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Cold isostatic pressing technology refers to isostatic pressing molding technology in a room temperature environment, usually using rubber and plastic as the coating mold material, using liquid as the pressure medium, the pressure is 100-630Mpa, mainly used for powder molding. The powder mixture is isostatically pressed, evenly applied pressure from all directions, compacted and encapsulated.
Isostatic pressing confining a metal powder within a flexible film or sealed container, acting as a pressure barrier between the powder and the surrounding pressurized medium, liquid or gas. Its purpose is to provide prefabrics for further processes such as sintering, forging or hot isostatic pressing, and isostatic presses can also be used to compress pharmaceutical granules and raw materials into predetermined shapes. The use of this pressurization system ensures uniform compaction pressure over the entire powder mass and uniform density distribution of the final product.
Cold isostatic pressing technology refers to isostatic pressing molding technology in a room temperature environment, usually using rubber and plastic as the coating mold material, using liquid as the pressure medium, the pressure is 100-630Mpa, mainly used for powder molding. The powder mixture is isostatically pressed, evenly applied pressure from all directions, compacted and encapsulated.
High temperature vacuum hot pressing machine
Under high temperature conditions, the vacuum performance is stable, the sealing effect is excellent, and the service life is long.
Dalian Tianyi equipment production of superplastic molding machine, used in aluminum, titanium and other high strength materials related molding equipment. In the thermoforming process, both the mold and the blank are heated to high temperatures of up to 950 ° C to improve the plasticity and elongation characteristics of the material. This introduction of heat allows high-strength materials to be formed at significantly lower tonnage compared to cold forming operations. This is ideal because the parts formed in this way are subjected to limited rebound and residual stress. While there are some similarities between thermal forming and superplastic forming, the TSPF process has its own unique characteristics. TSPF uses extreme temperatures combined with argon to form high-strength alloys in one step to form complex shapes. During the cycle, the heated material is sandwiched between the cavity and the plate. The material is then pressed into the cavity by argon gas injected into the forming chamber. The resulting parts have a fine surface finish and near-net shape, eliminating the need for subsequent machining.
High temperature thermoforming equipment
Dalian Tianyi equipment production of superplastic molding machine, used in aluminum, titanium and other high strength materials related molding equipment. In the thermoforming process, both the mold and the blank are heated to high temperatures of up to 950 ° C to improve the plasticity and elongation characteristics of the material. This introduction of heat allows high-strength materials to be formed at significantly lower tonnage compared to cold forming operations. This is ideal because the parts formed in this way are subjected to limited rebound and residual stress. While there are some similarities between thermal forming and superplastic forming, the TSPF process has its own unique characteristics. TSPF uses extreme temperatures combined with argon to form high-strength alloys in one step to form complex shapes. During the cycle, the heated material is sandwiched between the cavity and the plate. The material is then pressed into the cavity by argon gas injected into the forming chamber. The resulting parts have a fine surface finish and near-net shape, eliminating the need for subsequent machining.
Titanium alloy automatic feed high temperature hot forming machine
Dalian Tianyi equipment production of superplastic molding machine, used in aluminum, titanium and other high strength materials related molding equipment. In the thermoforming process, both the mold and the blank are heated to high temperatures of up to 950 ° C to improve the plasticity and elongation characteristics of the material. This introduction of heat allows high-strength materials to be formed at significantly lower tonnage compared to cold forming operations. This is ideal because the parts formed in this way are subjected to limited rebound and residual stress. While there are some similarities between thermal forming and superplastic forming, the TSPF process has its own unique characteristics. TSPF uses extreme temperatures combined with argon to form high-strength alloys in one step to form complex shapes. During the cycle, the heated material is sandwiched between the cavity and the plate. The material is then pressed into the cavity by argon gas injected into the forming chamber. The resulting parts have a fine surface finish and near-net shape, eliminating the need for subsequent machining.
