现代制造工程Issue(3):1-10,10.DOI:10.16731/j.cnki.1671-3133.2026.03.001
75Cr1材质夹层圆锯片夹层阻尼结构优化研究
Research on optimization of sandwich damping structure of 75Cr1 sandwich circular saw blades
摘要
Abstract
High vibrational responses commonly occur in 75Cr1 sandwich circular saw blades during high-speed cutting due to their large diameter-thickness ratio.To enhance the dynamic stiffness and suppress cutting-induced vibration,a response surface-based predictive model was established to quantify the effects of sandwich damping-layer parameters(layer thickness,layer num-ber,and layer diameter)on the dynamic stiffness,and the optimal parameter combination was subsequently obtained.The accura-cy of the finite-element model for dynamic characteristics was validated through modal test,and the vibration-suppression capabil-ity of the damping structure was evaluated by using harmonic response analysis.The results indicate that the sandwich damping structure reduces the peak vibration amplitude by 45%.Sensitivity analysis results show that the influence of design parameters on dynamic stiffness is in the order of damping-layer diameter>damping-layer thickness>damping-layer number.The optimized damping-layer parameters(diameter 392 mm,thickness 1.2 mm,3 layers)yield a dynamic stiffness of 17 211 N/mm,with predic-tion and simulation values differing by less than 5%.A 75Cr1 sandwich circular saw blade was fabricated by using the optimized parameters,which demonstrated a 7.8 dB noise reduction of approximately in cutting tests,representing a 41.8%improvement o-ver the existing sandwich-blade design.关键词
夹层圆锯片/谐响应分析/动刚度/响应曲面法/夹层结构参数Key words
sandwich circular saw blade/harmonic response analysis/dynamic stiffness/response surface method/sandwich struc-ture parameters分类
矿业与冶金引用本文复制引用
李振兴,白硕玮,项盛奎,龚良斌,王玉奇,王清..75Cr1材质夹层圆锯片夹层阻尼结构优化研究[J].现代制造工程,2026,(3):1-10,10.基金项目
国家自然科学基金项目(71701109) (71701109)
山东省自然科学基金项目(ZR2023ME053) (ZR2023ME053)
