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Determining the effect of process control parameters on Tool - Chip interface temperature during hard turning of AISI D3 tool steel in dry condition K.Venkatesh 1,a *, T.Senthilvelan 2,b 1 Research scholar, Department of Mechanical Engineering, SCSVMV University, Enathur, Kanchipuram – 631 561 2 Professor, Department of Mechanical Engineering, Pondicherry Engineering College, Pillaichavadi, Puducherry – 605 014.
By adopting the above said levels of process parameters, it is possible to improve the performance and durability of ceramic cutting tools and surface integrity of machined components as well.
[2] Gaurav Bartarya, S.K.Choudhury, “State of the Art in Hard Turning” International Journal of Machine Tools and Manufacture, Vol. 53 No.1, (2012), p. 01-14
[4] W.Grzesik, T.Wanat, “Comparative assessment of surface roughness produced by hard machining with mixed ceramic tools including 2D and 3D analysis” Journal of Materials Processing Technology, Vol.169 No.3 (2005), p. 364–371
Abhang, M.Hameedullah, “Chip-tool interface temperature prediction model for turning process” International Journal of Engineering Science and Technology, vol.2, issue-4 (2010), p.382-393

In [9] Cantero et al. have focused the analysis on the tool wear mechanisms in finishing turning of Inconel 718, both in wet and dry cutting, using cemented carbides ceramics and CBN tools.
Joshi, Multi-objective optimization of surface roughness and cutting forces in high-speed turning of Inconel 718 using Taguchi grey relational analysis (TGRA), The International Journal of Advanced Manufacturing Technology, Volume 56, Issue 1-4, pp 47-62, 2011; [6] S.
Mohan, Wear analysis of ceramic cutting tools in finish turning of Inconel 718, International Journal of Engineering Science and Technology Vol. 2(9), pp.4253-4262,2010; [8] Duong Xuan-Truong, Tran Minh-Duc, Effect of cutting condition on tool wear and surface roughness, during machining of Inconel 718, International Journal of Advanced Engineering Technology, IV/III, pp.108-112, 2013; [9] J.L.
Paulo Davim, Comparing statistical models and artificial neural networks on predicting the tool wear in hard machining D2 AISI steel, The International Journal of Advanced Manufacturing Technology June 2008, Volume 37, Issue 7-8, pp 641-648; [11] Tugrul Özel, Yigit Karpat, Luís Figueira, J.
Paulo Davim, Modelling of surface finish and tool flank wear in turning of AISI D2 steel with ceramic wiper inserts, Journal of Materials Processing Technology, Volume 189, Issues 1–3, Pages 192–198, 2007

Effect of additive on surface properties of solution coated PZT ferroelectric film Shengqiang Wu1,2, a , Xiaofei Zhang1,b* and Yonglin Xie1 1 Printable Electronics Research Centre (PERC), Suzhou Institute of Nano-tech and Nano-bionics, Chinese Academy of Sciences (CAS), China 2State Key Laboratory for Mechanical Behavior of Materials, School of Materials Science & Engineering, Xi'an Jiaotong University, China aemail：sqwu2014@sinano.ac.cn, bemail：xfzhang2013@sinano.ac.cn * Corresponding author Keywords: PZT film, Additive, Surface properties, Sol-gel.
Ceramics International 39 (2013) S471-S474
International Journal of Scientific Engineering and Technology, Volume No.3, Issue No.1 p : 31-35 [3] Herman Wijshoff.
Science of ceramic chemical processing. 1984 p. 52
Process of forming thin films functional ceramics [P] US Pat: 6,190, 728131, 2001

After the manuscripts were reviewed, 97 were accepted for publication in this special issue of Materials Science Forum I Journal of Metastable and Nanocrystalline Materials.
This symposium has brought together an interdisciplinary group of scientists and engineers.
These included papers in mechanochemistry, the effect of mechanical attrition on the chemical behavior of solids, covering many classes of materials, including metals, polymers and ceramics.
The Department of Nuclear Engineering at the University of Michigan has provided much appreciated support for the symposium preparation.
Finally, several sponsors have contributed to the success of the symposium through their generous financial support: the University of Michigan College of Engineering, U.S.

In-suit Synthesis (ZrB2-SiC)/Si High Temperature Oxidation Resistance Coating by Argon Arc Cladding Zhen-ting WANG1, 2, a*, Shi-kui ZHU1,b 1College of Materials Science and Engineering, Heilongjiang University of Science and Technology, Harbin, 150022, China 2 Jiangsu key laboratory of Large Engineering Equipment Detection and Control, Xuzhou, 221111, China a*wangzt2002@163.com, b379361650@qq.com Keywords: argon arc cladding, oxidation resistance, In-suit synthesis Abstract.
Acknowledgements This work was financially supported by the Education Department scientific and technical research project of Heilongjiang Province (12541705). and supported by the foundation of Jiangsu key laboratory of Large Engineering Equipment Detection and Control (JSKLEDC201201).
Journal of the European Ceramic Society,2002,238:. 1215-1221 [2] Huijun Liu, qian Xu, chuanwei Yang et al.
Ceramics International,2008,351:. 457-461 [5] Hongsheng Zhao, Zhiqiang Fu, Chunhe Tang, Xiaoxue Liu, Ziqiang Li, Kaihong Zhang.
Nuclear Engineering and Design, Volume 271, May 2014, Pages 217-220 [6] Zeng-Hua Gao, Jing-Jun Xu, Zhong-Wei Zhang et al.

Metals and Materials International, 1-11
In 2011 Second International Conference on Mechanic Automation and Control Engineering (pp. 1131-1135).
International Journal of Emerging Technology and Advanced Engineering, 2(8), 121-123
International Journal of Advanced Research in Engineering & Technology (IJARET), 4(6), 127-141
Baghdad Science Journal, 17(3), 0826-0826

Sutjipto1,d 1Department of Manufacturing and Materials Engineering, International Islamic University Malaysia 2Department of Mechanical Engineering, Universitas Tarumanagara, Jakarta, Indonesia aeadesta@iium.edu.my, bmutaz_hazaa@yahoo.com, cagusmandelvis@iium.edu.my dagus@iium.edu.my Keywords: Tooling cost, high speed hard turning, Box Behnken Abstract.
Roy, Cost engineering Why, What AND How?
Decision Engineering Report Series.
International Journal of Computer Integrated Manufacturing, Volume 15, Issue (6) (2002). pp. 499 - 510 [3] J.
International Journal Advance Manufacturing Technology. 38: (2008) pp441–446 [6] M.

SHS materials are being used in various fields, including mechanical and chemical engineering, medical and bioscience, aerospace and nuclear industries.
Chu, Fabrication of porous NiTi shape memory alloy for hard tissue implants by combustion synthesis, Materials Science and Engineering, A366.1 (2004) 114-119
Korchagin, The effect of mechanical treatment on the rate and limits of combustion in SHS processes, International journal of self-propagating high-temperature synthesis, 9(3) (2000) 307-320
Mossino, Some aspects in self-propagating high-temperature synthesis, Ceramics International, 30(3) (2004) 311-332
Aboutalebi, Numerical simulation of combustion synthesis of aluminide intermetallic compounds, Iranian Journal of Materials Science & Engineering, 7(2) (2010)

Preparation and selective laser sintering mechanism of polymer-coated Mo powder Bin Liu1,a , Peikang Bai1,b ，Yuxin Li1,c 1College of Material Science and Engineering, North University of China, Taiyuan 030051, China a liubin3y@nuc.edu.cn ,b baipeikang@sohu.com, cliyuxin@nuc.edu.cn Keywords: polymer-coated Mo powder; selective laser sintering; sintering mechanism Abstract.
Scherer, Journal of American Ceramic Society, Vol. 69 (1986), p.206
Froyen, International Journal of Heat and Mass Transfer, Vol. 46 (2003), p.1103
Yadroitsev, Rapid Prototyping Journal, Vol. l0 (2004), p.88
Chinese Journal of High Pressure Physics.

Characterization of nanosize Mn-Zn ferrites coated with citric acid Guixin Wanga, Chunjing Liub, Yumeng Zhang, Huifen Peng, Xin Wangc School of Material Science and Engineering, Hebei University of Technology, Tianjin 300130, China a lucywgx77777@163.com, b liuchunjing85@163.com, c wangxin@hebut.edu.com Keywords: Mn-Zn ferrite; Citric acid; Co-precipitation; Magnetic property Abstract.
Ceramics International, Vol. 37 (2011)p. 995-998 [5].
Journal of Alloys and Compounds, Vol. 497 (2010)p. 9-12 [8].
Bulletin of the Chinese Ceramic Society, Vol. 25 (2006)p. 83-88 [22].
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