Designed for endurance riding, daily training, and all-road adventures, this lightweight aluminum bicycle combines responsive handling, long-distance comfort, and versatile road performance. Ideal for OEM bicycle brands, distributors, and private-label projects.
✔ 6061 Aluminum Alloy Frame
✔ Lightweight Performance Design
✔ Internal Cable Routing
✔ Disc Brake Compatible
✔ 700C Road Wheelset
✔ Wide Tire Clearance
✔ OEM & ODM Available
✔ Custom Color & Logo Support
Sourcing bicycle frames from a Taiwan OEM manufacturer is a structured process — one that starts well before the first purchase order and depends on technical alignment, quality verification, and a clear understanding of manufacturing capability. For international buyers representing bicycle brands
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T4 and T6 are the two most common heat treatment tempers applied to aluminum alloy bicycle frames. Both begin with solution heat treatment — heating the aluminum under precisely controlled conditions and then quenching it — but they differ in how the material is aged afterward. T4 temper is solution
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TIG welding stands as the premier structural joining process for manufacturing thin-wall chromoly steel bicycle frames. Because lightweight Cr-Mo tubing leaves an exceptionally narrow margin for error, precision manual arc execution is mandatory to prevent burn-through, control distortion, and limit the heat-affected zone around high-stress junctions like head tubes and bottom brackets. Sourcing dual-material lines from an experienced OEM partner like Huang Wei Technology—which combines decades of ISO 9001-certified aluminum frame expertise with expanded chromoly fabrication capabilities—ensures consistent weld bead integrity, rigorous structural alignment, and dependable production scaling for premium bicycle brands.
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TIG welding aluminum is the precision joining method that holds most high-quality aluminum bicycle and cargo frames together — but it is also one of the more technically demanding welding tasks in frame fabrication. Aluminum's high thermal conductivity, its tenacious surface oxide layer, and its ten
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