Using finite difference method to simulate casting thermal stress 被引量：6

Using finite difference method to simulate casting thermal stress

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摘要 Thermal stress simulation can provide a scientific reference to eliminate defects such as crack,residual stress centralization and deformation etc.,caused by thermal stress during casting solidification.To study the thermal stress distribution during casting process,a unilateral thermal-stress coupling model was employed to simulate 3D casting stress using Finite Difference Method(FDM),namely all the traditional thermal-elastic-plastic equations are numerically and differentially discrete.A FDM/FDM numerical simulation system was developed to analyze temperature and stress fields during casting solidification process.Two practical verifications were carried out,and the results from simulation basically coincided with practical cases.The results indicated that the FDM/FDM stress simulation system can be used to simulate the formation of residual stress,and to predict the occurrence of hot tearing.Because heat transfer and stress analysis are all based on FDM,they can use the same FD model,which can avoid the matching process between different models,and hence reduce temperature-load transferring errors.This approach makes the simulation of fluid flow,heat transfer and stress analysis unify into one single model. Thermal stress simulation can provide a scientific reference to eliminate defects such as crack, residual stress centralization and deformation etc., caused by thermal stress during casting solidification. To study the thermal stress distribution during casting process, a unilateral thermal-stress coupling model was employed to simulate 3D casting stress using Finite Difference Method （FDM）, namely all the traditional thermal-elastic-plastic equations are numerically and differentially discrete. A FDM/FDM numerical simulation system was developed to analyze temperature and stress fields during casting solidification process. Two practical verifications were carried out, and the results from simulation basically coincided with practical cases. The results indicated that the FDM/FDM stress simulation system can be used to simulate the formation of residual stress, and to predict the occurrence of hot tearing. Because heat transfer and stress analysis are all based on FDM, they can use the same FD model, which can avoid the matching process between different models, and hence reduce temperature-load transferring errors. This approach makes the simulation of fluid flow, heat transfer and stress analysis unify into one single model.

作者 Liao Dunming Zhang Bin Zhou Jianxin Liu Ruixiang Chen Liliang

机构地区 State Key Lab of Material Processing and Die ＆ Mould Technology

出处《China Foundry》 SCIE CAS 2011年第2期177-181,共5页 中国铸造（英文版）

基金 supported by the National Natural Science Foundation of China (No.50805056) New Century Excellent Talents in University (No.NCET-09-0396) the Scientific Research Foundation for the Returned Overseas Chinese Scholars,Ministry of Education (2009)

关键词热应力数字模拟有限差别方法(频分多路复用) 扔团结过程 thermal stress numerical simulation finite difference method （FDM） casting solidification process

分类号 TG391.9 [金属学及工艺—金属压力加工]

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