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锻造液压机振动特性机-液联合仿真
引用本文:汪飞雪,姚静,胡福泰,郑永江,臧新良. 锻造液压机振动特性机-液联合仿真[J]. 中国机械工程, 2020, 31(10): 1175-1182+1189
作者姓名:汪飞雪  姚静  胡福泰  郑永江  臧新良
作者单位:1.燕山大学机械工程学院,秦皇岛,0660042.河北省轻质结构装备设计与制备工艺技术创新中心,秦皇岛,066004
基金项目:国家自然科学基金资助项目(51505417); 河北省自然科学基金资助项目(E2017203127);燕山大学基础研究专项课题(16LGA001)
摘    要:以YA32-315锻造液压机为研究对象,基于ADAMS、AMESim和ABAQUS平台,建立了锻造液压机弹性动力学联合仿真模型,研究了卸载冲击作用下锻造液压机均载和偏载工况的振动特性,分析了锻造力、系统压力、偏载量对振动特性的影响规律,结果表明:锻造力和偏载量越大,冲击越大;偏载量相同时,Y向振动大于X向振动;系统压力对振动影响不大。振动测试实验验证了联合仿真模型的正确性。

关 键 词:锻造液压机  弹性动力学  联合仿真  卸载冲击  振动特性

Mechanical-hydraulic Co-simulation of Vibration Characteristics for Forging Hydraulic Presses
WANG Feixue,YAO Jing,HU Futai,ZHENG Yongjiang,ZANG Xinliang. Mechanical-hydraulic Co-simulation of Vibration Characteristics for Forging Hydraulic Presses[J]. China Mechanical Engineering, 2020, 31(10): 1175-1182+1189
Authors:WANG Feixue  YAO Jing  HU Futai  ZHENG Yongjiang  ZANG Xinliang
Affiliation:1.School of Mechanical Engineering, Yanshan University, Qinhuangdao,Hebei,0660042.Hebei Innovation Center for Equipment Lightweight Design and Manufacturing, Qinhuangdao, Hebei, 066004
Abstract:Considering the flexibility of mechanical equipment, using the co-simulation technology of AMESim, ADAMS and ABAQUS, the elastic dynamics co-simulation model of the forging hydraulic presses was established. The vibration characteristics of the forging hydraulic presses were studied under the unloading impacts of the hydraulic systems. Two conditions of equal load and partial load were discussed, and the influences of forging force, system pressure and eccentric load on vibration characteristics were analyzed. The results show that with the increase of forging force and eccentric load, the impact vibration increases correspondingly; with the same eccentric load, the vibration in Y direction is greater than that in X direction; the system pressure has little effect on the vibration. A verification experiment was been completed in the laboratory, and the experiment verifies the correctness of the co-simulation model.
Keywords:forging hydraulic press;elastic dynamics;co-simulation;unloading shock  vibration characteristics  
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