Ningbo Anyingjie Auto Parts Co.,Ltd.
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Price: | 5.0 USD |
Payment Terms: | T/T |
Place of Origin: | Zhejiang, China (Mainland) |
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OUR ADVANTAGE
Price&Quantity:Competitive price,we make discount on large quantity and accept small quantity.
Quality:Quality insurance( Assembly line production, high standard and strict inspection requirements,safe and reliable.)
Delivery time:Short delivery time,if we have products in stock ,we can send within 7days.None stock,we delivery within 45days after deposit.
Material:Asbestos free,Semi metallic ,carbon fiber and ceramic fiber
Using life:
Asbestos :30000 to 40000 kilometers
Non asbestos:70000 to 80000 kilometers
Semi metallic:70000 to 80000 kilometers
Ceramic:100000 kilometers up
Types:Available for 1,000 vehicle types
Packing:plastic bag and individual box
Why Choose Us
- We has been engaged in Casting and Machining industry for more than 10 years.
- The whole production cycle is monitored by our Quality Management System ISO 9001:2000 and ISO/TS16949 certificates.
- We supply all forms of casting parts and cnc machining parts: lost wax investment casting, sand casting, die casting, gravity casting and cnc machining services.
- Rich experience of OEM service.
- Our products has been sold to more than 30 countries, we are very familiar with the whole markets, especially for Europe and North America markets.
-If you have any needs, please contact us, we will sincerely provide you with perfect ONLINE 24HOURS services. Looking forward to your enquiry.
Ceramic Composite brake pads are extremely quiet, and deliver exceptional braking performance over a wide range of driving conditions. The Ceramic Composite braking material provides extreme stopping power when "cold" – right out of the driveway, or "hot" – after miles of all-out mountain highway. Ceramic Composite material is formed using high-strength ceramic fibers and non-ferrous metal filaments bonded at extreme pressure and temperature. Ductile metal-filaments produce a friction material with moderate base CoF (coefficient of friction) for optimal initial "bite", while durable heat resistant ceramic fibers and polymeric binders reduce thermal pad decomposition and out-gassing that contribute to high temperature brake "fade". The non-ferrous metal filament matrix provides high thermal mass and ideal thermal conductivity to quickly conduct energy away from the pad-rotor interface for fast thermal recovery. Lower operating temperatures reduce rotor wear and risk of deformation or warping.