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Experiment device for detecting heat exchange coefficient of water cooling mould

A heat transfer coefficient, water-cooled casting mold technology, applied in the field of measuring device design, can solve problems such as ingot solidification too fast, stress concentration, deformation, etc., and achieve the effect of simple structure, high accuracy and convenient operation

Active Publication Date: 2013-02-13
WISDRI ENG & RES INC LTD
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Problems solved by technology

However, if the cooling rate of the water-cooled mold is too fast, it is easy to cause the ingot to solidify too quickly, resulting in stress concentration, resulting in casting defects such as cracks and deformation of the ingot, so the effective control of the heat transfer process between the ingot and the mold is the water-cooled mold The core technology of production

Method used

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  • Experiment device for detecting heat exchange coefficient of water cooling mould
  • Experiment device for detecting heat exchange coefficient of water cooling mould

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Embodiment Construction

[0018] The specific implementation manners provided by the present invention will be further described in detail below in conjunction with the accompanying drawings.

[0019] See figure 1 , 2 An experimental device for measuring the heat transfer coefficient of a water-cooled mold provided by an embodiment of the present invention includes a mold 2 and an ingot 3; the mold 2 and the ingot 3 are in contact with each other. At the same time, it also includes: a cooling system, a temperature collection system for real-time collection of temperatures at different positions of the cooling system, mold 2, and ingot 3, a heating device for heating ingot 3, and a temperature control system The heat transfer coefficient calculation module for analyzing and processing the data collected by the collection system. Among them, the input end of the temperature acquisition system is connected to the cooling system, the mold 2 and the ingot 3 respectively. The output end of the temperature acqu...

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Abstract

The invention discloses an experiment device for detecting a heat exchange coefficient of a water cooling mould. The experiment device comprises a mould, a cast ingot, a cooling system, a temperature collecting system, a heating device and a heat exchange coefficient calculation module. The experiment device provided by the invention is characterized in that an input end of the temperature collecting system is connected with the cooling system, the mould and the cast ingot respectively, and an output end of the temperature collecting system is connected with the heat exchange coefficient calculation module; the cast ingot and the mould are in contact; and the cast ingot and the heating device are in mutual contact; meanwhile, a flow meter is arranged in the cooling system and is used for controlling cooling strength in the device, and the temperatures of the cooling system, the mould and the cast ingot at the different positions can be collected in real time by using the temperature collecting system; and heat exchange coefficients of the different positions under different flow velocities can be calculated according to the fact that the heat entering the mould in a stable-state heat transmission process is equal to the heat brought away by cooling water. The experiment device has the advantages of simple structure, convenience in operation and high accuracy.

Description

Technical field [0001] The invention belongs to the technical field of measuring device design, and in particular relates to an experimental device for measuring the heat transfer coefficient of a water-cooled mold. Background technique [0002] At present, the production of steel billets by continuous casting is the mainstream process in the iron and steel industry. However, in the production of special steel, special-shaped billets, and super wide and thick slabs, the production of casting molds is still dominant. The cooling of traditional molds is natural cooling by air convection. The cooling time is long, and the molds are exposed to high temperatures for a long time, resulting in high requirements for heat resistance and large volume requirements for the materials of traditional molds. Due to the long-term high temperature, the casting mold has a short service life and high cost. The new water-cooled mold uses forced water cooling, which greatly shortens the cooling time....

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01N25/20G01N25/18
Inventor 蔡少武刘瑞杰黄灏赵宏杰郭继东王建伟钟德水
Owner WISDRI ENG & RES INC LTD
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