Pipe fittings mold
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Pipe fitting molds are molds used to produce various shaped pipe fitting products. They are supporting tools used in the injection molding industry to shape pipe fitting materials. Do you know the development trends in the pipe fitting mold processing industry?
1. The increasing size of pipe fitting mold forming parts and the high production rate requirements lead to multi-cavity molds, resulting in the gradual large-scale of molds. Large tonnage molds can reach 100 tons, with hundreds or thousands of cavities in one mold, requiring mold processing equipment with large work tables, increased Y-axis and Z-axis travel, high load capacity, high rigidity, and high consistency.
2. The mold steel materials used in pipe fitting mold processing have high hardness, requiring mold processing equipment to have thermal stability and high reliability.
3. For complex cavities and multifunctional composite molds, as the shapes of the parts become more complex, it is necessary to improve the design and manufacturing level of the molds. Multifunctional composite molds that form or assemble multiple grooves and materials in one set of molds require a large amount of processing programming, with high comprehensive cutting capabilities for deep cavities and high stability, increasing the difficulty of processing.
4. The refinement of pipe fitting mold processing makes the complexity and efficiency of processing equipment more noteworthy. The advantages of high-speed milling, such as the ability to process high-hardness materials, stable processing, low cutting force, and minimal workpiece thermal deformation, have led mold enterprises to increasingly focus on high-speed processing.
5. High dynamic precision. The static performance introduced by machine tool manufacturers cannot reflect the actual processing situation during the three-dimensional surface processing of molds. The high-precision processing of three-dimensional curved surfaces of molds further raises the requirements for high dynamic precision performance. High-speed and high-precision processing must also be combined with the high rigidity, thermal stability, high reliability of the machine tools, and high-quality control systems to be achievable.Pipe fitting molds
Pipe fitting molds are molds used to produce various shaped pipe fitting products. They are supporting tools used in the injection molding industry to shape pipe fitting materials. Do you know the development trends in the pipe fitting mold processing industry?
1. The increasing size of pipe fitting mold forming parts and the high production rate requirements lead to multi-cavity molds, resulting in the gradual large-scale of molds. Large tonnage molds can reach 100 tons, with hundreds or thousands of cavities in one mold, requiring mold processing equipment with large work tables, increased Y-axis and Z-axis travel, high load capacity, high rigidity, and high consistency.
2. The mold steel materials used in pipe fitting mold processing have high hardness, requiring mold processing equipment to have thermal stability and high reliability.
3. For complex cavities and multifunctional composite molds, as the shapes of the parts become more complex, it is necessary to improve the design and manufacturing level of the molds. Multifunctional composite molds that form or assemble multiple grooves and materials in one set of molds require a large amount of processing programming, with high comprehensive cutting capabilities for deep cavities and high stability, increasing the difficulty of processing.
4. The refinement of pipe fitting mold processing makes the complexity and efficiency of processing equipment more noteworthy. The advantages of high-speed milling, such as the ability to process high-hardness materials, stable processing, low cutting force, and minimal workpiece thermal deformation, have led mold enterprises to increasingly focus on high-speed processing.
5. High dynamic precision. The static performance introduced by machine tool manufacturers cannot reflect the actual processing situation during the three-dimensional surface processing of molds. The high-precision processing of three-dimensional curved surfaces of molds further raises the requirements for high dynamic precision performance. High-speed and high-precision processing must also be combined with the high rigidity, thermal stability, high reliability of the machine tools, and high-quality control systems to be achievable.
Pipe fitting molds
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