To shorten the precision processing cycle, we need to work together in many aspects like optimizing the process, improving management, and enhancing the design. This way, companies can cut down the processing time significantly and boost efficiency and competitiveness at the same time.
Marine industry: Due to its excellent resistance to saltwater corrosion, it is used in marine hardware, ship components, offshore structures and underwater equipment. Chemical processing:
Fastening elements are mechanical components that connect or fix two or more parts together. They are widely used in construction, mechanical engineering, automotive engineering and aerospace. They can be further subdivided according to material (carbon steel, stainless steel, aluminium alloy, etc.), surface treatment (galvanisation, blackening, Dacromet, etc.) and performance grade to meet different operating conditions.
"Stainless" is a relative concept and does not mean it will never rust. The rust prevention performance of 304 stainless steel is influenced by multiple factors such as material purity, environmental conditions, surface state, and usage and maintenance methods. When the protective film on the surface is damaged or in harsh environments, rust may still occur under certain conditions.
The industrial aluminum parts we produce are generally divided into two surface treatment methods: sandblasting oxidation and bright oxidation. Sandblasting oxidation is an additional sandblasting treatment step after the aging of aluminum profiles and before oxidation. Sandblasting involves slowly passing industrial aluminum profiles through a sandblasting machine. So why do many people prefer industrial aluminum parts that have undergone sandblasting and oxidation?
The main components of fluid machinery such as pumps, fans, and compressors are impellers, which come in various types. The number of blades is a crucial design parameter affecting efficiency. The complex trade-offs between fluid dynamics, mechanical strength, and manufacturing costs are key. In fact, increasing the number of blades does not necessarily mean higher efficiency; factors such as head, flow rate, and friction losses need to be considered.
