Feiteng Tc4 GB/T3620-2007 Titanium Shaft
|Place of Origin||Baoji, Shaanxi, China|
|Certification||GB/T19001-2016 idt ISO9001:2015; GJB9001C-2017|
|Model Number||Shaft Titanium|
|Minimum Order Quantity||To be negotiated|
|Price||To be negotiated|
|Packaging Details||To be negotiated|
|Delivery Time||To be negotiated|
|Supply Ability||To be negotiated|
|Brand Name||Feiteng||Model Number||Titanium Shaft|
|Certification||GB/T19001-2016 Idt ISO9001:2015; GJB9001C-2017||Packaging||Wooden Case|
|Place Of Origin||Baoji, Shaanxi, China||Specification||GB/T3620-2007|
|Grade||Tc4||Port Of Delivery||Xi'an Port, Beijing Port, Shanghai Port, Guangzhou Port, Shenzhen Port|
GB T3620 2007 Titanium Shaft,
Feiteng Tc4 titanium shaft,
GB T19001 Shaft Titanium
Shaft Titanium Alloy Shaft Tc4 GB/T3620-2007 At The End Of Shaft
|Port of delivery||
Xi'an port, Beijing port, Shanghai port, Guangzhou port, Shenzhen port etc.
Titanium is considered to be a rare metal because it is dispersed and difficult to extract in nature. Titanium can be melted with other elements such as iron, aluminum, vanadium or molybdenum to produce high-strength light alloys. They include aerospace (jet engines, missiles and spacecraft), military, industrial processing (chemicals and petroleum products, desalination and paper), automobiles, agricultural products, medicine (prosthetics, orthopedic implants, dental instruments and fillers), kitchenware, sporting goods, jewelry and mobile phones.
A shaft is a cylindrical object worn between bearings or wheels or gears, but a few are square. A shaft is a mechanical part that supports and rotates with a rotating part to transmit motion, torque, or bending moment. They are generally shaped like metal rods and may have different diameters. The rotating parts of the machine are attached to the shaft.
The structural design of the shaft is an important step to determine the reasonable shape and all the structural dimensions of the shaft. It is installed on the shaft parts type, size and its position, the fixed way of the parts, the nature of the load, direction, size and distribution, bearing type and size, the shaft of the blank, manufacturing and assembly process, installation and transportation, deformation of the shaft and other factors. Designers can design according to the specific requirements of the shaft, do a few scheme comparisons.
1, save material, reduce weight, try to use the same strength size or large section coefficient of the section shape;
2. Easy to accurately position, stabilize, assemble, disassemble and adjust the parts on the shaft;
3, adopt various structural measures to reduce stress concentration and improve strength;
4, easy to process and manufacture and ensure accuracy.