Ningbo Anyingjie Auto Parts Co.,Ltd.
|
Price: | 5.0 USD |
Payment Terms: | T/T |
Place of Origin: | Zhejiang, China (Mainland) |
Add to My Favorites | |
HiSupplier Escrow |
Our advantage:
1. About 10 years experience to export Toyota Hiace, Isuzu parts since 2006.
2. 800 cooperative suppliers and total about 2000 suppliers in our system.
3. 2500 items in our system had exported.
4. We control all process in software system included products, quotation, contract, supplier cooperation, goods pictures, warehouse^
5. We have long-term contract with supplier for advantage items, it can assure quality. If any problem, it can be solve easily.
FAQ:
1. Do you supply sample for some items?
Yes, you can place a trial sample order and pay by Paypal.
2.If need customer color box, How many quantity need to order?
Usually need 2000pcs for color box. We can calculate color box cost separately if goods quantity is small in first time.
Color box can be shipped with goods or stay here for next goods.
3. How long for delivery time after pay deposit?
Usually 15-20 days for more goods. Some goods have stock.
Packing:
1. Neutral package or customer package.
2. With label on item and carton.
3. With OE no on item package.
Shipping:
1. LCL or FCL from Ningbo, Shanghai, Other China Port.
2. CIF price is ok.
3. As agent of customer to collect and shipping goods is available.
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.