Method for optimizing complicated member gas-quenching system based on CFD software
An optimization method and component technology, applied in design optimization/simulation, special data processing applications, instruments, etc., can solve problems such as difficult quantitative analysis, poor universality, backward technology, etc., to achieve the effect of ensuring temperature uniformity and reducing losses
Inactive Publication Date: 2017-05-17
CENT SOUTH UNIV
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Problems solved by technology
[0003] During the quenching process, the heat transfer between the workpiece and the cooling medium is complicated, which is affected by various factors such as the shape of the workpiece, surface temperature, flow field, temperature and flow rate of the cooling medium, and is difficult to quantitatively analyze
At present, the cooling rate between the cooling medium and the workpiece is mostly qualitative analysis or experimental measurement, which cannot meet the precise and efficient control requirements
[0004] The quenching process is a complex process coupled with multiple fields, and it is very difficult to solve it theoretically, and it is even more impossible to solve it directly for complex components; related experiment
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[0031] The present invention will be further described below in conjunction with the accompanying drawings and specific embodiments.
[0032] A method for optimizing the gas quenching system of complex components based on CFD software, comprising the following steps:
[0033] 1) Establish geometric model: According to the basic size parameters of the gas quenching system, establish the geometric model of the gas quenching system, including defining the solid calculation domain and the fluid calculation domain; use modeling software to establish the solid calculation domain according to the basic size parameters of the components and select 220 *310mm 2 The space is the fluid calculation domain, and the component gas quenching model is obtained;
[0034] Such as figure 1 As shown, component 1 is composed of three sections, the two ends are Φ10×100mm cylinders, the middle is Φ20×100mm cylinder, the nozzle 2 is a Φ10mm round hole, the number is 3, and it is located above compon...
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The invention discloses a method for optimizing complicated member gas-quenching system based on CFD software. The method comprises the steps that a member gas-quenching system solid computation domain and a fluid computation domain geometric model are established; grid partition is conducted on a geometric model; the geometric model is imported to the CFD software, and a temperature field is set and solved; the steps are repeated by modifying relevant parameters to perform multiple times of numerical simulation; temperature field data corresponding to the multiple times of numerical simulation are organized, a database is established, the minimum internal temperature difference of a member is regarded as a target, automatic optimizing is performed through the database, and an optimum process parameter combination is selected to ensure the uniformity of the internal temperature of the member. The temperature field inside the member is predicted under various gas-quenching working conditions by adopting a computer analog technology, the minimum internal temperature difference of the member is regarded as the optimizing target so as to ensure uniformity of the internal temperature of the member, and a rapid way is provided for optimization of the complicated member gas-quenching system.
Description
technical field [0001] The invention relates to a method for optimizing a heat treatment process of a complex component, in particular to a method for optimizing a gas quenching system of a complex component based on CFD software. Background technique [0002] Quenching is an important process in metal processing. By adjusting and controlling the parameters of the cooling medium to control the temperature field, tissue field, stress field and strain field of the workpiece, the workpiece can meet the corresponding organizational requirements and performance, and the uneven field can be reduced as much as possible. The resulting residual stress and residual strain to improve the quality of metal workpieces. During the quenching process, due to uneven cooling, the temperature distribution of the metal workpiece is uneven, resulting in uneven structural transformation, thermal stress and structural stress, affecting the mechanical properties of the workpiece, reducing the servic...
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Login to view more IPC IPC(8): G06F17/50
CPCG06F30/20
Inventor 周萍付佩李庆谢紫微
Owner CENT SOUTH UNIV
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