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Dissolution concentrations in typical normal workpice materials of PCBN tool material at different temperature are then calculated.
The machining tests were performed on workpiece materials in Table 3-6.
International Journal of Machine Tools and Manufacture 46(5) (2006),p. 482-491
Vleugels, The role of chemical wear in machining iron based materials by PCD and PCBN super-hard tool materials.Diamond and Related Materials, 16(3) (2007),p. 435-445 [7] J.A.
Mathew, On machining of hardened AISI D2 steel with PCBN tools.Journal of Materials Processing Technology 171(2) (2006),p. 244-252

Journal of Mechanical Science and Technology, 31 (2017) 753-758
Materials Science and Engineering: A, 534 (2012) 495-503
Journal of Materials Processing Technology, 164-165 (2005) 832-842
Journal of Materials Processing Technology, 206 (2008) 167-179
Journal of Materials Processing Technology, 191 (2007) 274-278

Even since the 1940s, FRP material has been widely used in many fields, such as aeronautical engineering, ship industry, auto industry, chemical engineering, medical science, mechanical engineering and so on.
FRP bar is a kind of composite materials mixed with fiber and base material.
China Civil Engineering Journal. 2006, 39(3):24-36
Advanced Materials Research. 2011,Vols.255-260:1115-1119
Advanced Materials Research. 2012,Vols.568:57-60

Research on Coal Mining Material Active Perception System based on IOT and Coal Resources Jingzhao Li 1,a, Huimei Deng 1,b 1 School of Computer Science and Engineering, Anhui University of Science and Technology, Huainan,China ajzhli@aust.edu.cn, bdenghuimei@sina.com Keywords: IOT, coal mining, material, active perception Abstract.
On this basis, coal mining material active perception system is designed.
This work is supported by National Nature Science Foundation under Grant (61170060),Anhui Provincial Natural Science Foundation (11040606M135), Anhui Provincial Natural Science Foundation of Universities Key Projects Project Approval (KJ2011A083).
THE 2ND International Conference on Information Engineering and Computer Science, 2010:1944-194 [2] Jingzhao Li Qian Liu.
Journal of Parallel and Distributed Computing, 2011,45(3): 460-470

Effect of biological materials including sucrose and bacteria ratios on the fermentation of goat yogurt He Chena, Guowei Shub, Chuanna Li, Changfeng Wang College of Life Science & Engineering,Shaanxi University of Science & Technology, Xi’an, China achenhe@sust.edu.cn, bshuguowei@gmail.com Keywords: goat yogurt; probiotic; sucrose content; bacteria ratios Abstract.
Effect of biological materials including sucrose concentration and bacteria ratios on fermentation of goat yogurt was studied by measuring acidity, pH and viable counts.
Materials and Methods Microorganism L. bulgaricus and S. thermophilus were obtained from College of Life Science and Engineering, Shaanxi University of Science and Technology.
Journal of Industrial Microbiology & Biotechnology, 20:180-186
Journal of Dairy Science, 2000, 83 (4): 894-907

China azhuguanghong@xust.edu.cn, bd_lyb@126.com Keywords: full stressed harvester, energy harvester, piezoelectric materials Abstract.
Smart Materials and Structures, 2017, 26(4):045011
Journal of Intelligent Material Systems and Structures, 2014:1045389X14546778
Smart Materials and Structures, 2016, 25(7):075026
Journal of Intelligent Material Systems and Structures, 2005, 16(10):835-845

Investigations on Magnetoelectric Composites Based on Terfenol-D & PZT in an Alternating Magnetic Field Conditions KALETA Jerzy1, a *, LEWANDOWSKI Daniel1,b, MECH Rafal1,c and WOZNIAK Karolina1,d 1 Wroclaw University of Technology, Institute of Materials Science and Applied Mechanics, Smoluchowskiego 25, 50-372 Wroclaw, Poland ajerzy.kaleta@pwr.wroc.pl, bdaniel.lewandowski@pwr.wroc.pl, crafal.mech@pwr.wroc.pl, dkarolina.wozniak@pwr.wroc.pl Keywords: giant magnetostriction, Terfenol-D, energy, energy harvesting, SMART materials ABSTRACT.
INTRODUCTION Currently, the research on new materials exhibiting cross effects, coupled by the mechanical and magnetic fields are directed to combine these materials with other materials which exhibit completely different properties.
Most of these new materials are based on polymer matrices.
Polymer-based magnetoelectric (ME) materials are one of the most interesting, challenging and innovative materials and thus these materials are in a field of interest of many research centers.
Revival of the magnetoelectric effect Journal of Physics D: Applied Physics, 2005, 38, R123

For example, hybrid membranes able to combine the properties of different materials are proposed.
Interesting results were achieved also using zeolites [[] Caro J., Noack M., Microporous and Mesoporous Materials, 115, (2008), p.215 ], synthesized by in-situ crystallization on different supports, and with silica doped membranes [[] Xomeritakis G., Tsai C.Y., Jiang Y.B., Brinker C.J., Journal of Membrane Science 341 (2009), p.30 ].
Today, new hybrid membranes able to combine the properties of different materials are proposed.
Koros et al. [[] Zimmerman C.M., Singh A., Koros W.J., Journal of Membrane Science, 137, (1997), p.145 , [] Mahajan R., Koros W.J., Industrial Engineering and Chemistry Research, 39, (2000), p.2692 ] proposed some criteria for material selection and preparation protocols in order to match the necessary transport characteristics of materials to prepare high performance mixed matrix membranes for CO2 capture.
-J, Pinnau I., Guiver M.D., Journal of Membrane Science 314 (2008) p.123 ]) and offer properties mitigated between the two material categories.

Research on the Cement-based Smart Lost-circulation Control Material with Ti-Ni SMA Qi Wang 1, a, Lufei Tian 2,b , Peng Song3,c and Zhen Liu4,d 1 School of Materials Science and Engineering, University of Jinan, Jinan, China 2 School of Materials Science and Engineering, University of Jinan, Jinan, China 3 School of Materials Science and Engineering, University of Jinan, Jinan, China 4 School of Materials Science and Engineering, University of Jinan, Jinan, China a email: mse_wangq@ujn.edu.cn, bemail: fleamy2008@163.com, cemail: mse_songp@ujn.edu.cn, d email: liuzhenmaojindao@163.com Keywords: cement-based material; smart lost-circulation control material; shape memory alloy; shape memory effect; rolling agglomeration.
In recent years, many lost-circulation control materials were came forth, for instance, there are bentonite-based ammonium polyphosphate cementitious lost-circulation control materials[2], expandible lost-circulation materials[3-4], anocomposite gel lost-circulation materials[5] and so on.
[2] T SUGAMA, L E KUKACKA, J B WARREN,et al: Journal of Materials Science Vol.21(1986), p.2159
[6] H B Peng, Y H Wen, B B Ye, et al: Materials Science and Engineering A Vol.504(2009), p.36
[8] C Urbina, S De la Flor, F Ferrando: Materials Science and Engineering A Vol.501(2009), p.197.

Comparison of four Thermo-Mechanical Models for Simulating Reactive Flow in Porous Materials Marcelo J.S. de Lemos 1,a, Maximilian S.
The objective of this paper is to present numerical simulations of combustion of an air/methane mixture in porous materials using a model that considers the intra-pore levels of turbulent kinetic energy.
Science Vol. 34 (2008) p. 667
Saito, M.J.S. de Lemos: Journal of Heat Transfer Vol. 128 (2006), p. 444
[28] XY Zhou, JCF Pereira: Fire and Materials Vol. 22 (1998), p. 187