15 surface treatment processes for parts, this is probably the most complete summary I've ever seen, it's worth saving!
15 surface treatment processes for parts, this is probably the most complete summary I've ever seen, it's worth saving!
Processing technology and process optimisation method for titanium materials such as titanium rods and rings
IntroductionTitanium alloy is one of the main materials used in the aerospace industry, which is lightweight but extremely strong, with a density of 4.4 kg/m3. Titanium alloy is extremely strong and can withstand high temperatures and resist corrosion, etc. Titanium alloy can be welded perfectly. Titanium alloy can be welded perfectly
What are the cooling methods for forgings and how is the cooling rate determined?
The forging is put into the pit or iron box closed cooling, or buried in the pit sand, lime or slag cooling. General forging sand temperature should not be less than 500 ℃, around the thickness of sand accumulation should not be less than 80mm
Analysis on non-standard Hefei precision parts machining when what surface treatment?
Non-standard cnc precision parts machining refers to the process of machining and manufacturing various materials according to customer-specific design drawings or technical requirements in order to produce parts with non-standard specifications and high precision requirements. Next
Difference between linked 5-axis machining and 3+2-axis machining
What is 3+2 axis CNC machining? Both vertical and horizontal milling machines are capable of three machining axes as standard. However, a rotary table and tilting swivel trunnions have been fitted to provide rotary movement along the other two axes. Basically, this is a 3+2 axis machining process.
Xinnuo special materials: high-end titanium alloy materials for the new quality of productivity to build a solid foundation of “industrial food”.
Currently, we are in a critical period of transition from a “manufacturing power” to a “manufacturing power”. With the deepening of new industrialisation, the high-quality development of the manufacturing industry no longer relies solely on the expansion of scale, but rather shifts to a higher pursuit of the performance of basic materials, precision and batch consistency.
Technical difficulties and solutions for the machining of high-precision parts
High-precision parts machining technical difficulties and solutions High-precision parts machining is an important technical link in the modern manufacturing industry, widely used in aerospace, automotive manufacturing, machinery and equipment, as well as electronic products and other fields. With the development of industrial automation and intelligent manufacturing
Customised processing of new material shaped parts: innovation leads the future manufacturing industry
With the continuous progress of science and technology and the rapid development of the manufacturing industry, the custom processing of new material shaped parts is gradually becoming a hot topic in the industry. In 2025, the application of new materials continues to expand, and their unique properties and advantages provide more possibilities for the processing of shaped parts.
Steel Anti-corrosion Processing_Steel Shot Peening and Rust Removal Processing_Steel Processing Company
Shanghai Steel Anti-corrosion Processing_Steel Shot Peening and Rust Removal Processing_Steel Processing Company,Eight Resources gathering a lot of Shanghai Steel Anti-corrosion Processing suppliers,buyers,manufacturers. This is the detailed page of Shanghai steel anti-corrosion processing_Steel Shot Peening and Rust Removal Processing_Steel Processing Company.
The Development of Micro-Cutting Technology and Micro-Machine Tools
The Development of Micro-Cutting Technology and Micro-Machines Abstract: Micro-machining technologies are set to become an indispensable key technological force in the future; among these, cutting technology, as the most fundamental processing step, requires continuous study and mastery. At the same time, micro-machines have emerged in response to this need.












