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磁粒研磨中磁性磨料的动力学行为仿真研究 被引量:3
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作者 李毓滦 曲禹鑫 +1 位作者 程海东 韩冰 《电镀与精饰》 CAS 北大核心 2024年第2期107-112,共6页
为了探究磁粒研磨中磁性磨料的最佳动力学参数,利用有限元软件ANSYS Maxwell结合离散元软件EDEM,对磁粒研磨加工过程进行动态仿真。首先进行微观参数标定,得到了磁性磨粒离散元仿真所需的参数,最终确定滑动摩擦系数为0.9、滚动摩擦系数... 为了探究磁粒研磨中磁性磨料的最佳动力学参数,利用有限元软件ANSYS Maxwell结合离散元软件EDEM,对磁粒研磨加工过程进行动态仿真。首先进行微观参数标定,得到了磁性磨粒离散元仿真所需的参数,最终确定滑动摩擦系数为0.9、滚动摩擦系数为0.109为最优的参数组合。在此参数基础上,对磁粒研磨加工过程进行动态仿真。结果表明:在其他条件一定的情况下,磁场转速越高,单位时间内磁性磨粒与管件表面之间的作用次数越高,加工效率越高。通过加工实验,得到了在不同加工参数下表面粗糙度数据。模拟仿真结果与实验结果的变化趋势具有一致性,验证了利用数值分析的手段对磁粒研磨加工过程进行理论分析的可行性。 展开更多
关键词 离散元法 磨粒动力学 参数标定
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Multi-objective parameter optimization of abrasive water jet polishing for fused silica
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作者 LI Qian YAO Peng +6 位作者 DENG Hong-xing FENG Chen-yu XU Chong-hai QU Shuo-shuo YANG Yu-ying ZHU Hong-tao HUANG Chuan-zhen 《中国光学(中英文)》 2025年第5期1185-1199,共15页
As a non-contact ultra-precision machining method,abrasive water jet polishing(AWJP)has signi-ficant application in optical elements processing due to its stable tool influence function(TIF),no subsurface damage and s... As a non-contact ultra-precision machining method,abrasive water jet polishing(AWJP)has signi-ficant application in optical elements processing due to its stable tool influence function(TIF),no subsurface damage and strong adaptability to workpiece shapes.In this study,the effects of jet pressure,nozzle diameter and impinging angle on the distribution of pressure,velocity and wall shear stress in the polishing flow field were systematically analyzed by computational fluid dynamics(CFD)simulation.Based on the Box-Behnken experimental design,a response surface regression model was constructed to investigate the influence mech-anism of process parameters on material removal rate(MRR)and surface roughness(Ra)of fused silica.And experimental results showed that increasing jet pressure and nozzle diameter significantly improved MRR,consistent with shear stress distribution revealed by CFD simulations.However,increasing jet pressure and impinging angle caused higher Ra values,which was unfavorable for surface quality improvement.Genetic algorithm(GA)was used for multi-objective optimization to establish Pareto solutions,achieving concurrent optimization of polishing efficiency and surface quality.A parameter combination of 2 MPa jet pressure,0.3 mm nozzle diameter,and 30°impinging angle achieved MRR of 169.05μm^(3)/s and Ra of 0.50 nm.Exper-imental verification showed prediction errors of 4.4%(MRR)and 3.8%(Ra),confirming the model’s reliabil-ity.This parameter optimization system provides theoretical basis and technical support for ultra-precision polishing of complex curved optical components. 展开更多
关键词 abrasive computational fluid dynamics tool influence function material removal rate surface roughness
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