The vacuum water quenching furnace is a kind of equipment that carries out the water quenching treatment in a vacuum environment. It combines the advantages of vacuum technology and water quenching process and has the following characteristics: It can effectively reduce the oxidation and pollution of the material in the quenching process, and improve the purity and quality of the material; achieve precise temperature control to ensure the stability and consistency of the quenching process; have a wide range of applications and can be used for the treatment of a variety of materials. In practical applications, the vacuum water quenching furnace is commonly used in the heat treatment of metal materials, which helps to obtain the desired structure and properties, and enhance the strength and toughness of the material.
Certification :
Calibration Certificate(cost additional)Price :
NegotiableDelivery Time :
30 daysPayment Terms :
L/C, T/TBrand Name :
HCTEModel Number :
HCTE-VF-008Application scope:
The vacuum water quenching furnace has a double-chamber horizontal structure and uses water-based quenching medium, with extremely fast cooling speed. Due to the fact that water and high vacuum cannot coexist, the design difficulty is very high. This furnace is mainly used for the vacuum water cooling solid solution treatment of materials such as ferroalloy and high-temperature alloy.
Product characteristics:
The vacuum water quenching furnace is a type of furnace specifically used for alloy solid solution treatment. This type of furnace adopts a double-chamber structure, with a heating chamber and a quenching chamber, which are separated by a gate valve in the middle. The heating chamber can use graphite or molybdenum as the heater and insulation and heat insulation materials. Depending on the different treated materials, optional configurations such as a diffusion pump or diffusion pumps can be selected. This furnace uses specially designed feeding mechanisms and special operating processes to solve problems such as rust of the transmission mechanism, oxidation of the heating chamber, and large water vapor evacuation in the quenching chamber.