超声振动辅助铣磨加工工艺对Cf/SiC复合材料加工表面质量的影响
2019-02-18
作者:湛青坡1,2,3,刘含莲1,2,3,黄传真1,2,3,朱洪涛1,2,3,刘伟昊1,2,3,袭建人4
单位:1山东大学机械工程学院;2高效洁净机械制造教育部重点部重点实验室;3山东大学先进射流工程技术研究中心;4山东大学材料科学与工程学院
摘要:设计了两种超声振动辅助铣磨加工试验,并与普通铣磨加工方式相对比,试验研究了三种不同加工方式下铣磨难加工复合材料Cf/SiC的加工缺陷及表面粗糙度。试验结果表明:施加了纵向振动与沿进给方向振动的两种超声振动后,Cf/SiC复合材料的纤维拔出与崩边缺陷明显减少,底面凹坑缺陷也得到了有效抑制;采用纵向超声振动辅助铣磨时加工质量要优于沿进给方向超声振动辅助铣磨的加工效果。与普通铣磨相比,两种超声振动辅助铣磨均可有效降低表面粗糙度。各磨削要素对不同铣磨加工方式下Cf/SiC材料的表面粗糙度影响关系为:表面粗糙度随主轴转速增加而降低,随进给速度、磨削深度的增加而增加,随着超声振幅增大,表面粗糙度先减小后增大。研究表明,在优化的振幅下采用纵向超声振动辅助铣磨方式可以更大幅度地改善Cf/SiC复合材料的表面质量。该研究对难加工复合材料的高性能加工具有实际指导作用。
关键词:Cf/SiC复合材料;超声振动辅助铣磨;加工缺陷;表面粗糙度
中图分类号:TG663;TH161文献标志码:ADOI:10.3969/j.issn.1000-7008.2019.02.004
Effect of Ultrasonic Vibration Assisted Millgrinding Technology on
Surface Quality of Cf/SiC Composite
Zhan Qingpo,Liu Hanlian,Huang Chuanzhen,Zhu Hongtao,Liu Weihao,Xi Jianren
Abstract:Two kinds of ultrasonic vibration assisted millgrinding experiments are designed and compared with the traditional millgrinding,the machining defects and surface roughness of Cf/SiC composites in the three machining methods are analyzed.The results show that after the two ultrasonic vibrations are applied in the longitudinal direction and the direction along the feed,the defects of the fiber drawing and disintegration of the Cf/SiC composites are obviously reduced and the concave defect of the bottom is effectively suppressed,and the machining quality by the longitudinal ultrasonic vibration assisted millgrinding is better than that by the ultrasonic vibration along the feed direction.Compared with traditional millgrinding,the two ultrasonic vibration assisted millgrinding can reduce the surface roughness effectively. The influence of the grinding factors on the surface roughness of the Cf/SiC material under different millgrinding methods is that the surface roughness decreases with the increase of the spindle speed,increases with the increase of the feed rate and grinding depth,and with the increase of the ultrasonic amplitude,the surface roughness decreases first and then increases.It is concluded that the surface quality of Cf/SiC composites can be improved greatly by using the longitudinal ultrasonic vibration assisted millgrinding method under the optimized amplitude.The study has a practical guidunce to the highperformance machining of difficulttomachine composite materials.
Keywords:Cf/SiC composite;ultrasonic vibration assisted millgrinding;machining defect;surface roughness