CAJ | 학술논문

随着科技的发展，计算机技术和仿真技术得到了极大的应用，薄壁零件数控加工工艺也得到了很大的发展，已经由过去的经验研究朝着科学化定量分析的方向发展。薄壁零件具有结构复杂、刚性差等特点，因此在加工过程中容易发生形变，从而影响加工质量。在数控加工过程中，加工前要进行零件编程和工艺设计，加工时要在线监控加工，加工后要进行检验和处理。三者合一才能保证加工质量。
수착과기적발전，계산궤기술화방진기술득도료겁대적응용，박벽령건수공가공공예야득도료흔대적발전，이경유과거적경험연구조착과학화정량분석적방향발전。박벽령건구유결구복잡、강성차등특점，인차재가공과정중용역발생형변，종이영향가공질량。재수공가공과정중，가공전요진행령건편정화공예설계，가공시요재선감공가공，가공후요진행검험화처리。삼자합일재능보증가공질량。
With the development of science and technology, computer technology and simulation technology has been greatly used, thin wall parts CNC processing technology also obtained the very big development, has been from the past experience of research development in the direction of scientific quantitative analysis. Thin-walled parts with complex structure, poor rigidity characteristics, thus likely to occur in the process of machining deformation, which affects the processing quality. Before in the numerical control machining process, machining part programming and process design of online monitoring machining processing, must carry on the inspection and processing after processing. Unity can ensure the quality of machining.