Explore our industrial and automotive solutions engineered for precision performance, compliance, and demanding duty cycles.
Setting the Standards in High-Performance Friction Formulations and System Integration
Hangzhou MOAD AUTO Co., Ltd. is a leading professional manufacturer specializing in heavy-duty and automotive brake system components, including state-of-the-art brake pads, brake rotors, and specialized friction materials. Headquartered in Hangzhou, China, our company integrates end-to-end research and development (R&D), highly controlled manufacturing lines, sophisticated quality control systems, and a robust global sales network. We deliver high-reliability braking solutions for international automotive markets, servicing both original equipment manufacturers (OEM) and the high-grade aftermarket segment.
Backed by an elite technical team of mechanical designers and materials scientists, MOAD AUTO continuously innovates to meet strict industry standards for safety, operational consistency, and long-term durability. Our product portfolio spans passenger vehicles, heavy-duty commercial vehicle fleets, and complex industrial applications. By using modern testing apparatuses like Link Dynamometers and implementing strict process parameters, we ensure that every single brake component provides stable thermal performance, controlled wear, and excellent structural integrity across diverse driving cycles.
The global commercial transport and automotive landscapes are shifting rapidly. Logistics fleets must reduce downtime while dealing with larger payloads, and electric vehicles (EVs) require brake components compatible with regenerative braking systems. MOAD AUTO offers targeted engineering solutions to address these changes:
Our brake components utilize unique ceramic and semi-metallic formulations engineered to handle extreme thermal loads. By minimizing heat transfer to hydraulic fluid, we prevent brake fade under continuous downhill deceleration.
Electric vehicle cabins are incredibly quiet, making brake noise highly noticeable. We optimize the physical geometry of shims, slots, and chamfers to dampen high-frequency vibrations, satisfying strict OEM Noise, Vibration, and Harshness (NVH) requirements.
Our heavy-duty commercial vehicle solutions, such as the T24/24 Spring Brake Chambers and specialized trailer ABS valves, are designed to handle demanding road debris and corrosive environments, ensuring reliable safety margins.
Friction material supply chains are under pressure to balance environmental compliance with cost-effectiveness. In Europe and North America, strict limits on heavy metals mean manufacturers must quickly transition to copper-free formulations. Meanwhile, logistics operators demand extended service intervals to keep trucks on the road longer.
Hangzhou MOAD AUTO Co., Ltd. addresses these challenges by offering advanced friction alternatives, including ceramic-organic, low-metallic, and customized paper-based friction materials. Rather than relying on simple casting methods, we use computerized hydraulic pressing systems and precision induction curing. This ensures stable shear strength, uniform density, and highly consistent coefficients of friction (CoF) across every batch, protecting vehicles from premature wear.
Selling components globally requires strict adherence to international regulations. At MOAD AUTO, compliance isn't an afterthought; it is integrated directly into our design and manufacturing processes:
Our diverse range of brake components is engineered for optimal performance across several challenging applications:
A closer look inside Hangzhou MOAD AUTO Co., Ltd. - highlighting our machinery, raw material storage, and quality inspection workflows.










The future of automotive and industrial braking lies in safety, environmental sustainability, and intelligence. MOAD AUTO is actively investing in the next generation of braking technologies to support our partners worldwide:
We are expanding our range of copper-free friction materials to meet strict environmental regulations in North America and Europe, keeping dust emissions minimal without compromising stopping power.
Our team is developing smart brake pad designs with integrated wear and temperature sensors, feeding real-time diagnostics directly into fleet telematics systems.
We are researching advanced dry brake designs that support drive-by-wire technologies. This helps optimize response times in autonomous commercial vehicles and modern EVs.
Key technical explanations covering certifications, material selection, and system integration.
Explore our highly-engineered mechanical subsystems, auxiliary electrical controls, and high-capacity manufacturing technologies.