摘要
针对钛合金在普通铣削(CM)时因切削速度低而面临的切削力大、薄壁工件变形大、加工效率低、刀具磨损严重等问题,采用高速超声振动铣削(HUVM)方法加工钛合金,实验研究其加工表面质量和切削力。从运动学角度出发对HUVM方法进行运动学分析。搭建包括超声振动系统、加工系统及测量系统在内的高速超声振动铣削实验平台。采用单因素实验对比CM和HUVM这2种方法对钛合金加工切削力和表面质量的影响规律。研究结果表明:与CM加工相比,HUVM加工可以使切削力降低32.6%~35.3%。并且HUVM加工表面粗糙度虽略有增加,但是表面结构可以更加均匀;此外,HUVM加工表面残余应力均为压应力,其绝对值随着每齿进给量和切削速度的增大而降低,而CM加工表面残余应力为拉应力。
Conventional milling(CM)causes problems for titanium alloys,such as high cutting forces,large deformation of thin-walled workpieces,low processing efficiency,and severe tool wear due to low cutting speeds.To address these problems,a new method of high-speed ultrasonic vibration milling(HUVM)is adopted to machine titanium alloys.Their surface quality and the cutting force are also examined through experiments.The kinematic equation of HUVM is constructed.An HUVM experimental platform including ultrasonic vibration system,machining system and measurement system is built.Single factor experiments are carried out to explore the effects of CM and HUVM on the surface quality and cutting force.The experimental results show that compared with CM,HUVM could generate more uniform surface structure with increased surface roughness.Unlike CM with residual tensile stress of the machined surfaces,HUVM has residual compressive stress with its value decreasing with the increase of feed per tooth and cutting speed.Moreover,HUVM could reduce cutting force by 32.6%~35.3% compared to CM.
作者
韩雄
孙哲飞
耿大喜
张德远
HAN Xiong;SUN Zhefei;GENG Daxi;ZHANG Deyuan(School of Mechanical Engineering and Automation,Beihang University,Beijing 100191,China;Chengdu Aircraft Industrial(Group)Co.,Ltd.,Chengdu 610091,China)
出处
《北京航空航天大学学报》
EI
CAS
CSCD
北大核心
2023年第7期1707-1714,共8页
Journal of Beijing University of Aeronautics and Astronautics
关键词
超声振动
铣削
表面粗糙度
残余应力
切削力
ultrasonic vibration
milling
surface roughness
residual stress
cutting force