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Numerical simulation of temperature field in laser-arc hybrid welding of wear-resistant steel

Numerical simulation of temperature field in laser-arc hybrid welding of wear-resistant steel
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摘要 Using ABAQUS software and cylindrical ellipsoid and body heat sources with a peak-heat-flux- attenuation function, a finite element model of the temperature field in the laser-arc hybrid welding of 4.5-mm BW300TP wear-resistant steel is proposed. The proposed model considers convection, radiation, molten pool flow, and heat conduction effect on temperature. A comparison of the simulation and actual welding test results confirms the reliability of the model. This welding heat-process model can provide the cooling rate at any position in the heat affected zone (HAZ) and can be used as a reference for the analysis of material properties and for process optimization. Using ABAQUS software and cylindrical ellipsoid and body heat sources with a peak-heat-flux- attenuation function, a finite element model of the temperature field in the laser-arc hybrid welding of 4.5-mm BW300TP wear-resistant steel is proposed. The proposed model considers convection, radiation, molten pool flow, and heat conduction effect on temperature. A comparison of the simulation and actual welding test results confirms the reliability of the model. This welding heat-process model can provide the cooling rate at any position in the heat affected zone (HAZ) and can be used as a reference for the analysis of material properties and for process optimization.
机构地区 Research Institute
出处 《Baosteel Technical Research》 CAS 2018年第2期42-47,共6页 宝钢技术研究(英文版)
关键词 high-strength wear-resistant steel laser-arc hybrid welding numerical simulation temperature modeling high-strength wear-resistant steel laser-arc hybrid welding numerical simulation temperature modeling
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