Effect of Mesh Resolution on the Particle Deformation during Cold Spraying by Eulerian Formulation 被引量：1

Effect of Mesh Resolution on the Particle Deformation during Cold Spraying by Eulerian Formulation

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摘要 Numerical simulations focusing on the impacting behavior of cold sprayed particles were usually conducted by the Lagrangian formulation.However,the calculated outputs were much dependent on the meshing size owing to the excessive element distortion.Therefore,the Eulerian formulation becomes attractive,because it can avoid the extreme distortion of elements.In the present study,a copper particle impact on the same material substrate in cold spraying was simulated using the Eulerian formulation available in the ABAQUS software(Ver 6.8).The dependency of the calculated outputs on the meshing resolution were detailedly investigated.Results show that the meshing resolution not only has an effect on the shape of the deformed particle,but also it can significantly influence the maximum plastic strain and temperature under a given impact velocity.In addition,the copper particle deformation process at the critical velocity of 310 m/s shows that a jet composed of both of the particle and substrate materials can be formed and gets elongated with the impact time. Numerical simulations focusing on the impacting behavior of cold sprayed particles were usually conducted by the Lagrangian formulation.However,the calculated outputs were much dependent on the meshing size owing to the excessive element distortion.Therefore,the Eulerian formulation becomes attractive,because it can avoid the extreme distortion of elements.In the present study,a copper particle impact on the same material substrate in cold spraying was simulated using the Eulerian formulation available in the ABAQUS software(Ver 6.8).The dependency of the calculated outputs on the meshing resolution were detailedly investigated.Results show that the meshing resolution not only has an effect on the shape of the deformed particle,but also it can significantly influence the maximum plastic strain and temperature under a given impact velocity.In addition,the copper particle deformation process at the critical velocity of 310 m/s shows that a jet composed of both of the particle and substrate materials can be formed and gets elongated with the impact time.

作者 Li Wenya Yu Min Wu Hui Liao Hanlin

机构地区 NW Polytech Univ Univ Technol Belfort Montbeliard

出处《稀有金属材料与工程》 SCIE EI CAS CSCD 北大核心 2012年第S1期327-330,共4页 Rare Metal Materials and Engineering

基金 Program for New Century Excellent Talents in University by the Ministry of Education of China(NECT-08-0463) the National Natural Science Foundation of China(51005180) the 111 Project(B08040)

关键词 cold SPRAYING EULERIAN FORMULATION MESHING RESOLUTION cold spraying Eulerian formulation meshing resolution

分类号 TG146.4 [金属学及工艺—金属材料]

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参考文献13

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3王非凡,李文亚,余敏.基于稳定最大应变的冷喷涂粒子临界速度预测[J].中国表面工程,2012,25(6):96-100. 被引量：5

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Effect of Mesh Resolution on the Particle Deformation during Cold Spraying by Eulerian Formulation 被引量：1

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