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Diffusion welding process for heat exchanger core

A technology of heat exchanger and diffusion welding, which is applied in the direction of welding equipment, manufacturing tools, non-electric welding equipment, etc., can solve the problems of large influence on the heating and cooling speed of diffusion welding, the decline of mechanical properties of joints, and the difficulty of obtaining clamping pressure, etc. Achieve excellent high temperature and high pressure resistance, reduce core deformation, and reduce the effect of impact

Active Publication Date: 2017-06-13
CHINA UNIV OF PETROLEUM (EAST CHINA)
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  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

The longer the welding time, the higher the welding rate of the joint, but too long holding time will cause brittle phases to form in the joint area, resulting in a decrease in the mechanical properties of the joint
Increased pressure is beneficial to improve welding quality, but too high pressure can easily cause core deformation, so the diffusion welding process is greatly affected by these process parameters
Due to the very high temperature of stainless steel diffusion welding, it is difficult to obtain a stable clamping pressure in this environment, the heating and cooling speed of diffusion welding is greatly affected by tooling, the assembly accuracy is not high, and brittle phases are prone to appear in the process of stainless steel diffusion welding, all of which are Easy to produce welding defects, resulting in reduced yield

Method used

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  • Diffusion welding process for heat exchanger core
  • Diffusion welding process for heat exchanger core
  • Diffusion welding process for heat exchanger core

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Embodiment Construction

[0037] The invention provides a process method for diffusion welding of a core body of a stainless steel heat exchanger. Through the process method combined with self-made welding tooling, the quality of welded joints can be well improved, welding defects can be reduced, and the rate of finished products can be increased. At the same time, the invention also has a unique design for the structure of the heat exchanger core. The heat exchanger prepared by using the heat exchanger core has high heat exchange efficiency and compactness, can serve under high temperature and high pressure, and is suitable for special occasions to use.

[0038] Before explaining the diffusion welding process, it is necessary to introduce the structure of the heat exchanger core and the self-made welding tool in detail.

[0039] Such as Figure 1-4 As shown, a compact and high-efficiency heat exchanger core includes an upper metal cover plate 1 , a lower metal cover plate 2 and several intermediate m...

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Abstract

The invention discloses a diffusion welding process for a heat exchanger core. The diffusion welding process comprises the following steps: (1) pre-welding pre-treatment: feeding the well assembled heat exchanger core into a diffusion welding furnace, and vacuumizing the interior of the furnace to be below 0.01 Pa; (2) diffusion welding: raising the temperature to 800-850 DEG C at the speed of 15-20 DEG C / min, keeping the temperature for 30 min, after that, raising the temperature to 1,100-1,150 DEG C at the speed of 10-15 DEG C / min, keeping the temperature for 3 h, and performing vacuum cooling to the room temperature, wherein the pressure (8-9.5 MPa) exerted before is kept in the first 2 h and reduced to 4-6 MPa in the last 1 h; and (3) postweld heat treatment: raising the temperature of the heat exchanger core to 1,150-2,000 DEG C, keeping the temperature for at least 20 h, and after that, reducing the temperature in a water quenching manner. According to the diffusion welding process, such parameters as welding temperature, diffusion time and pressure are controlled, the step of heat treatment after diffusion welding is added, so that brittle phases easily generated during diffusion welding are reduced, and the quality of a welded joint of the heat exchanger core is improved.

Description

technical field [0001] The invention relates to a stainless steel heat exchanger suitable for petrochemical, aerospace, gas turbine, high-temperature gas-cooled reactor and other fields with high-temperature and high-pressure service requirements, in particular to a diffusion welding process for the heat exchanger core. Background technique [0002] Compact and high-efficiency heat exchangers are widely used in petrochemical, aerospace and other fields. In a special service environment, such as a high-temperature gas-cooled reactor, the service temperature of the heat exchanger reaches about 600°C, and the pressure reaches about 7MPa. It also needs to withstand cyclic thermal stress, and has high heat transfer performance and compactness. These requirements limit The use of compact and high-efficiency heat exchangers in similar harsh conditions. The plate-fin heat exchanger is formed by superimposed brazing, and has limited high-temperature and high-pressure service capacit...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): B23K20/00B23K20/14B23K20/24
CPCB23K20/001B23K20/14B23K20/24
Inventor 蒋文春葛磊张玉财李少华汪玉
Owner CHINA UNIV OF PETROLEUM (EAST CHINA)
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