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By CNC milling in the back plate to form a custom flow channel, the flow channel is arranged with fins, using friction stir welding welded seal, especially suitable for high pressure conditions, high power density environment. The welding strength of the friction stir welding water cooled plate is equivalent to more than 90% of the base material, and the pressure is 10bar~30bar, or even higher.

Die casting is a metal casting process characterized by the use of a mold cavity to apply high pressure to melted metal. Molds are usually machined with higher strength alloys, in a process somewhat similar to injection molding. Most die casting castings are iron-free, such as zinc, copper, aluminum, magnesium, lead, tin, and lead-tin alloys and their alloys. Depending on the type of die casting, either a cold chamber die casting machine or a hot chamber die casting machine is required.

The cost of casting equipment and molds is high, so the die casting process is generally only used to mass-produce a large number of products. It is relatively easy to manufacture die-cast parts, which generally requires only four major steps and a low individual cost increment. Die casting is particularly suitable for manufacturing a large number of small and medium-sized castings, so die casting is one of the most widely used in various casting processes. Compared to other casting technologies, die casting has a flatter surface and a higher dimensional consistency.

On the basis of the traditional die casting process, several improved processes have been born, including the non-porous die casting process to reduce the casting defect exclusion porosity. Mainly used for processing zinc, which can reduce waste and increase the yield of direct injection process. There are also new die-casting processes such as precision and close die-casting technology and semi-solid die-casting invented by Lori.

CNC machining is a manufacturing technology that uses computer-controlled machine tools to cut, punch, drill, mill, turn, grind, etc., for the manufacture of various parts and components. CNC stands for computer numerical control, which is an automatic processing method that can accurately control the processing process through digital control instructions, so as to achieve high-precision and high-efficiency processing.

CNC machining has a wide range of applications. From aircraft parts, auto parts, ship parts, artificial bones, medical devices, to a variety of industrial machinery, and even entertainment equipment, CNC machining technology can be applied. Because the computer-controlled machining method has the characteristics of high efficiency, high precision, high quality and high stability, CNC machining is more and more widely used in the manufacturing industry.We can provide 3 Axis CNC Machining, 4 Axis CNC Machining, 5 Axis CNC Machining.

The CNC machining process requires several steps. First, you need to design CAD drawings and convert the drawings into digital G code. The G code is then transferred to the CNC machine controller and the machining parameters are set. In the processing process, the machine tools will cut, boring, milling and other processing operations in accordance with the preset G code path, and finally produce accurate cnc machining parts and components.

In general, CNC machining is a very important manufacturing technology, which can help the manufacturing industry achieve large-scale production, efficient processing and high-quality production. With the continuous development of science and technology, CNC machining technology is also evolving, and CNC machining will be applied in more fields in the future

 CNC machining is a manufacturing technology that uses computer-controlled machine tools to cut, punch, drill, mill, turn, grind, etc., for the manufacture of various parts and components. CNC stands for computer numerical control, which is an automatic processing method that can accurately control the processing process through digital control instructions, so as to achieve high-precision and high-efficiency processing.

CNC machining has a wide range of applications. From aircraft parts, auto parts, ship parts, artificial bones, medical devices, to a variety of industrial machinery, and even entertainment equipment, CNC machining technology can be applied. Because the computer-controlled machining method has the characteristics of high efficiency, high precision, high quality and high stability, CNC machining is more and more widely used in the manufacturing industry.

The CNC machining process requires several steps. First, you need to design CAD drawings and convert the drawings into digital G code. The G code is then transferred to the CNC machine controller and the machining parameters are set. In the processing process, the machine tools will cut, boring, milling and other processing operations in accordance with the preset G code path, and finally produce accurate CNC machining parts and components.

In general, CNC machining is a very important manufacturing technology, which can help the manufacturing industry achieve large-scale production, efficient processing and high-quality production. With the continuous development of science and technology, CNC machining technology is also evolving, and CNC machining will be applied in more fields in the future

What precisely is WPC?

Although the "w" in WPC stands for wood, the bulk of the items of this sort that are now being introduced to the market do not. Thermoplastics, calcium carbonate, and wood flour are the main components of WPC, a composite material. It is advertised as being waterproof, robust, and dimensionally stable when used as a core material in extrusion, which overcomes some of the drawbacks of conventional engineered wood while maintaining a wood-like appearance. Suppliers are branding their WPC solutions with titles like enhanced vinyl plank, engineered vinyl plank (or EVP flooring), and waterproof vinyl flooring in an effort to set themselves apart from the competition.

What distinguishes it from laminate?

The main benefit of WPC over laminate is that it is waterproof and suited for locations where laminate shouldn't traditionally be used, such as bathrooms and basements where moisture penetration is a possibility. Additionally, WPC materials do not require an expansion gap every 30 feet like laminate boards do, allowing them to be put in big spaces. WPC floors are cushioned and comfortable, and the vinyl wear layer also absorbs impact noise to make them silent floors. Because WPC doesn't require expansion moldings, it is also appropriate for wide-open areas like basements and Main Street commercial spaces.

What sets it apart from LVT?

The key distinctions between the two are that WPC flooring is waterproof and can be installed over most subfloors with little preparation. Because traditional vinyl flooring is flexible, any subfloor irregularities will be visible through the surface. Because the stiff core conceals subfloor flaws, WPC products offer a particular benefit over conventional glue-down LVT or solid-locking LVT. The stiff core also permits longer and broader forms. In order to utilize WPC over fractures and divots in concrete or hardwood subfloors, there is no need to worry about the preparation LVT would call for.