ALUMINUM RADIATOR FOR BMW 523i 525i 528i 530i 630i 730i E60 E61 E63 E66 2003-2005 17117534914 MT
TERMS:
What makes we different?
1. We have a professional team, our team members are well educated, outstanding experiences and knowledge of spare parts and mechanical issues.
2. We have strong backup in Ontario Canada, where we have CHASE people working over there, and can share data one and the other.
3.Company reputation and personal credit is putting in first place, that’s what we CHASE members keeping in mind, and why we do my best for our customer responsibly.
4.CHASE members always chasing BEST VALUE for our customers, with our passion.
Quality Policy
1.All parts enjoy one year quality warranty.
2. Defective Item Refund Procedure:
Customer offer clear pictures of the defective item and its package condition. After we confirm that the problem caused by our production or not-well-protected package during delivery, we will do full refund or reoffer new item next order.
MOQ: 20 pcs for each item.
Packing: Strong Carton
Payment: T/T 30% Deposit, Balance T/T before shipping.
Loading Port: Guangzhou, Shenzhen
Delivery time: Usually 20-40 days after the confirm of order.
SPECIFICATION
Material: All Aluminum Radiator
Structure: Tube-Fin, Hand Welded
Rugged tank design delivers increased durability under all pressure and temperature cycles Enhanced fin louver design delivers maximum heat transfer Interlocking sidepiece design allows for thermal expansion & contraction of materials while maintaining maximum structural integrity
1 Rugged tank design delivers increased durability under all pressure and temperature cycles
Enhanced fin louver design delivers maximum heat transfer
Interlocking sidepiece design allows for thermal expansion & contraction of materials while maintaining maximum structural integrity
1 .Rugged tank design delivers increased durability under all pressure and temperature cycles
2 .Enhanced fin louver design delivers maximum heat transfer
3. Interlocking sidepiece design allows for thermal expansion & contraction of materials while maintaining maximum structural integrity