Li Jiaxin,Cao Rui,Jiao Yanting,et al.Optimization experiment of permanent magnetic pole in magnetic grinding assisted by alternating magnetic field[J].Plating & Finishing,2024,(5):28-35.[doi:10.3969/j.issn.1001-3849.2024.05.004]
基于交变磁场辅助磁力研磨中永磁极优化试验
- Title:
- Optimization experiment of permanent magnetic pole in magnetic grinding assisted by alternating magnetic field
- Keywords:
- alternating magnetic field ; magnetic particle grinding ; TC4 titanium alloy plate ; surface roughness
- 分类号:
- TG147
- 文献标志码:
- A
- 摘要:
- 钛合金是新兴的结构和功能材料, TC4 钛合金表面的精密加工依旧是个难题。为提高钛合金表面质量,在交变磁场磁粒研磨加工中进一步优化了永磁极的排列方式。利用有限元软件分别对未优化的交变磁场以及优化后的交变磁场进行模拟分析对比,再通过试验对比优化前后的几个交变磁场下,磁粒研磨加工 TC4 钛合金的表面形貌和表面粗糙度的变化情况。研究表明:在未优化交变磁场下磁粒研磨加工 10 min ,磁粒研磨加工工件的表面粗糙度从 1.28 μ m 降至 0.38 μ m ;在优化后磁场强度最大的交变磁场作用下,磁粒研磨加工工件的表面粗糙度从 1.28 μ m 降至 0.13 μ m 。在辅助磁粒研磨过程中,优化后的交变磁场不仅提高了加工区域内的磁感应强度,而且磁性磨粒研磨轨迹更加复杂,促进了磁性磨粒的更新,使加工后工件的表面形貌更加平整。用优化后的交变磁场辅助磁粒研磨 TC4 钛合金表面,提高了研磨效率,进一步提高了工件的表面质量。
- Abstract:
- : Titanium alloy is an emerging structural and functional material , and precision machining of TC4 titanium alloy surface remains a challenge. To improve the surface quality of titanium alloy , the arrangement of permanent magnetic poles is further optimized in alternating magnetic field magnetic particle grinding. The unoptimized alternating magnetic field and the optimized alternating magnetic field were simulated and analyzed by finite element software. The changes of surface morphology and surface roughness of TC4 titanium alloy processed by magnetic particle lapping under several alternating magnetic fields before and after optimization were compared through experiments.The results show that after 10 min of magnetic grain grinding , the surface roughness of the workpiece is reduced from 1.28 μ m to 0.38 μ m without optimizing the alternating magnetic field , and the surface roughness of the workpiece decreases from 1.28 μ m to 0.13 μ m during the magnetic particle grinding process under the optimized alternating magnetic field with the highest magnetic field strength. The optimized alternating magnetic field has increased the magnetic induction intensity within the processing area during assisted magnetic abrasive machining. During the grinding process with the optimized alternating magnetic field , the trajectory of magnetic abrasive particles becomes more complex , facilitating the renewal of magnetic abrasive particles. This results in a smoother surface morphology of the workpiece after processing. The optimized alternating magnetic field-assisted magnetic abrasive machining on the surface of TC4 titanium alloy increased the grinding efficiency and further improved the surface quality of the workpiece .
参考文献/References:
[1] 舒坤 , 孙岩 , 陈燕 . 超声振动辅助磁粒研磨技术的研究进展 [J]. 振动与冲击 , 2023, 42(6): 39-54.
[2] 邓曰明 , 赵玉刚 , 刘广新 , 等 . 基于响应面法的镍钛合金血管支架管材内壁磁粒研磨工艺参数研究 [J]. 表面技术 , 2021, 50(10): 384-393.
[3] Ahmad S, Singari Ranganath M, Mishra R. S. Tri-objective constrained optimization of pulsating DC sourced magnetic abrasive finishing process parameters using artificial neural network and genetic algorithm[J]. Materials and Manufacturing Processes, 2021, 36(7): 843-857.
[4] Andrii Z, Florian W, Dirk B, et al. Influence of process parameters and initial surface on magnetic abrasive finishing of flat surfaces on CNC machine tools[J]. Journal of Manufacturing and Materials Processing, 2021, 5(4): 108-108.
[5] Song Z, Zhao Y G, Liu G X, et al. Surface roughness prediction and process parameter optimization of Ti-6Al-4 V by magnetic abrasive finishing[J]. The International Journal of Advanced Manufacturing Technology, 2022, 122(1): 219-233.
[6] 王杰 , 陈燕 , 吕旖旎 , 等 . 开槽仿形磁极在轴承内圈滚道光整中的应用 [J]. 电镀与精饰 , 2020, 42(5): 32-37.
[7] 叶恒宇 , 梁存真 , 覃寿同 . 磁极开槽情况对磁力研磨的影响 [J]. 机械设计与制造 , 2018(4): 101-103.
[8] 邓曰明 , 赵玉刚 , 宋壮 , 等 . 磁极开槽对磁粒研磨加工镍钛合金血管支架管材内壁表面质量的影响 [J]. 表面技术 , 2022, 51(2): 322-330.
[9] 朱子俊 , 韩冰 , 陈燕 , 等 . 复合磁极磁粒研磨平面机理及试验探究 [J]. 表面技术 , 2021, 50(9): 352-360.
[10] 赵杨 , 陈燕 , 李文龙 , 等 . 电磁铁与永磁铁研磨铝合金管件内表面的对比研究 [J]. 现代制造工程 , 2020(3): 88-92.
[11] Panteleenko F I, Maksarov V V, Petrishin G V, et al. Fast magnetic abrasive finishing with diffusionally alloyed powder[J]. Russian Engineering Research, 2023, 43(4): 470-473.
[12] 杨海吉 , 邓祥伟 , 韩冰 , 等 . 超声波辅助磁力研磨 TC4 薄壁细长管内表面研究 [J]. 组合机床与自动化加工技术 , 2018(2): 30-33.
[13] 朱子俊 , 韩冰 , 李奎 , 等 . 超声辅助磁粒研磨 TC4 平面的光整试验研究 [J]. 电镀与精饰 , 2020, 42(10): 6-11.
[14] 于克强 , 周锟 , 陈燕 . 超声波辅助磁力研磨整体叶盘试验研究 [J]. 电镀与精饰 , 2020, 42(7): 42-46.
[15] 焦安源 , 全洪军 , 陈燕 , 等 . 超声磁力复合研磨钛合金锥孔的试验研究 [J]. 机械工程学报 , 2017, 53(19): 114-119.
[16] 刘冬冬 , 韩冰 , 陈燕 , 等 . 超声磁粒研磨 Al 6061 管内表面光整试验研究 [J]. 电镀与精饰 , 2019, 41(12): 14-19.
[17] 潘继生 , 阎秋生 , 路家斌 , 等 . 集群磁流变平面抛光加工技术 [J]. 机械工程学报 , 2014, 50(1): 205-212.
[18] 范增华 , 田业冰 , 石晨 , 等 . 多磁极旋转磁场的钛合金表面磁性剪切增稠光整加工特性 [J]. 表面技术 , 2021, 50(12): 54-6.
[19] 张龙龙 , 焦安源 , 陈燕 , 等 . 磁粒研磨 Al 2024 细长管的机理及试验研究 [J]. 表面技术 , 2018, 47(9): 303-309.
[20] Xie H, Zou Y. Study on the magnetic abrasive finishing process using alternating magnetic field-discussion on the influence of current waveform variation[J]. The International Journal of Advanced Manufacturing Technology, 2021, 114(7): 1-13.
[21] 康璐 . 粘结法制备磁性磨粒的工艺及其性能研究 [D]. 鞍山 : 辽宁科技大学机械工程与自动化学院 , 2019.
[22] 李路杰 . 平面磁力研磨中磁极结构优化设计及试验研究 [D]. 鞍山 : 辽宁科技大学机械工程与自动化学院 , 2022.
[23] 陈红玲 , 张银喜 . 磁性磨料磨粒的磨削机理研究 [J]. 太原理工大学学报 , 2000, 31(5): 562-565.
相似文献/References:
[1]刘冬冬,韩 冰,陈 燕,等.GCr15轴承内圈磁粒研磨光整实验[J].电镀与精饰,2019,(7):1.[doi:10.3969/j.issn.1001-3849.2019.07.001]
LIU Dongdong,HAN Bing,CHEN Yan,et al.Experimental Study on GCr15 Bearing Inner Ring Magnetite Grinding and Finishing[J].Plating & Finishing,2019,(5):1.[doi:10.3969/j.issn.1001-3849.2019.07.001]
[2]赵 杨,陈 燕*,程 淼,等.电磁场作用下球形磁极辅助研磨弯管内表面研究[J].电镀与精饰,2020,(1):22.[doi:10.3969/j.issn.1001-3849.2020.01.005]
ZHAO Yang,CHEN Yan*,CHENG Miao,et al.Study on the Inner Surface Finishing of Bend Pipe by Electromagnetic Fields Drive Spherical Magnetic Pole[J].Plating & Finishing,2020,(5):22.[doi:10.3969/j.issn.1001-3849.2020.01.005]
[3]胡玉刚,陈 燕*,杨大鹏,等.PVD涂层阶梯杆的磁粒研磨加工研究[J].电镀与精饰,2020,(2):20.[doi:10.3969/j.issn.1001-3849.2020.02.005]
HU Yugang,CHEN Yan*,YANG Dapeng,et al.Study on Magnetic Abrasive Machining of PVD Coated Stepped Rod[J].Plating & Finishing,2020,(5):20.[doi:10.3969/j.issn.1001-3849.2020.02.005]
[4]李 奎,韩 冰*,朱子俊,等.磁粒研磨中单颗磁性磨粒磁场力的实验研究[J].电镀与精饰,2021,(5):15.[doi:10.3969/j.issn.1001-3849.2021.05.003]
LI Kui,HAN Bing*,ZHU Zijun,et al.Experimental Study on the Magnetic Field Force of a Single Magnetic Abrasive Particle in Magnetic Grinding[J].Plating & Finishing,2021,(5):15.[doi:10.3969/j.issn.1001-3849.2021.05.003]
[5]李毓滦,曲禹鑫,程海东,等.磁粒研磨中磁性磨料的动力学行为仿真研究[J].电镀与精饰,2024,(2):107.[doi:10.3969/j.issn.1001-3849.2024.02.016]
Li Yuluan,Qu Yuxin,Cheng Haidong,et al.Simulation study on the dynamic behavior of magnetic abrasives in magnetic particle grinding[J].Plating & Finishing,2024,(5):107.[doi:10.3969/j.issn.1001-3849.2024.02.016]
备注/Memo
收稿日期: 2023-09-11 修回日期: 2024-01-28 作者简介 : 李佳新( 1998 —),女,硕士研究生,研究方向为精密与特种加工, 2582828960@qq.com * 通信作者: 韩冰( 1975 —),男,博士,教授,研究方向为精密与特种加工, email : hanb75@126.com?/html>