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Research on 5 Axis Tool-path Based on Constant Shearing Stress for Milling Thin-wall Ceramics Sun Quanpinga Wu Haibingb Chen Qianliangc aspqu@sian.com,bhbwu@qq.com,ccql@163.com The Key Lab. of Advanced Manufacturing Technology, Huaiyin Institute of Technology, China Keywords: Ceramics; High-speed cutting; Crack control; Algorithm Abstract: Ceramics is a material of hardness and brittle, so crack arises easily when it is machined.
To milling process, the investigations on ceramic cutting are very few.
The constant-shearing-stress model for milling ceramics Some complex and thin-ball work pieces, such as molar crown, that is hollow, like a drum-shape shell, thin-wall about 0.3mm, and clamped by overhang(seeing Fig. 1), often are made with biological ceramics.
,et al:Rapid Prototyping Journal Vol.11(2005),p. 37 [3] Pham D.
:International Journal of Machine Tools & Manufacture Vol 47(2007),p. 618 [4] Burak Sencer, Yusuf Altintas:Journal of Manufacturing Science and Engineering Vol 131(2009),p. 1 [5] Lu J, Cheatham R, Jensen CG et al:International Journal of Computer Integrated Manufacturing Vol 21(2008), p. 550 [6] Campa FJ, de Lacalle LNL, Urbikain G et al:Proceedings of the ASME International Manufacturing Science and Engineering Conference (2008),p. 359 [7] Wang Xiankui.Manual machining process(China Machine Press, 2006) [8] Sun Quanping, Liao Wenhe,Sheng Liang: Journal of Computer Aided Design & Computer Graphics Vol 17, p. 486

Study on the Ballistic Performance of Ceramic Composite Armor with Different Adhesive Jubin Gao1,a, Yangwei Wang 1,b *, Lingyu Zhang 1,c , Guofeng Han 2,d , Fuchi Wang 1,e 1 Beijing Institute of Technology, Beijing , P.R.China 2 Academy of Armored Force Engineering.
Balakrishna Bhat: International Journal of Impact Engineering, Vols. 1-4 (2005) No.32, pp.37-350
Klein: International Journal of Machine Tools & Manufacture, Vols. 2-3 (2004) No.44, pp.307-316
Yoo: International Journal of Impact Engineering, Vol. 25 (2001) No.9, pp.819829
Ramesh: International Journal of Solids and Structures, Vols. 17-18 (1995) No.32, pp.2609-2626

The ceramic spindle consumes fewer than 23% of total power for idle running due to the application of engineering ceramic.
Tu: International Journal of Machine Tools & Manufacture, Vol. 39 (1999), pp.1345-1366
Altintas: International Journal of Machine Tools Manufacture, Vol. 45 (2005), pp. 537-548
Zhong: International Journal of Machine Tools & Manufacture, Vol. 42 (2002), pp.815-823
Kung: Precision Engineering, Vol. 128 (2004), pp.232-238

Numerical simulation on the oblique penetration of ceramic particles reinforced metal matrix functional gradient armor Zhenqing Wang1,a, Xiaojun Tang1,b, Xintao Wang1,c, Xiangnan Meng1,d, Hongqing Lv1,e 1College of Aerospace and Civil Engineering, Harbin Engineering University, Harbin 150001, P.R.
The authors acknowledge Harbin Engineering University of China.
International Journal of Impact Engineering.
International Journal of Solids and Structures.
International Journal of Solids and Structures.Vol.37(2000),P.6383-6395

Experimental Study on Laser Assisted Milling of Sintered Silicon Nitride Ceramics Xiangwei Wang1,a,Hongzhi Zhang2,b,Xuefeng Wu2,c, Yang Wang2,a and LijunYang2,d 1School of Light Industry, Harbin University of Commerce, Harbin, Heilongjiang, 150028, China 2School of Mechatronics Engineering, Harbin Institute of Technology, Harbin, Heilongjiang, 150001, China awyyh@hit.edu.cn, bzhz-hit@163.com, chitxuefeng@gmail.com, dyljtj@hit.edu.cn Keywords: Laser assisted machining, Laser assisted milling, Ceramic machining, Silicon nitride Abstract.
Laser assistance significantly increased the machinability of silicon nitride ceramics.
References [1] Rozzi JC, Pfefferkorn FE, Shin YC: Journal of Manufacturing Science and Engineering Vol.122(4) (2000), p. 666-670 [2] Rebro PA, Shin YC, Incropera FP: Journal of Manufacturing Science and Engineering Vol.124(4) (2002), p. 875-885 [3] Pfefferkorn FE, Shin YC, Tian Y: Journal of Manufacturing Science and Engineering Vol.126(1) (2004), p.42-51 [4] Anderson M, Patwa R, Shin YC: International Journal of Machine Tools and Manufacture Vol.46(14) (2006), p.1879-1891 [5] Skvarenina S, Shin YC: International Journal of Machine Tools and Manufacture Vol.46(1) (2006),p.7-17 [6] Anderson MC, Shin YC: Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture Vol.220(12) (2006), p.2055-2067 [7] Konig W, Zaboklicki A K: NIST Special Publication, Gaithersburg, MD Vol. 847 (1993), p.455–463 [8] Shen, X. and S.
Lei: Transactions of the ASME Vol.131 (5) (2009), p.0510071-05100710 [9] Tian Y, Wu B, Anderson M: Journal of Manufacturing Science and Engineering Vol.130(3) (2008), p.31013-31019 [10] Yang B, Lei S: Int.
Mechatronics and Manufacturing Systems Vol.1(1) (2008), p.116-130 [11] Yang B, Shen X, Lei S: International Journal of Machine Tools and Manufacture Vol.49(3-4) (2009), p.344-350 [12] Melkote S, Kumar M, Hashimoto F: CIRP Annals - Manufacturing Technology Vol.58(1) (2009), p.45-48

Surface Roughness Model when Machining Aluminum Nitride Ceramic with Two Flute Square end Micro Grain Solid Carbide end Mill Mohan Reddy.M 1, a, Alexander Gorin 2 , Abou-El-Hossein.K.A.3 and Sujan.D1 1 Mechanical Engineering Department, Curtin University of Technology (Malaysia Campus), CDT 250, Miri, Sarawak, 98009, Malaysia 2Chemical Engineering Department, Swinburne University of Technology,Kuching, 93350, Malaysia 3Mechanical & Aeronautical Department of Mechatronics Engineering, Nelson Mandela Metropolitan University, Port Elezebeth, 6031, South Africa amohan.m@curtin.edu.my Keywords: Aluminum nitride ceramic, Surface roughness, and Carbide end mill Abstract: This research presents the performance of Aluminum Nitride ceramic in end milling using two flute square end micro grain solid carbide end mill under dry cutting.
Introduction Aluminum nitride ceramic (AlN) is relatively more used and attractive engineering ceramic because plastic deformation nature have been identified in this ceramic[1].
“ELID grinding characteristics and surface modifying effects of aluminum nitride (AlN) ceramics”, International Journal of Machine Tools & Manufacture 45, 891-896
[7] Huang, H., and Liu.Y.C., 2003 “Experimental investigations of machining characteristics and removal mechanisms of advanced ceramics in high speed deep grinding” International Journal of Machine Tools and Manufacture 43 (8), 811-823
“High speed grinding of silicon nitride with electroplated diamond wheels.1.wear and wheel life”, Manufacturing Science and Engineering, ASME, 10, 431-441

Research of Physical and Mechanical Properties of Fly Ash Ceramics with SiO2 and Al2O3 Nanoparticles as Functional Addition Kalneus V.A.1,2,a, Nеmushchеnko D.A.1,b, Larichkin V.V.1,c, Briutov A.A.2,d 1Department of Engineering Issues in Ecology, Novosibirsk State Technical University, 20 Prospekt K.
Jovanov, Production of ceramics from coal fly ash, Chemical Industry and Chemical Engineering Quarterly. 18(2) (2012) 245-254
Wang, Ceramic tiles derived from coal fly ash: preparation and mechanical characterization, Ceramics International. 43(15) (2017) 11953-11966
Rijab, Mechanical properties of epoxy nanocomposite, International Journal of Advanced Research. 3(6) (2015) 1468-1472
Mechanical engineering, materials science. 1 (2011) 117-120.

Kuzin, Effectiveness of the nitride ceramic cutting tools in machining the gray irons, Russian Engineering Research 24 (2004) 21-27
Kuzin, Automated thermal-strength calculations of ceramic cutting plates, Russian Engineering Research 31 (2011) 1060-1066
Yamakawa, Room temperature strength and microstructure of Si3N4-Y2O3-ZrO2-Al2O3 ceramics, Materials Science and Engineering: A 105-106 (1988) 175-182
Duclos, On the morphology and composition of the oxidized layer in Si3N4-based materials, Materials Science and Engineering: A 163 (1) (1993) L5-L7
Lu, Thermal shock and thermal fatigue behavior of Si3N4-TiC nano-composites, International Journal of Refractory Metals and Hard Materials 26 (5) (2008) 478-484

Introduction Engineering ceramic materials have very high hardness due to their low density, less dislocation, low crystal transfer rate. engineering ceramics is not easy to produce plastic deformation, mostly manifested as brittle failure, it is difficult to ensure the surface quality of ceramics after grinding.
The emergence of nanostructured ceramic coatings provide a new way to resolve the problem of brittleness of ceramic materials.
International Journal of Machine Tools & Manufacture, May2012
Surface Integrity in Machining Hard-brittle Materials.Journal of Japan Society for Abrasive Technology,March2010
International Journal of Advanced Manufacturing Technology, Jun2012

Abdul Maleque1,b, Asfana Banu1,c, Abdus Sabur1,d and Sujan Debnath2,e 1Department of Manufacturing and Materials Engineering, Faculty of Engineering, International Islamic University Malaysia, P.O.
Journal of Engineering Manufacture, 224, (2009), pp. 195-205
International Journal of Precision Engineering and Manufacturing, 12 (2) (2011), pp. 195-201
Journal of Engineering Manufacture, 1-12 (2011)
Journal of Manufacturing Science and Engineering, 129 (2) (2007), pp. 265-273