摘要
为抑制数控线切割机床中钼丝的加工振动、提高加工精度,利用振动弦理论建立钼丝的振动模型,通过研究,分析出钼丝振动的主要因素为走丝速度、钼丝张力和钼丝长度等。采用高效率的正交测试实验法,测试多因素状态下的钼丝振动工况。实验结果验证了该模型的准确性,以及研究分析的正确性,为采取技术措施拟制振动指明了方向。
To reduce the vibration of molybdenum wires in high-speed WEDM cutting tool and improve machining accuracy, the vibration of molybdenum wires is modeled based on the string theory. The major influence factors of the vibration are worked out and they are the velocity, tensile force and length of the molybdenum wires. Orthogonal test method is employed to test the vibration under the multiple factors. The experimental results proved the accuracy of the model and method. This research will be helpful for reducing the vibration.
出处
《中国测试》
CAS
北大核心
2013年第4期10-13,共4页
China Measurement & Test
基金
四川省科技厅科学研究基金项目(2009GZ0166)
关键词
机械学
振动模型
弦理论
仿真
正交试验
钼丝
mechanics
vibration model
string theory
simulation
orthogonal test
molybdenum wire