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Non-ferrous metals are essential for industrial manufacturing. New heat treatment equipment has been developed to meet the extreme requirements for material properties in different fields. This equipment is used in the extraction, refining and heat treatment processes of metals. These include pyrocarbonisation, titanium and beryllium electrolytic refining, distillation and purification, and high vacuum heat treatment such as annealing and tempering. These methods make non-ferrous metals show excellent physical and mechanical properties.
Vacuum annealing/tempering furnace
A vacuum annealing/tempering furnace is a device used in the annealing and tempering processes of materials such as high-speed steel, high-alloy, stainless steel, titanium alloy, and others.
This equipment has been designed for the fine treatment of non-ferrous metals, and has been shown to significantly improve the toughness and fatigue resistance of materials by heating and cooling them in a vacuum environment. The process eliminates internal stresses within the metal, thereby enabling the material to demonstrate enhanced stability during subsequent processing. This renders it particularly well-suited to high-precision applications, such as those encountered in the aerospace industry.
- Maximum temperature: 1200℃
- Effective working area: 600×600×1000mm
- Limit cold vacuum: 6.67×10-4Pa
- Boosting rate: ≤ 0.67Pa/h
*Non-standard customisation may be accepted.
Vacuum brazing furnace
A vacuum brazing furnace is a device primarily utilised for the vacuum brazing of stainless steel, copper, titanium alloy and other high-temperature alloys, carbide materials.
In the context of demanding welding applications, a vacuum brazing furnace is capable of precision welding at temperatures that are extremely high. The vacuum environment that it creates effectively prevents oxidation and contamination, thereby ensuring the purity and strength of the weld. This furnace is widely used in the field of electronics and medical equipment, where the quality of the weld is of the utmost importance.
The maximum temperature that the apparatus is capable of reaching is as follows: 1300°C
- Effective operational area: The dimensions of the furnace are 1800×500×1000mm. The maximum vacuum achievable is 6.67×10-4Pa, while the pressure rise rate is ≤ 0.67Pa/h. It should be noted that non-standard customisation is acceptable.
Vertical quenching furnace
Vacuum brazing furnace is mainly used for vacuum brazing of stainless steel, copper, titanium alloy and other high-temperature alloys, carbide materials.
In the face of demanding welding applications, vacuum brazing furnace can carry out precision welding at extremely high temperatures, and its vacuum environment effectively prevents oxidation and contamination, ensures the purity and strength of welding, and is widely used in the field of electronics, medical equipment and other welding quality requirements are extremely high.
- Maximum temperature: 1300℃
- Effective working area: 1800×500×1000mm
- Limit vacuum: 6.67×10-4Pa
- Pressure rise rate: ≤ 0.67Pa/h
*Accept non-standard customisation
Medium Retirement Furnace
This equipment is a high-temperature burnout furnace, which is primarily utilised for the heating of molten metal and the treatment of materials.
In the case of intermediate annealing treatments of non-ferrous metals, the intermediate annealing furnace is able to guarantee the quality of the metal's surface while simultaneously optimising the ductility and electrical conductivity of the material. This allows the material to be employed with ease in complex forming processes. This equipment is employed extensively in the production of electronic components, precision machinery and other industrial products, and has become a fundamental component in the quality assurance process.
One of the core research areas within our organisation is the development of continuous heat treatment and carbonisation technology. This technology has the potential to significantly enhance productivity, reduce the necessity for human intervention, and minimise operating costs. Furthermore, it can improve the reliability and stability of the equipment in question.
In conclusion, the enhancement of non-ferrous metals is contingent upon the availability of effective and precise heat treatment apparatus. In the forthcoming period, the company will pursue the integration of automation and intelligence as its core strategic objectives. This will entail the continued enhancement of equipment performance and production efficiency, with the ultimate goal of achieving unmanned operation and precise control. We offer customers enhanced solutions that facilitate the advent of a new era of intelligent manufacturing.
