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Vacuum hot pressing machine

Summary:

Under high temperature conditions, the vacuum performance is stable, the sealing effect is excellent, and the service life is long.

Key words:

superplastic/high temperature thermoforming machine

Product Consulting:

Product Description

1. Under high temperature conditions, the vacuum performance is stable, the sealing effect is excellent, and the service life is long.
2. The temperature control of the hot plate adopts precise control of zoning.
3. The temperature of the hot plate is stable at 600-1000C for long-term use.
4. The thermal insulation sealing performance is stable, and the thermal insulation effect is excellent, so that the surface temperature of the equipment is within 50C.
5. The heat insulation of the hot plate adopts heat insulation ceramics and heat insulation raw materials to ensure the heat loss in the best state.
6. The control system adopts the German Siemens control system, which has temperature plane monitoring and precise location of heat pipe damage.
7. The equipment control adopts man-machine interface and manual automatic control.
8. The water cooling system has good effect and stable performance.
9. Long-term storage of all process parameters.
10. It has a mold automatic locking device.
11. With automatic mold changing device.
12. It has a manipulator automatic feeding and reclaiming device

Related Products

Superplastic molding machine/High temperature hot forming


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.

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