Login Register Cart 0
Generic placeholder image

Recent Patents on Mechanical Engineering

Editor-in-Chief

ISSN (Print): 2212-7976
ISSN (Online): 1874-477X

Back
Journal Home About Journal Editorial Board Journal Insight Current Issue Volumes/Issues
Subscribe
Review Article

Research Progress and New Patents of Magnetic Grinding Machine

Author(s): Yuan Li, Ye Dai*, Yunshan Qi and Yufei Gao

Volume 12, Issue 3, 2019

Page: [201 - 210] Pages: 10

DOI: 10.2174/2212797612666190628114612

Price: $65

Abstract

Background: Mechanical parts in processing and manufacturing process will produce burr, scratches and other surface quality problems, which have adverse effects on the precision, use, reprocessing location, operation safety and appearance quality of the parts, so it is necessary to grind the workpiece surface.

Objective: Based on the recent development in the field of magnetic grinding and related patent research, it can provide reliable help to solve the problem of finishing the surface of parts with complex shapes and small volumes.

Methods: This paper reviewed some patents and research advances related to magnetic abrasive finishing, and the advantages and disadvantages of the magnetic grinding machine in the finishing process were summarized. The outstanding grinding effect of the new vibration assisted magnetic grinder was introduced.

Results: The working characteristics of various magnetic grinding machines were summarized, and the development trend of magnetic grinding and finishing was prospected.

Conclusion: Magnetic abrasive finishing has good flexibility, strong self-sharpening, wide applicable scope, high processing efficiency, simple processing equipment and low cost. It can control the grinding efficiency and grinding precision. The machining efficiency and quality of magnetic grinding can be improved with the appropriate amplitude of vibration assist, and the surface quality can be improved significantly.

Keywords: Burr, electrochemistry, finishing cut, magnetic abrasive finishing, precise finish, ultraphonic, vibration assisted.

« Previous Next »
[1]
Zhang T, Jin ZJ, Wang PC. Technology research on magnetic abrasive preparation by rolling plating method. J Electroplat Finish 2015; 34(8): 449-53.
[2]
Wang BB. Research and development of outer raceway processing technology and equipment for ball screw pair. MSc Dissertation, Nanjing University of Science and Technology, Nanjing, China, March 2017.
[3]
Huang YH. Magnetic abrasive preparation by sintering method. MSc Dissertation, Shandong University of Technology, Zibo, China, April 2010.
[4]
Hou PK, Yang SQ, Li WH, Chen HL. Research on magnetic abrasive preparation by bonding method and its smooth processing of bearing steel outer surface. Mod Manuf Eng 2015; 3: 75-8.
[5]
Zhang L, Zhao JB, Li L. Research on magnetic abrasive machining method of complex curved surface. J Modul Mach Tool uto Mach Technol 2014; 1: 129-31.
[6]
Liu HS. Research and application of magnetic abrasive technology. MSc Dissertation, Shandong University of Technology, Zibo, China, June 2009.
[7]
Chu YJ, Sun YF. Research on the application of magnetic force research and processing technology. Proceedings of the 16th National Special Processing Academic Conference, China Mechanical Engineering Society Special Processing Branch. Xiamen, China June . 2015.
[8]
Givi M, Tehrani AF, Mohammadi A. Polishing of the aluminum sheets with magnetic abrasive finishing method. Int J Adv Manuf Technol 2012; 61(9-12): 989-98.
[http://dx.doi.org/10.1007/s00170-011-3753-0]
[9]
Wang YL. Research on plane efficient grinding technology based on new consolidated abrasive tools. MSc Dissertation, Changchun University of Science and Technology, Changchun, China, March 2016.
[10]
Wei ZQ, Yao PX, Gao F, Guo SG. Research on equivalent magnetic grinding strategy of curved surface based on curvature. J Mach Tool Hyd 2015; 43(8): 29-31.
[11]
Yang B. Research on magnetic control grinding technology of single crystal sapphire fairing. MSc Dissertation, Nanjing University of Aeronautics and Astronautics, Nanjing, China, March 2017.
[12]
Xiao ZY. Theoretical and experimental research on the technology of magnetic abrasive finishing. Mould Ind 2004; 12: 47-50.
[13]
Chen CZ, Zhang GX, Zhao YG. Effects of magnetic grinding on surface quality of Inconel718 alloy. J Electroplat Finishing 2016; 35(1): 23-7.
[14]
Houshi MN. A comprehensive review on magnetic abrasive finishing process. J Adv Eng Forum 2016; 18: 1-20.
[http://dx.doi.org/ 10.4028/www.scientific.net/AEF.18.1]
[15]
Wu H, Zhang GX, Zhao WC. Effect of magnetic grinding on the surface morphology of 440c stainless steel. J Electroplat Finishing 2015; 37(3): 16-9.
[16]
Zhang PP. Experimental study on magnetic finishing of permanent magnetic field spherical magnetic abrasive. MSc Dissertation, Shandong University of Technology, Zibo, China, February 2012.
[17]
Pan HF. Preparation of diamond magnetic abrasive and research on its magnetically controlled grinding properties. MSc Dissertation, Nanjing University of Aeronautics and Astronautics, Nanjing, China, March 2016.
[18]
Zhang G, Zhao Y, Zhao D, Zuo D. New iron-based SiC spherical composite magnetic abrasive for magnetic abrasive finishing. Chin J Mech Eng 2013; 26(2): 377-83.
[http://dx.doi.org/10.3901/CJME.2013.02.377]
[19]
Kala P, Pandey PM, Verma GC, Sharma V. Understanding flexible abrasive brush behavior for double disk magnetic abrasive finishing based on force signature. J Manuf Process 2017; 28: 442-8.
[http://dx.doi.org/10.1016/j.jmapro.2017.04.010]
[20]
Xu ZF. Burr removal process of mechanical parts. J Mach Tool Hyd 2010; 38(8): 111-3.
[21]
An JX. Magnetic abrasive processing technology and its development and application. J Taiyuan Univ Technol 2000; 4: 464-6.
[22]
Sun Y, Lan Y, Chen Y. Magnetic grinding and finishing machining of micro groove surface of magnetic and non-magnetic materials. Manuf Technol Mach Tool 2015; 9: 132-5.
[23]
Gao CY, Ni XF, Yuan R, Gu WY. Application of rotating magnetic field in magnetic grinding and machining of small workpiece. J Mech Des Manuf 2011; 2: 64-6.
[24]
Fang JC, Jin ZJ, Xu WJ, Zhou JJ. Research on magnetic abrasive machining by applying a rotating magnetic field. Chin Mech Eng 2001; 12(11): 1304-6.
[25]
Mulik RS, Pandey PM. Magnetic abrasive finishing of hardened AISI 52100 steel. Int J Adv Manuf Technol 2011; 55(5-8): 501-15.
[http://dx.doi.org/10.1007/s00170-010-3102-8]
[26]
Luo SC. Experimental study on magnetic grinding of tungsten carbide mold for glass molding. MSc Dissertation, Hunan University, Changsha, China, May 2016.
[27]
Gao YL. Research and application of magnetic abrasive finishing and magnetic abrasive preparation technology. MSc Dissertation, Shan Dong University of Technology, Zibo, China, April 2009.
[28]
Wang WZ, Li J, Xia L, Wang HM, Zhu YW, Zuo DW. Effect of abrasive particle size on the processing performance of consolidated abrasive abrasive quartz glass. J Diamond Abras Tool Eng 2015; 2: 9-13.
[29]
Yang XP. Development and experimental verification of adjustable magnetic field device for smooth finishing of rotary surface magnetic abrasive. MSc Dissertation, Taiyuan University of Technology, Taiyuan, China, June 2016.
[30]
Huang ZY. Experimental study on numerical control machining of lamp reflector mould core. MSc Dissertation, Guangdong University of Technology, Guangzhou, China, June 2012.
[31]
Wang XF. Experimental study on the ball-milling technology and processing of Fe/Al2O3 magnetic abrasive particles. MSc Dissertation, Taiyuan University of Technology, Taiyuan, China, May 2013.
[32]
Yin YL. Design and experimental study of the magnetic field generator for optical processing in a rotating permanent magnetic field. MSc Dissertation, Taiyuan University of Technology, Taiyuan, China, May 2010.
[33]
Zhang C. Characteristics and experimental study of magnetically controlled airbag polishing. MSc Dissertation, Zhejiang University of Technology, Hangzhou, China, December 2012.
[34]
Zhou J. Analysis of design characteristics based on typical thin-walled parts. J Shandong Ind Technol 2017; 19: 67.
[35]
Shen GT. Research on the key technology of numerical control grinding of curved surface mixed magnetofluid. MSc Dissertation, Wuhan University of Technology, Wuhan, China, April 2015.
[36]
Chen HL, Zhang YX, Guo YY. Research on adhesive magnetic abrasive. J Taiyuan Univ Technol 2001; 5: 533-5.
[37]
Li XQ, Li J, Hu DJ, Weng SX. Surface magnetic abrasive finishing in logistics pipeline. Elec Mach & Mold 2000; 2: 21-2.
[38]
Zhao YG, Jiang SC, Zhou JJ. A new type of complex curved magnetic particle finishing machine. J Mech Eng 2000; 3: 100-3.
[39]
Gao GF, Wang Y. Research progress in magnetic abrasive machining technology. J Henan Polytechnic Univ [Nat Sci] 2015; 34(6): 813-7.
[40]
Eltaweel TA. Modelling and analysis of hybrid electrochemical turning-magnetic abrasive finishing of 6061 Al/Al2O3 composite. Int J Adv Manuf Technol 2008; 37(7-8): 705-14.
[http://dx.doi.org/10.1007/s00170-007-1019-7]
[41]
Fang SX, Zhao HL, Zhang QJ. Application status and development trend of ultrasonic processing technology. Mech Eng 2007; 53(19): 22-32.
[http://dx.doi.org/10.3901/JME.2017.19.022]
[42]
Jiao LF. Study on the surface quality of ultrasonic composite magnetic abrasive engineering ceramics outer circle. MSc Dissertation, Henan University of Science and Technology, Jiaozuo, China, April 2016.
[43]
Sun Y, Chen Y, Lan Y. Application of magnetic grinding method in the mold grinding and polishing of aviation sealing ring. J Manuf Technol & Mach Tool 2014; 7: 37-40.
[44]
Chen Y, Liu ZQ, Wang XK. Research on ultrasonic vibration assisted magnetic grinding and processing. J Agric Mach 2013; 44(10): 294-8.
[45]
Chen Y, Zhang GB, Han B, Li C. Experimental study on ultra-precision polishing technology of inner surface of ceramic tube by magnetic grinding method. J Tribol 2015; 35(2): 131-7.
[46]
Han B, Yun H, Chen Y, Ying J. Experimental study on highly efficient and precise grinding of inner surface of Al2O3 ceramic tube. J Mech Design Manuf 2016; 1: 154-7.
[47]
Li K, Chen Y, Zhou CQ. Study on vibration assisted magnetic abrasive finishing of intersection line of pinhole deburring. Comb Mach Tools Auto Process Technol 2018; 3: 26-9.
[48]
Wang JW. A one-piece streamline the magnetic force grinding equipment. CN106891240 (2017)
[49]
Meng QR. Magnetic grinder. CN206464973 (2017).
[50]
Meng QR. Translation type magnetic grinder. CN206464969 (2017).
[51]
Meng QR. The automatic discharged magnetic grinding machine. CN206464970 (2017).
[52]
Jang SZ. A full-range magnetic grinder. CN205888862 (2017).
[53]
Tang XW. The multifunctional magnetic grinding machine. CN204504980 (2015).
[54]
Liao M, Tan Y, Han B, Yu ZH, Li K, Li RQ. An electrochemical magnetic grinding machine for alloy tube finishing. CN205363430 (2016).
[55]
Yang B, Li MD, Wang X, et al. Design and application of a safety valve magnetic fluid grinding polishing machine. CN106239346 (2016)
[56]
Wu ZX. Fully automatic double barrel magnetic abrasive device. CN106903558 (2017).
[57]
Castillo A, Raghavan A, Muller PR. Electromechanical surface texturing. WO2016195658 (2016).
[58]
Tzeng H-J. Apparatus and method for polishing via driving abrasive grains mechanically and magnetically. US20100136887 (2010).
[59]
Liao L-J. Ultra-low temperature magnetic polishing machine. US20120083190 (2012).
[60]
Gupta K, Jain NK, Laubscher RF. Assisted hybrid machining processes. J Springer Briefs in Appl Sci Technol 2016; 236: 45-65.
[61]
Kajal S, Jain VK, Ramkumar J, Nagdeve L. Experimental and theoretical investigations into internal magnetic abrasive finishing of a revolver barrel. Int J Adv Manuf Technol 2017; 56: 1-18.
[62]
Verma GC, Kala P, Pandey PM. Experimental investigations into internal magnetic abrasive finishing of pipes. Int J Adv Manuf Technol 2016; 88(5-8): 1-12.
[63]
Zhou CQ, Han B, Xiao CF, Chen Y, Liu XL. Application research of magnetic abrasive granule assisted magnetic needle grinding. Surf Technol 2019; 3: 275-82.
[64]
Xia A, Yang BT. The grinding mechanism and application of new electromagnetic permanent magnet vibration. J Nois Vib Ctrl 2019; 39(1): 238-42.
[65]
Du ZW, Chen Y, Zhou K, Niu F. Study on the polishing process of the whole impeller by magnetic grinding method. Aeronaut Manuf Technol 2015; 49(20): 93-5.
[66]
Wang QC, Zhang XD, Su JX, Zhu WB, Xi QY, Zhu X, et al. Experimental study on chemical mechanical grinding of SiC single chip. Surf Technol 2015; 44(4): 137-40.
[67]
Jiao AY, Quan HJ, Chen Y, Han B. Experimental study on ultrasonic magnetic compound grinding of titanium alloy taper hole. J Mech Eng 2017; 53(19): 114-9.
[http://dx.doi.org/10.3901/JME.2017.19.114]
[68]
Yang HJ, Han B, Chen Y, Ying J, Xie Z. The application of rotating magnetic pole in the polishing of the inner surface of the alloy tube. J Tribol 2018; 38(2): 189-95.
[69]
Zhou K, Chen Y, Du ZW, Niu L. Surface integrity of titanium part by ultrasonic magnetic abrasive finishing. Int J Adv Manuf Technol 2015; 80(5-8): 997-1005.
[http://dx.doi.org/10.1007/s00170-015-7028-z]
[70]
Jain VK, Saren KK, Raghuram V, Ravi Sankar M. Force analysis of magnetic abrasive nano-finishing of magnetic and non-magnetic materials. Int J Adv Manuf Technol 2016; 896: 1-11.
[71]
Wang XL. High-speed mechanical lapping mechanism of CVD diamond film. MSc Dissertation, Shenyang University of Technology, Shenyang, China, January 2012.
[72]
Peateek K, Pulak MP, Girish V, Varun S. Understanding flexible abrasive brush behavior for double disk magnetic abrasive finishing based on force signature. J Manuf Process 2017; 28(3): 442-8.
[http://dx.doi.org/10.1016/j.jmapro.2017.04.010]
[73]
Houshi MN. A comprehensive review on magnetic abrasive finishing process. J Adv Eng Forum 2016; 18: 1-20.
[http://dx.doi.org/10.4028/www.scientific.net/AEF.18.1]
[74]
Li WH, Li XH, Yang SQ, Li WD. A newly developed media for magnetic abrasive finishing process: Material removal behavior and finishing performance. J Mater Process Technol 2018; 260: 20-9.
[http://dx.doi.org/10.1016/j.jmatprotec.2018.05.007]

Rights & Permissions Print Cite
Article Metrics
20
1
© 2024 Bentham Science Publishers | Privacy Policy