CAJ | 학술논문

基于动态子结构法建立了高速磨床零部件和整机的实体参数化模型，利用 MSC.Patran/Nastran 建立了高速磨床机械结构的有限元模型，并对主轴、床身和床身工作台组合结构进行了模态分析。应用 LMS 振动及动态信号采集分析系统对主轴、床身和床身工作台组合结构进行了实验模态测试与分析。实验表明，采用基于假想材料的高速磨床结合部模拟技术可使磨床组合结构的动态实验结果与有限元模态分析结果相吻合，实验测试得到的高速磨床机械结构动态特性和利用有限元软件仿真分析得到的结果是一致的，说明利用子结构法建立高速磨床机械结构实体参数化模型是正确可行的。
기우동태자결구법건립료고속마상령부건화정궤적실체삼수화모형，이용 MSC.Patran/Nastran 건립료고속마상궤계결구적유한원모형，병대주축、상신화상신공작태조합결구진행료모태분석。응용 LMS 진동급동태신호채집분석계통대주축、상신화상신공작태조합결구진행료실험모태측시여분석。실험표명，채용기우가상재료적고속마상결합부모의기술가사마상조합결구적동태실험결과여유한원모태분석결과상문합，실험측시득도적고속마상궤계결구동태특성화이용유한원연건방진분석득도적결과시일치적，설명이용자결구법건립고속마상궤계결구실체삼수화모형시정학가행적。
The entity parameter model of high-speed grinder machine parts was built based on the dynamic sub structure method,the finite element model of the high-speed grinding machine mechani-cal structure was established with MSC.Patran/Nastran software,and modal analysis for the spindle, bed and workbench-bed combination structure was finished.Using the LMS vibration and dynamic sig-nal acquisition and analysis system,the modal experiments were completed.Experiments show that the combining part simulation technology based on the assumed material can make the dynamic test result of grinder structure and finite element modal analysis result be consistent,the experimental dy-namic characteristics of high speed grinding machine are consistent with the finite element analysis ones,and the parametric solid model based on substructure method is correct and feasible for the high speed grinding machine.