INFLUENCE OF MATERIAL PROPERTIES ON THE MACHINABILITY IN FACE MILLING

被引:0
作者
Sekulic, Milenko [1 ]
Hadzistevic, Miodrag [1 ]
Gostimirovic, Marin [1 ]
Turisova, Renata [2 ]
Pejic, Vlastimir [3 ]
机构
[1] Fac Tech Sci Novi Sad, Novi Sad 21000, Serbia
[2] Fac Engn, Kosice 04200, Slovakia
[3] Fac Engn, Doboj 74000, Bosnia & Herceg
来源
MATERIALI IN TEHNOLOGIJE | 2012年 / 46卷 / 06期
关键词
material machinability; the main cutting force; face milling;
D O I
暂无
中图分类号
T [工业技术];
学科分类号
08 ;
摘要
A workpiece material and its mechanical properties, chemical composition and microstructure have a significant influence on the material machinability in machining, i.e., on the machining-process output properties: productivity, machined surface quality and machining accuracy. Machinability improves when equal conditions are achieved: long tool life, increased productivity, better machined surface quality, lower forces and cutting temperatures, as well as favourable chip type. Cutting-process planning requires reliable cutting-force estimates, which can be currently obtained only from process-dependent machinability databases. This paper described research in the field of cutting forces in the face milling of eight different materials: steels C45 and C60, gray irons GJL150 and GJL200, silumine AlSi 12Cu.00, copper EK2-Cu.00, bronze CuSn12.01 and brass CuZn40Pb.05. The results showed that the hardness, tensile-strength values, chemical composition and microstructure of a workpiece material have a significant influence on the main cutting force, and thereby on the cutting energy in machining.
引用
收藏
页码:601 / 606
页数:6
相关论文
共 50 条
[41]   Robust Multiobjective Optimization of Cutting Parameters in Face Milling [J].
Aykut, Seref ;
Kentli, Aykut ;
Gulmez, Servet ;
Yazicioglu, Osman .
ACTA POLYTECHNICA HUNGARICA, 2012, 9 (04) :85-100
[42]   Characteristics of cutting forces in high speed face milling [J].
Kulenovic, M. ;
Cekic, A. ;
Halilagic, D. .
Annals of DAAAM for 2004 & Proceedings of the 15th International DAAAM Symposium: INTELLIGNET MANUFACTURING & AUTOMATION: GLOBALISATION - TECHNOLOGY - MEN - NATURE, 2004, :239-240
[43]   Direct Part Marking by Vibration Assisted Face Milling [J].
Denkena, Berend ;
Grove, Thilo ;
Seibel, Alexander .
3RD INTERNATIONAL CONFERENCE ON SYSTEM-INTEGRATED INTELLIGENCE: NEW CHALLENGES FOR PRODUCT AND PRODUCTION ENGINEERING, 2016, 26 :185-191
[44]   Analysis of transient average tool temperatures in face milling [J].
Cui, Xiaobin ;
Zhao, Jun ;
Pei, Zhiqiang .
INTERNATIONAL COMMUNICATIONS IN HEAT AND MASS TRANSFER, 2012, 39 (06) :786-791
[45]   Improvement of workpiece quality in face milling of aluminum alloys [J].
Biermann, Dirk ;
Heilmann, Markus .
JOURNAL OF MATERIALS PROCESSING TECHNOLOGY, 2010, 210 (14) :1968-1975
[46]   RESIDUAL STRESS WHEN FACE MILLING ALUMINIUM ALLOYS [J].
Sedlak, Josef ;
Osicka, Petr ;
Chladil, Josef ;
Jaros, Ales ;
Polzer, Ales .
MM SCIENCE JOURNAL, 2018, 2018 :2530-2535
[47]   Analysis of Thermal Fracture in Face Milling (Part One) [J].
Wang Zhiyong Dong Shen Yuan Zhejun (Department of Mechanical Engineering) .
哈尔滨工业大学学报, 1990, (03) :132-136
[48]   FTS-based face milling of micro structures [J].
Koehler, J. ;
Seibel, A. .
3RD CIRP GLOBAL WEB CONFERENCE - PRODUCTION ENGINEERING RESEARCH ADVANCEMENT BEYOND STATE OF THE ART (CIRPE2014), 2015, 28 :58-63
[49]   Efficient tool paths and part orientation for face milling [J].
Rangarajan, A ;
Dornfeld, D .
CIRP ANNALS-MANUFACTURING TECHNOLOGY, 2004, 53 (01) :73-76
[50]   Performance of cutting fluids during face milling of steels [J].
Vieira, JM ;
Machado, AR ;
Ezugwu, EO .
JOURNAL OF MATERIALS PROCESSING TECHNOLOGY, 2001, 116 (2-3) :244-251