comprise experienced engineers including materials engineers, mechanical engineers, quality engineers, and other diverse professional backgrounds. Team members possess over 5 years of braking system related work experience capable of resolving various complex technical problems.
Technical teams regularly receive training updating professional knowledge and understanding latest technical developments and industry trends. Simultaneously, we maintain cooperative relationships with universities and research institutes ensuring technical support’s cutting-edge nature and authority.
Installation Guidance Services: We provide detailed installation guidance services for customers including written guidance manuals, installation videos, on-site guidance, and other multiple forms. For large customers, we can dispatch technical personnel for on-site training and guidance.
Installation guidance manuals employ illustrated formats detailing every installation step, precautions, common problem solutions, etc. Installation videos use high-definition filming with multi-angle installation process displays enabling users to intuitively understand correct installation methods.
Product Application Consultation: Beyond installation guidance, we provide product application consultation services helping customers select most suitable product models, optimize usage solutions, and resolve special application needs.
Product application consultation bases on in-depth technical analysis and rich application experience providing customers with personalized solutions. For special conditions or special requirements, we conduct specialized technical analysis and product recommendations.
Marketing Support: We provide marketing support for distributors and important customers including technical training, promotional materials, exhibition support, etc. We help partners establish professional images and enhance market competitiveness.
Marketing support includes product knowledge training, sales skills training, technical exchange meetings, industry exhibition participation, and other multiple forms. We provide professional promotional materials including product brochures, technical white papers, application cases, etc., helping partners conduct effective marketing.
Market Positioning
In-Depth Target Market and Competitive Environment Analysis
Target Market Segmentation and Positioning:
Primary Market – European Ford Fiesta Aftermarket: Europe represents Ford Fiesta’s primary sales region with vehicle populations exceeding 5 million units. This market characteristics include strict product quality requirements, strong environmental consciousness, and relatively low price sensitivity. Consumers prioritize product safety, environmental performance, and long-term usage costs.
European market regulatory environments are stringent—products must pass ECE R90 and other certifications for sales eligibility. Simultaneously, EU environmental regulations maintain clear requirements for brake pad material composition, harmful substance content, recycling utilization, etc. FMSI D1890 achieves comprehensive certification and environmental design completely meeting European market entry requirements.
In European markets, primary competitors include Bosch, Brembo, Ferodo, and other renowned brands. While these brands possess strong technical capabilities, prices generally trend high. FMSI D1890 establishes unique market positioning through equivalent technical levels and more competitive pricing.
Secondary Markets – North American and Asian Markets: While Ford Fiesta sales in North American markets remain relatively smaller, aftermarket segments maintain certain scales. North American consumers maintain high product performance requirements, particularly braking distance and noise control indicators. Additionally, North American markets feature prevalent DIY culture with many vehicle owners self-replacing brake pads, demanding higher product installation convenience.
Asian markets include Japan, Korea, Southeast Asia, and other regions characterized by high price sensitivity and strict cost-effectiveness requirements. FMSI D1890’s cost advantages prove particularly obvious in these markets, providing consumers with high-value choices.
Emerging Markets – Developing Country Automotive Service Markets: With global automotive industry development, many developing countries experience rapid automotive population growth with enormous aftermarket potential. These markets exhibit extreme price sensitivity while maintaining basic quality requirements.
In emerging markets, localized service capabilities prove critically important. Through establishing local technical support networks and training systems, we help local repair shops improve service levels—this not only expands market share but also establishes long-term cooperative relationships.
Comprehensive Competitive Environment Analysis:
International First-Tier Brand Competition Dynamics: Bosch, as global automotive component leader, maintains strong technical capabilities and brand influence in braking systems. Their products demonstrate high technical levels and quality stability but relatively high pricing. Bosch’s advantages include close automotive manufacturer cooperation relationships and comprehensive global service networks.
Brembo specializes in high-performance braking systems with strong influence in racing and premium automotive fields. Their product positioning targets high-end segments with expensive pricing mainly serving performance-demanding specialized markets.
Akebono and other Japanese brands emphasize stability and reliability with strong Asian market influence. Their product characteristics include precise workmanship and quality stability but relatively weak innovation capabilities.
Regional Brand Market Performance: Each regional market features local brands occupying certain market shares. These brands typically possess price advantages and localized service benefits but maintain technical level and quality stability gaps.
Differentiated Competition Strategy Positioning: Facing intense market competition, FMSI D1890 employs differentiated competition strategies: maintaining equivalent technical levels with international first-tier brands while offering obvious price advantages and providing more flexible and personalized solutions in services.
This differentiated positioning enables products to find unique survival spaces in markets—satisfying quality-demanding customer needs while providing high-value choices for price-sensitive customers.
Forward-Looking Industry Background and Development Trend Analysis
Automotive Aftermarket Macro Environment:
Sustained Market Scale Growth: Global automotive aftermarket scales currently approximate $700 billion, expected to reach $850 billion by 2025 with annual compound growth rates of 4-5%. Growth primary drivers include sustained global automotive population increases, extended average vehicle usage periods, and enhanced consumer maintenance consciousness.
In automotive aftermarkets, braking system related products occupy important positions at approximately 8-10% of total markets. With enhanced safety requirements and improved related regulations, braking system product market demand maintains stable growth.
Consumer Behavior Change Trends: Modern consumers increasingly emphasize product comprehensive value rather than simple pricing when selecting automotive components. They prioritize product safety, environmental performance, service life, and brand reputation. Particularly younger consumers maintain higher requirements for product technical content and innovation.
Simultaneously, internet proliferation enables consumers to more easily obtain product information, compare different brands, and view user reviews. This information transparency trend requires manufacturers to provide more authentic, detailed product information while establishing good brand reputations.
Channel Model Digital Transformation: Traditional offline sales models are transitioning toward online-offline integrated O2O models. B2B e-commerce platform emergence provides more convenient procurement channels for small and medium procurement merchants while improving market transparency and efficiency.
Digital transformation reflects not only in sales channels but also customer service, technical support, after-sales maintenance, and other elements. Through digital tools, we can provide more timely, personalized services to customers.
In-Depth Technology Development Trend Insights:
Environmental Requirement Driven Technical Innovation: Global environmental emphasis continues intensifying with automotive industries facing increasingly strict environmental regulations. For brake pad industries, primary environmental requirements include reduced heavy metal content, decreased dust emissions, and improved material recyclability.
The EU has implemented brake pad copper content limitation regulations requiring copper content not exceeding 5% by 2025 and not exceeding 0.5% by 2030. Such regulatory trends promote ceramic brake pad and other low-copper or copper-free product development.
FMSI D1890 ceramic brake pads represent products conforming to these trends—low-copper formulations and ultra-low dust characteristics completely meet future environmental requirements. This forward-thinking technical positioning establishes foundations for future market competition.
Electric Vehicle Development Creating New Opportunities: Electric vehicle rapid development brings new opportunities and challenges for braking industries. Electric vehicle braking characteristics include widespread regenerative braking applications, changed braking frequencies, and higher low-noise requirements.
While regenerative braking systems reduce traditional friction braking usage frequency, they demand higher braking system reliability. During emergency braking or regenerative braking system failures, traditional braking systems must provide reliable braking force.
Electric vehicle silent characteristics make any noise more obvious, demanding extremely high braking system noise control. Ceramic brake pad low-noise characteristics provide obvious advantages in electric vehicle applications.
Smart Manufacturing Technology Applications: Industry 4.0 and smart manufacturing technologies find increasingly widespread applications in braking system manufacturing. Through IoT, big data, artificial intelligence, and other technologies, we can achieve intelligent production process control, real-time quality monitoring, and equipment preventive maintenance.
Smart manufacturing not only improves production efficiency and product quality but also enables large-scale customized production satisfying different customer personalized needs. This production model transformation provides small and medium enterprises with opportunities to compete against large enterprises.
New Material Technology Breakthroughs: Nanomaterials, composite materials, functional materials, and other new material technologies find increasingly wide applications in braking systems. These new materials not only improve product performance but also provide new possibilities for product innovation.
For example, nano-ceramic material applications can significantly improve braking performance and wear resistance; smart material applications may achieve adaptive braking performance adjustments; bio-based material applications help improve product environmental performance.
In-Depth Brand Story and Corporate Strength Demonstration
Corporate Development History and Technical Accumulation:
15-Year Professional Manufacturing Journey: Founded in 2008 during critical Chinese automotive market rapid development periods, our founding team originated from automotive manufacturing and component industries with deep technical backgrounds and rich management experience. From establishment, we determined development strategies focusing on braking systems while pursuing technical leadership.
During early development periods, we primarily engaged in OEM supporting business providing braking system products for domestic and international automotive manufacturers. This OEM experience not only accumulated rich technical experience but also established strict quality management systems. Through close cooperation with automotive manufacturers, we gained deep understanding of different vehicle model braking system requirements and technical characteristics.
As technical capabilities continuously strengthened and market experience accumulated, we gradually expanded aftermarket business developing product series targeting end users. FMSI D1890 represents representative products developed under these backgrounds, integrating 15 years of technical accumulation and market understanding.
Technical Innovation Capability Building: We’ve established comprehensive R&D systems including materials research laboratories, product development centers, testing verification centers, and other professional institutions. R&D teams comprise over 50 professional technical personnel including 10 master’s degree or higher senior engineers.
In materials research, we’ve established industry-university-research cooperation relationships with multiple renowned universities jointly conducting new materials and new process research and development. Currently, we’ve applied for over 30 patents including 15 invention patents and over 20 utility model patents.
In product development, we’ve established complete product development processes from market research, concept design, engineering design, sample trial production, testing verification to batch production—each stage maintains clear standards and requirements.
Quality Management System Improvement: We’ve achieved ISO 9001:2015 quality management system certification and IATF 16949:2016 automotive industry quality management system certification, establishing quality management systems aligned with international standards.
Quality management covers not only production manufacturing but also design development, procurement, sales, service, and other complete processes. Through Statistical Process Control (SPC), Failure Mode and Effects Analysis (FMEA), Measurement System Analysis (MSA), and other advanced quality management tools, we ensure product quality stability and consistency.
We’ve established comprehensive supplier management systems implementing strict evaluation and monitoring of critical raw material suppliers ensuring raw material quality stability. Simultaneously, we’ve established comprehensive product traceability systems enabling tracing to every batch product’s raw material sources, production processes, inspection results, and other detailed information.
Production Capacity and Technical Equipment:
Advanced Production Line Configuration: We possess 6 modernized brake pad production lines with annual capacity reaching 5 million sets. Production lines employ advanced automation equipment including automatic batching systems, program-controlled hot presses, automated inspection equipment, etc., greatly improving production efficiency and product consistency.
Automatic batching systems precisely control various raw material ratios with errors controlled within 0.1%. Program-controlled hot presses employ advanced temperature and pressure control systems precisely controlling molding process parameters. Automated inspection equipment achieves automatic detection of product dimensions, density, hardness, and other key parameters.
Professional Testing Equipment Configuration: We’ve established comprehensive product testing centers equipped with friction coefficient test benches, braking performance test benches, noise testing rooms, environmental test chambers, and other professional testing equipment. These equipment serve not only product factory inspections but also new product development verification and quality problem analysis improvements.
Friction coefficient test benches can simulate friction characteristics under various conditions with test results highly consistent with actual usage. Braking performance test benches can conduct braking distance, braking force distribution, thermal fade, and other key performance testing. Noise testing rooms employ sound-absorbing designs precisely measuring braking noise magnitude and spectrum characteristics.
Information Management Systems: We’ve established complete information management systems including ERP systems, MES systems, quality management systems, customer relationship management systems, etc., achieving complete process information management from order processing to product delivery.
ERP systems achieve integrated financial, procurement, production, sales, inventory, and other business management. MES systems achieve real-time production process monitoring and data collection. Quality management systems achieve quality data statistical analysis and quality problem tracking processing. Customer relationship management systems achieve unified customer information management and standardized customer service processing.
Brand Philosophy and Social Responsibility:
“Safety First, Quality Supreme” Core Philosophy: We consistently maintain “Safety First, Quality Supreme” core philosophies, treating product safety and quality stability as enterprise development foundations. This philosophy reflects not only in product design and manufacturing processes but also enterprise culture and employee behavior.
During product design stages, safety represents primary considerations with all design solutions requiring safety assessments. During manufacturing processes, quality represents non-negotiable baselines with any quality issues receiving serious treatment and complete resolution.
Environmental Protection and Sustainable Development: We actively practice environmental protection and sustainable development concepts considering environmental requirements across product design, raw material selection, production processes, packaging materials, and other elements.
In product design, we prioritize environmental materials reducing harmful substance usage. In production processes, we employ clean production processes minimizing waste emissions. In packaging design, we use recyclable materials reducing packaging material usage.
Employee Development and Corporate Culture: We emphasize employee career development and capability improvement establishing comprehensive training systems and career development channels. We regularly organize technical training, management training, quality training, etc., improving employee professional capabilities and comprehensive qualities.
Corporate culture emphasizes teamwork, continuous improvement, and customer orientation, creating positive work atmospheres. Through employee suggestion systems, quality improvement activities, technical innovation rewards, and other mechanisms, we stimulate employee innovation enthusiasm and improvement consciousness.
Practical Information
Detailed Usage Methods and Operation Guides
Professional Installation Process Step Details:
Pre-Installation Preparation Work: Before installing FMSI D1890 ceramic brake pads, comprehensive preparation work must be conducted to ensure smooth installation processes and final installation quality.
First, tool preparation: Professional braking system maintenance tools are required including jacks, tire wrenches, brake caliper repositioning tools, various specification wrenches and screwdrivers, cleaning agents, lubricating grease, etc. Ensure all tools remain in good condition—particularly torque wrenches require calibration ensuring fastener torques meet specification requirements.
Second, environment preparation: Select level, solid ground for operations ensuring stable vehicle parking. If conducted in maintenance workshops, ensure adequate lighting and ventilation. Prepare waste collection containers for disposing old brake pads and packaging materials.
Finally, safety preparation: Wear appropriate protective equipment including work clothes, safety gloves, protective eyewear, etc. Ensure vehicles are turned off with parking brakes engaged, using tire wedges when necessary preventing vehicle sliding.
Detailed Old Brake Pad Removal Steps: Removal processes require strict standard procedure adherence ensuring no damage to other braking system components.
Step One: Raise vehicle and remove wheels. Use jacks to raise vehicles ensuring stable support. Remove wheel bolts in diagonal sequences, carefully removing wheels. At this point, brake calipers and brake discs become directly visible.
Step Two: Remove brake calipers. Based on Ford Fiesta specific structures, remove caliper mounting bolts. Typically, upper and lower mounting bolts require appropriate wrenches for removal. During removal, pay attention to brake fluid lines preventing excessive pulling causing damage.
Step Three: Extract old brake pads. After opening calipers, inner and outer brake pads become visible. Carefully remove old brake pads while observing wear conditions and wear patterns—this information helps assess overall braking system conditions.
Step Four: Inspect brake disc conditions. Examine brake disc surfaces for deep scratches, cracks, or excessive wear. If brake discs show severe wear or uneven surfaces, machining or replacement becomes necessary.
Cleaning and Preparation Work: Cleaning work proves critically important for ensuring new brake pad performance.
Brake Caliper Cleaning: Use specialized braking system cleaners to thoroughly clean caliper interiors and piston surfaces. Remove accumulated brake dust, oil contamination, and corrosive substances. Pay particular attention to piston surfaces ensuring smoothness without scratches and smooth piston extension/retraction.
Brake Disc Cleaning: Clean brake disc surface corrosion and contaminants ensuring surface cleanliness. For brake discs with light corrosion, use fine sandpaper for gentle sanding while avoiding surface flatness damage.
Guide Pin Inspection and Lubrication: Inspect brake caliper guide pin conditions ensuring smooth sliding. Clean guide pins and apply specialized high-temperature lubricating grease. This step proves very important for ensuring uniform brake pad wear.
New Brake Pad Installation Process: Installing new brake pads requires particular attention to correct installation directions and positions.
Step One: Confirm brake pad models. Verify FMSI D1890 brake pad package markings and product identifications ensuring complete vehicle model matching. Inspect brake pad surfaces for damage or contamination.
Step Two: Apply anti-noise paste. Apply specialized brake anti-noise paste to brake pad backing plate contact surfaces while avoiding friction surface applications. Anti-noise paste functions to reduce metal contact noise improving braking comfort.
Step Three: Correctly install brake pads. Install brake pads into calipers in correct directions ensuring accurate positioning. Inner and outer brake pad installation directions differ requiring careful verification. During installation, avoid damaging friction surfaces.
Step Four: Reposition brake pistons. Use specialized tools to slowly reposition brake pistons providing adequate space for new brake pads. Repositioning processes should proceed slowly avoiding piston seal damage.
System Reassembly: After completing brake pad installation, reassemble braking systems in reverse order.
Caliper Assembly: Reassemble brake calipers to brake discs, tightening mounting bolts to specified torques. Ensure correct caliper positioning with smooth movement.
Wheel Assembly: Reassemble wheels, tightening wheel bolts to specified torques and sequences. Typically employ diagonal sequences with two-stage tightening ensuring uniform force distribution.
Scientific Braking System Break-In Methods:
Understanding Break-In Period Importance: Newly installed ceramic brake pads require appropriate break-in periods to achieve optimal performance. Break-in processes actually involve brake pad friction materials and brake disc surfaces mutually adapting—through this process, two contact surfaces achieve optimal matching conditions.
Insufficiently broken-in brake pads may exhibit the following problems: unstable braking force, longer braking distances, increased braking noise, uneven wear, etc. Therefore, scientific break-in processes prove important for ensuring product performance.
Specific Break-In Process Operations: Break-in processes require gradual progression avoiding excessive braking force causing friction surface overheating or damage.
First Stage (0-100 kilometers): Light braking stage. During this stage, braking force should be controlled at 50-70% of normal braking levels avoiding sudden braking and extended braking. After braking, allow braking systems adequate cooling before subsequent braking.
Second Stage (100-200 kilometers): Gradual intensification stage. Braking force can gradually increase while still avoiding emergency braking. Moderate-intensity braking operations are acceptable, but each braking session requires adequate system cooling.
Third Stage (200-300 kilometers): Normal usage stage. During this stage, normal-intensity braking operations are acceptable while still avoiding continuous heavy braking.
Break-In Period Precautions: Avoid High-Temperature Conditions: During break-in periods, particularly avoid extended downhill braking, continuous emergency braking, and other conditions potentially causing braking system overheating. Overheating may cause friction material chemical changes affecting subsequent usage performance.
Avoid Deep Water Driving: During break-in periods, avoid deep water immersion as moisture may affect friction surface formation processes. After water immersion, conduct light braking to remove friction surface moisture.
Observe Braking Performance: During break-in periods, closely observe braking system performance including braking effectiveness, noise conditions, pedal feel, etc. If abnormal conditions are discovered, conduct timely inspections.
Comprehensive Safety Precautions and Usage Recommendations
Comprehensive Safety Precaution Coverage:
Installation Safety Key Points: Braking system installation work must be performed by professional technicians with appropriate qualifications and experience. Braking systems directly relate to driving safety—any installation errors may cause serious safety consequences.
Professional Qualification Requirements: Installation technicians must possess professional braking system maintenance knowledge and skills, familiar with Ford Fiesta braking system structural characteristics and technical requirements. For inexperienced technicians, operations should be conducted under experienced master guidance.
Tool Usage Standards: Professional braking system maintenance tools must be used—particularly torque wrenches must be calibrated. Fastener torques must strictly follow technical specifications—insufficient tightening may cause component detachment while excessive tightening may cause component damage.
Installation Quality Inspections: After installation completion, comprehensive quality inspections must be conducted including brake pad installation positions, caliper assembly conditions, brake fluid levels, brake pedal travel, etc. Only after confirming all items meet requirements can vehicles be put into service.
Professional Brake Fluid Handling Requirements: During brake pad replacement processes, brake fluid handling often becomes involved, requiring special professional knowledge and precautions.
Brake Fluid Characteristic Understanding: Brake fluids possess hygroscopic properties—extended air exposure absorbs moisture affecting braking performance. Simultaneously, brake fluids are corrosive to automotive rubber components and paint requiring operation avoidance of splashing these areas.
Fluid Level Monitoring: During piston repositioning processes, brake fluid returns from brake calipers to brake fluid reservoirs potentially causing level rises or overflow. Before operations, inspect reservoir levels, extracting partial brake fluid when necessary.
Bleeding Operations: If air enters during installation processes, braking system bleeding must be conducted. Air presence causes soft brake pedals with decreased braking effectiveness. Bleeding operations require two-person cooperation following standard procedures.
Test Drive Safety Standard Requirements: Post-installation test drives prove important for ensuring installation quality but must be conducted under safe conditions.
Test Drive Environment Selection: Test drives should be conducted in safe locations such as spacious parking lots or closed test roads. Avoid initial test drives on busy traffic roads.
Progressive Testing: Test drives should employ progressive methods starting from low-speed light braking, gradually increasing vehicle speeds and braking intensities. Observe braking effectiveness, noise conditions, steering wheel vibrations, etc.
Abnormal Condition Handling: If any abnormal conditions are discovered during test drives, immediately stop testing and recheck installation quality. Never continue driving with problems.
Practical Usage Recommendation Guidance:
Systematic Daily Inspection Methods: Establishing regular inspection systems proves important for ensuring continuous reliable braking system operation.
Visual Inspections: Regularly inspect brake pad visual conditions including thickness, surface wear conditions, cracks or damage presence, etc. During inspections, pay attention to wear uniformity—uneven wear may indicate other braking system problems.
Performance Inspections: During daily driving, pay attention to braking system performance including braking distances, pedal feel, braking noise, etc. Any obvious changes should receive attention.
Wear Indicator Monitoring: Utilize product-designed visual wear indication systems regularly checking brake pad remaining thickness. When approaching replacement standards, arrange timely replacements.
Driving Habit Optimization Recommendations: Good driving habits not only extend brake pad service life but also enhance driving safety.
Predictive Braking: Develop predictive driving habits, advance road condition change judgments, and minimize sudden braking. Predictive braking not only reduces brake pad wear but also improves ride comfort.
Engine Auxiliary Braking: During extended downhill sections, fully utilize engine auxiliary braking effects reducing braking system dependence. Lower gear selections can enhance engine braking effectiveness.
Intermittent Braking Techniques: Under extended braking requirements, employ intermittent braking techniques avoiding braking system overheating. Allow braking systems adequate cooling time.
Environmental Factor Response Strategies: Different environmental conditions place different requirements on braking system usage.
Rainy/Snowy Weather: In wet and snowy conditions, slippery road surfaces affect braking effectiveness. Increase following distances appropriately, brake earlier, and avoid sudden braking causing vehicle control loss.
High-Temperature Environments: After extended high-temperature environment driving, braking system temperatures become elevated—avoid immediate cold water washing preventing brake disc deformation from rapid cooling.
Mountain Roads: When driving mountain roads, fully utilize engine braking avoiding extended continuous braking causing braking system overheating.
Scientific Maintenance and Care Scheduling: Braking system maintenance and care should be planned and systematic.
Regular Inspection Cycles: Recommend comprehensive inspections every 5,000 kilometers or 3 months including brake pad thickness, brake fluid levels, brake hose conditions, etc.
Replacement Timing Judgments: When brake pad thickness approaches minimum safety thickness (typically 2-3mm), conduct timely replacements. Don’t wait for complete wear before replacing as this may damage brake discs.
Systematic Maintenance: During brake pad replacements, simultaneously inspect brake discs, brake fluid, brake hoses, and other related components ensuring entire braking system good conditions.
Detailed Compatible Vehicle Model Lists
In-Depth Ford Series Vehicle Model Compatibility Analysis:
Ford Fiesta Generation Applicability: FMSI D1890 ceramic brake pads primarily target Ford Fiesta vehicle models, but due to Ford introducing different Fiesta versions across different markets and periods with braking system design variations, detailed compatibility analysis becomes necessary.
Sixth Generation Ford Fiesta (2008-2017): This generation represents FMSI D1890’s primary application target. This generation achieved enormous global sales with relatively unified braking system designs providing optimal compatibility. Includes three-door, five-door, ST versions, and other different configurations.
Seventh Generation Ford Fiesta (2017-present): New generation vehicles feature braking system improvements while maintaining basic dimensional specification compatibility. Note that ST and RS versions may employ larger braking systems requiring separate compatibility confirmations.
Regional Version Differences: Ford Fiesta versions in different regional markets may maintain subtle differences particularly in brake caliper suppliers and brake disc specifications. European, North American, and Asian versions may require separate compatibility verifications.
Other Ford Vehicle Model Compatibility Possibilities: Since automotive manufacturers typically share braking system designs across same-platform vehicles, FMSI D1890 may also apply to other Ford vehicles based on similar platforms.
Ford B-Max: As MPV vehicles developed from Fiesta platforms, braking system designs highly resemble Fiesta with excellent compatibility.
Ford EcoSport: Early EcoSport versions based on Fiesta platforms may maintain compatible braking systems requiring specific dimensional specification verifications.
Note that even same-brand different vehicle models may employ different specification braking systems due to weight and braking requirement differences—therefore specific technical specification verification remains essential during selection.
Multi-Brand Compatibility Technical Principles:
Industry Background of Braking System Standardization: Automotive braking system standardization represents important automotive industry development trends. Particularly in European markets, different brand automotive manufacturers frequently share braking system suppliers and technical standards providing technical foundations for cross-brand compatibility.
For example, PSA Group (now Stellantis Group) Peugeot and Citroën brands maintain braking system design similarities with Ford in certain vehicle models. These similarities stem from several aspects: shared braking system suppliers, similar vehicle model positioning and braking requirements, adherence to identical safety standards and regulatory requirements.
FMSI standards themselves were established to promote braking system component standardization. Through FMSI numbering systems, different brand vehicle models employing identical specification braking systems can use identical brake pad products.
CITROËN Brand Compatibility Analysis: Based on technical specification displays, FMSI D1890 maintains compatibility with CITROËN part number 16 108 141 80. This compatibility primarily manifests in the following vehicle models:
CITROËN C3 (specific model years): As important small car market vehicles, C3 maintains braking system design similarities with Ford Fiesta. Particularly European market versions maintain highly consistent brake caliper and brake disc specifications.
Compatibility verification processes include: dimensional matching verification (precise length, width, thickness matching), installation interface verification (positioning holes, guide groove structure matching), performance requirement verification (braking force requirements, thermal load requirement matching), safety standard verification (compliance with identical safety certification requirements).
PEUGEOT Brand Multi-Model Compatibility: PEUGEOT brand displays broader compatibility covering multiple part numbers: 16 113 314 80, 16 478 758 80, 16 478 864 80. This multi-model compatibility reflects PEUGEOT employing similar braking system designs across different periods and vehicle models.
PEUGEOT 208: As important small car segment vehicles, 208 series maintain braking system design technical commonalities with Ford Fiesta. Particularly in brake caliper structural design and brake pad specification requirements.
PEUGEOT 2008: As small SUVs, despite different vehicle model positioning, braking system specifications remain consistent due to similar technical platform foundations.
Cross-brand compatibility technical verification includes: material compatibility testing (ensuring ceramic materials match different brand brake discs), performance consistency testing (ensuring consistent braking performance across different vehicle models), durability verification (ensuring reliability under different usage conditions).
Other Brand Compatibility Coverage: KASHIYAMA D2042H: KASHIYAMA as renowned Japanese braking system component manufacturer maintains product standards compatible with FMSI systems. This compatibility provides more Asian market application possibilities.
WVA 25841, 25968: WVA (World Vehicle Association) represents another important automotive component identification system. WVA standard compatibility further expands product application ranges particularly in commercial and specialty vehicle fields.
Achieving multi-standard compatibility requires: strict dimensional tolerance control, material performance consistency assurance, production process standardization, quality management system unity.
Compatibility Verification Technical Methods:
Precision Dimensional Matching Verification: Compatibility verification’s first step involves precision dimensional matching. This includes not only main dimensional matching but also all detail dimension verification.
Main Dimension Verification: Length, width, thickness must match within allowable tolerance ranges. Tolerances typically control within ±0.1mm ensuring installation precision.
Detail Structure Verification: Including chamfer dimensions, hole positions, groove shapes, and other detail structure matching. While these details appear insignificant, they significantly impact installation quality and usage performance.
3D Scanning Technology Applications: Utilizing high-precision 3D scanning technology, we obtain complete geometric information of original brake pads ensuring new product dimensional complete matching.
Comprehensive Performance Matching Assessment: Beyond dimensional matching, comprehensive performance matching assessments ensure products provide consistent performance across different vehicle models.
Braking Force Requirement Analysis: Different vehicle models may maintain different braking force requirements due to weight and usage differences. Each compatible vehicle model’s braking force requirements require analysis ensuring products satisfy requirements.
Thermal Load Capability Verification: Different usage conditions place different thermal load requirements on braking systems. Product performance under various thermal load conditions requires verification.
NVH Performance Matching: Noise, vibration, harshness (NVH) characteristic performance across different vehicle models may maintain differences requiring specialized matching adjustments.
Comprehensive Real Vehicle Verification Testing: Final compatibility verification requires real vehicle testing completion ensuring product reliability and safety under actual usage conditions.
Multi-Vehicle Model Testing: Conduct real vehicle testing on each claimed compatible vehicle model verifying installation compatibility, braking performance, service life, and other key indicators.
Multi-Condition Verification: Testing under different usage conditions including urban driving, highway driving, mountain roads, and other different conditions.
Long-Term Durability Testing: Through extended usage testing, verify product durability and reliability under actual usage conditions.
Future Development Planning and Technical Prospects
Product Technology Upgrade Innovation Directions:
Continuous Environmental Material Technology Progress: As environmental regulations become increasingly stringent, brake pad industries face urgent material technology upgrade needs. FMSI D1890’s future development will focus on more environmentally friendly material technologies.
In-Depth Copper-Free Formulation R&D: While current products already employ low-copper formulations, future developments will create completely copper-free formulation systems. This requires discovering new metallic fiber replacement materials while ensuring unaffected braking performance. Preliminary research indicates new alloy fiber and functional ceramic material combinations may achieve these objectives.
Bio-Based Material Application Exploration: We’re researching bio-based material applications in brake pad manufacturing including natural fibers and bio-based resins. These materials not only provide superior environmental performance but also possess good friction performance and renewable characteristics.
Recyclable Material Circular Utilization: Developing brake pad material recycling utilization technologies achieving material circular usage. This not only meets environmental requirements but also reduces production costs enhancing product market competitiveness.
Smart Braking Technology Integration Development: As automotive intelligence levels continuously improve, braking systems also develop toward intelligent directions. Future brake pad products will integrate more intelligent technology elements.
Wear Monitoring Technology: We’re developing integrated wear monitoring systems using sensor technologies for real-time brake pad wear condition monitoring with information transmission to vehicle systems alerting drivers for timely replacements.
Temperature Monitoring and Protection: Developing temperature monitoring functions—when braking system temperatures become excessive, automatic braking strategy adjustments prevent thermal fade phenomena.
Adaptive Performance Adjustment: Researching adaptive material technologies enabling brake pads to automatically adjust friction characteristics based on different usage conditions providing optimal braking performance.
In-Depth Nanotechnology Applications: Nanotechnology possesses unique advantages in material modification, finding broader applications in future brake pad manufacturing.
Nano-Enhanced Ceramic Substrates: Through nanotechnology-modified ceramic substrates, we can improve material mechanical properties, thermal stability, and wear resistance. Preliminary experiments indicate nano-enhancement technology can improve product performance by over 30%.
Nano-Surface Technology: Applying nano-surface treatment technology creates special nano-structures on friction surfaces, improving friction characteristics and heat dissipation performance.
Nano-Lubrication Technology: Developing nano-scale dry lubrication technology reduces friction interface wear while extending service life.
Market Expansion Strategic Planning:
In-Depth Emerging Market Development: As global automotive market focus shifts toward emerging markets, braking system aftermarkets present new development opportunities.
Southeast Asian Market Expansion: Southeast Asian regions experience rapid automotive population growth with enormous aftermarket potential. We plan establishing sales networks in Thailand, Malaysia, Indonesia, and other countries providing localized services.
South American Market Development: Brazil, Argentina, and other South American countries maintain rapidly developing automotive markets with growing demands for high-quality brake pads. We plan cooperating with local distributors to explore South American markets.
African Market Exploration: Africa represents the global automotive market’s final frontier with enormous long-term development potential. We plan selecting South Africa and other developed regions as African market entry bridgeheads.
Electric Vehicle Market Strategic Positioning: Electric vehicle rapid development brings new opportunities and challenges for braking system suppliers.
Electric Vehicle Specialized Product Development: Targeting electric vehicle braking characteristics, we’re developing specialized brake pad products. These products require better low-speed braking performance, lower noise levels, and stronger corrosion resistance.
Regenerative Braking System Adaptation: Researching coordination technologies with regenerative braking systems ensuring smooth transitions between regenerative and friction braking.
Lightweight Technology Applications: Electric vehicles maintain weight sensitivity—developing lightweight braking system components contributes to electric vehicle range improvements.
High-End Market Value Enhancement: While consolidating mid-to-low-end market positions, we’re gradually penetrating high-end markets to enhance brand value and profit levels.
High-Performance Product Line Development: Targeting performance cars, luxury cars, and other high-end market needs, we’re developing high-performance brake pad products. These products maintain higher requirements for braking performance, comfort, and durability.
Customization Service Expansion: Providing more personalized customization services for high-end customers including performance parameter customization, appearance design customization, and packaging solution customization.
Technical Service Value-Added: Providing more professional and in-depth technical services including braking system optimization consultation, usage training, and technical support value-added services.
Cutting-Edge Technology Innovation Exploration:
Forward-Looking New Material Technology Research: Material technology represents braking system development’s core driving force requiring continuous attention and investment in cutting-edge material technology research.
Carbon-Based Composite Materials: Researching carbon fiber, graphene, and other carbon-based material applications in braking systems—these materials possess superior thermal conductivity and mechanical strength.
Functionally Graded Materials: Developing functionally graded composite materials achieving different functional requirements in different regions within single components.
Smart Material Applications: Researching shape memory alloys, piezoelectric materials, and other smart material application possibilities in braking systems.
Revolutionary Manufacturing Process Innovation: Manufacturing process innovation represents important pathways for improving product quality and reducing costs.
3D Printing Technology: Exploring 3D printing technology applications in brake pad manufacturing, particularly in complex structure manufacturing and rapid prototyping.
Laser Sintering Processes: Researching laser sintering and other advanced molding processes achieving more precise structural control and higher material utilization rates.
Digital Manufacturing: Advancing digital manufacturing technologies achieving complete production process digital control and intelligent management.
Advanced Testing Verification Technology: Establishing more advanced and comprehensive testing verification systems ensures continuous product quality and performance improvements.
Virtual Testing Technology: Utilizing computer simulation technologies for virtual testing, predicting performance during product development stages while reducing physical testing costs.
Accelerated Aging Technology: Developing more precise accelerated aging testing methods verifying long-term product performance within short timeframes.
Online Monitoring Technology: Establishing production process online monitoring systems for real-time product quality monitoring achieving zero-defect production.
Long-Term Sustainable Development Vision:
Environmentally Friendly Green Manufacturing: Integrating environmental protection and sustainable development concepts throughout product lifecycles achieving truly green manufacturing.
Clean Production Processes: Continuously improving production processes reducing waste generation, improving material utilization rates, and decreasing environmental impacts.
Energy Efficiency Optimization: Improving production process energy efficiency, increasing renewable energy usage proportions, and reducing carbon emissions.
Circular Economy Models: Establishing product recovery and reuse systems achieving material circular utilization and constructing circular economy models.
Active Social Responsibility Fulfillment: As automotive safety system suppliers, we actively fulfill social responsibilities contributing to traffic safety and social development.
Safety Technology Promotion: Through technical innovation and product improvements, we enhance automotive braking system safety performance reducing traffic accidents.
Technical Knowledge Sharing: Through training, exchanges, and cooperation, we promote advanced braking technology knowledge improving overall industry levels.
Talent Development Support: Cooperating with universities to cultivate professional technical talent providing industry development with talent support.
Global Development Strategic Implementation: Under globalization backgrounds, we achieve enterprise internationalization development becoming globally influential braking system suppliers.
International Standard Integration: Comprehensively aligning with international advanced standards ensuring product quality reaches internationally leading levels.
Global Service Networks: Establishing service networks covering global primary markets providing customers with timely, professional technical support.
Transnational Cooperation Expansion: Conducting technical cooperation and market cooperation with internationally renowned enterprises achieving mutually beneficial development.
Conclusion
FMSI D1890 ceramic brake pads, as high-quality braking system products, have established excellent market reputations through superior technical performance, reliable quality assurance, and comprehensive service systems. Looking toward the future, products will continue developing in technical innovation, market expansion, and service improvement, providing global users with safer, more environmentally friendly, and more efficient braking solutions.
Whether you’re individual users, repair shop operators, or bulk procurement merchants, FMSI D1890 can provide professional products and services. We’re committed to becoming your trusted braking system partners, jointly contributing to automotive industry safety development.
For additional product information, technical support, or business cooperation, please contact our professional teams anytime. We will satisfy your every requirement with the most professional attitudes and highest quality services.