杜嘉静,张桂香,朱培鑫,姜林志,陈昊鑫,刘宁.加工间隙对CBN磁性磨料研磨904L不锈钢表面完整性的影响[J].表面技术,2021,50(6):338-346.
DU Jia-jing,ZHANG Gui-xiang,ZHU Pei-xin,JIANG Lin-zhi,CHEN Hao-xin,LIU Ning.Influence of Machining Gap on Surface Integrity of 904L Stainless Steel Finished by CBN Magnetic Abrasive Particles[J].Surface Technology,2021,50(6):338-346
加工间隙对CBN磁性磨料研磨904L不锈钢表面完整性的影响
Influence of Machining Gap on Surface Integrity of 904L Stainless Steel Finished by CBN Magnetic Abrasive Particles
投稿时间:2021-02-02  修订日期:2021-04-25
DOI:10.16490/j.cnki.issn.1001-3660.2021.06.038
中文关键词:  加工间隙  CBN/铁基球形磁性磨料  904L高性能不锈钢  磁力光整加工  表面完整性
英文关键词:machining gap  CBN/Fe-based spherical magnetic abrasive particles  904L high performance stainless steel  magnetic abrasive finishing process  surface integrity
基金项目:国家自然科学基金项目(51675316)
作者单位
杜嘉静 山东理工大学 机械工程学院,山东 淄博 255000 
张桂香 山东理工大学 机械工程学院,山东 淄博 255000 
朱培鑫 山东理工大学 机械工程学院,山东 淄博 255000 
姜林志 山东理工大学 机械工程学院,山东 淄博 255000 
陈昊鑫 山东理工大学 机械工程学院,山东 淄博 255000 
刘宁 山东理工大学 机械工程学院,山东 淄博 255000 
AuthorInstitution
DU Jia-jing School of Mechanical Engineering, Shandong University of Technology, Zibo 255000, China 
ZHANG Gui-xiang School of Mechanical Engineering, Shandong University of Technology, Zibo 255000, China 
ZHU Pei-xin School of Mechanical Engineering, Shandong University of Technology, Zibo 255000, China 
JIANG Lin-zhi School of Mechanical Engineering, Shandong University of Technology, Zibo 255000, China 
CHEN Hao-xin School of Mechanical Engineering, Shandong University of Technology, Zibo 255000, China 
LIU Ning School of Mechanical Engineering, Shandong University of Technology, Zibo 255000, China 
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中文摘要:
      目的 针对904L高性能不锈钢工件进行磁力光整加工试验研究,分析加工间隙对不锈钢表面完整性的影响。方法 对不同加工间隙的磁感应强度进行了仿真与测试的对比分析,在不同加工间隙下,采用雾化法制备的新型CBN/铁基球形磁性磨料对904L高性能不锈钢进行磁力研磨加工。利用手持粗糙度仪和精密电子天平对不同间隙下工件表面粗糙度和材料去除量进行测量与分析,利用金相显微镜观察不同加工间隙下工件表面形貌不同变化情况,利用应力测试仪检测不同间隙下工件表面残余应力变化情况,利用润湿角测量仪对不同间隙下工件表面的亲疏水性效果进行观察与分析。结果 当加工间隙为2.5 mm时,CBN/铁基球形磁性磨料磁力光整加工904L不锈钢效果最好。工件表面粗糙度由研磨前的0.5 μm下降至0.05 μm,5 min内材料去除量可达36 mg,工件表面均匀,划痕被完全去除,同时没有凹坑的产生。工件表面的残余压应力由127.8 MPa增加到318 MPa,工件表面与液滴的润湿角由20°增加至83°,疏水效果达到最好。 结论 加工间隙对CBN磁性磨料磁力光整加工904L不锈钢表面完整性有很大影响,当加工间隙为2.5 mm时,工件表面粗糙度最低,表面形貌光整均匀,残余压应力变大,工件的疲劳强度增强,工件表面疏水性变好,达到最佳研磨效果。
英文摘要:
      The influence of the machining gap on the surface integrity of the 904L high-performance stainless steel workpiece was analyzed by carrying out magnetic abrasive finishing experiment. The magnetic induction intensity of different machining gaps is compared and analyzed by simulation and testing. Under different machining gaps, the new CBN/Fe-based spherical magnetic abrasive particles prepared by the atomization method is used to finish 904L high-performance stainless steel. Use a hand-held roughness meter and a precision electronic balance to measure and analyze the surface roughness and material removal of the workpiece under different gaps. A metallographic microscope is used to observe the different changes in the surface morphology of the workpiece under different processing gaps. A stress tester is used to detect residual stress of different gaps. The wetting angle measuring instrument is used to observe and analyze the hydrophilic and hydrophobic effects of the surface of the workpiece under different gaps. When the machining gap is 2.5 mm, CBN/Fe-based spherical magnetic abrasive magnetic finishing is the best for 904L stainless steel. The surface roughness of the workpiece is reduced from 0.5 μm before grinding to 0.05 μm, and the material removal amount can reach 36 mg within 5 minutes. The surface of the workpiece is uniform, without scratches and pits. When the residual compressive stress on the surface of the workpiece increased from 127.8 MPa to 318 MPa, and the wetting angle between the surface of the workpiece and the droplet increased from 20° to 83°, and the hydrophobic effect is the best.The machining gap has a great influence on the surface integrity of 904L stainless steel processed by CBN magnetic abrasive magnetic finishing. When the machining gap is 2.5 mm, the surface roughness of the workpiece is the lowest, the surface morphology is uniform, the residual compressive stress becomes larger, and the workpiece is fatigued. The strength is enhanced, and the hydrophobicity of the surface of the workpiece becomes better, achieving the best grinding effect.
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