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Copper-based electronic materials prepared by SPS and their properties Zhongquan Guo 1, a, Haoran Geng 2, b and Baochuan Sun 3 1 College of Materials Science and Engineering, Shandong University, Jinan 250061, China 2College of Materials Science and Engineering, Jinan University, Jinan 250022, China 3 Yantai Engineering and Technology College, Yantai 264006, China a guozhongquan@163.com, b mse_genghr@ujn.edu.cn Keywords: SPS, Electrical Contact Composite Materials, Rare Earth Abstract.
Teng References [1] Shao Wenzhu, Chui Yusheng and Yang Dezhuang: Electrical Alloys. vol.1 (1999), p.11(In Chinese) [2] Qian Baoguang, Geng Haoran and Guo Zhongquan: Materials for Mechanical Engineering. vol.3 (2004), p.7(In Chinese) [3] Li Wenxia, Lu Yanping and Guo Shiju: Vacuum Electronics.
Vol. 25-6 (2007), p.420 [6] Xiong Y, Fu Z Y and Wang Y C: Journal of the Chinese Ceramic Society.
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Effect of Pressure on the Gas Atomizer to Fabricate Stainless Steel Metal Powder Sugeng Supriadi1,a,*, Tsaome Indah Susimah2,b, Muhammad Haekal Sena Akbar2,c, Bambang Suharno2,d, Ario Sunar Baskoro1,e, and Dharmanto1,f 1Department of Mechanical Engineering, Faculty of Engineering, Universitas Indonesia, Depok, 16424, Indonesia 2Department of Metallurgical and Materials Engineering, Faculty of Engineering, Universitas Indonesia, Depok, 16424, Indonesia asugeng@eng.ui.ac.id, btsaomeindahs@gmail.com, chaekal.sena@gmail.com dsuharno@metal.ui.ac.id, eario@eng.ui.ac.id, fdharmanto.mesin@gmail.com *Corresponding author: sugeng@eng.ui.ac.id Keywords: Free Fall Gas Atomizer, Metal Injection Molding, Gas Pressure, Powder Metallurgy, Stainless Steel Abstract.
This paper was funded by Grants for The 9 Indexed International Publication Assignments (PIT 9) in 2019.
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Dalian University of Technology, School of Civil Engineering and Hydraulic Resources, Dalian, 116024,China 2.
College of Civil and Safety Engineering of Dalian Jiaotong University，Dalian,116028, China azhaolihua1015@126.com, bchenjy@dlut.edu.cn; cwangsw@djtu.edu.cn Key words: Road engineering; Asphalt mixture; Tensile stress; Fracture morphology Abstract.
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Preparation of Nano Titanium Dioxide using Industrial Raw Material Peixin Zhang1,2,a , Dongyun Zhang1,b , Qi Qiu2,c , Li Jing2,d , Xiangzhong Ren2,e 1 School of Materials Science and Engineering, Xi'an University of Architecture and Technology, Xi'an 710055, P.R.
China 2 School of Chemistry and Chemical Engineering, Shenzhen University, Shenzhen 518060, P.R.
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Ashby, Deformation mechanism maps, the plasticity and creep of metals and ceramics, Pergamon, London, 1982
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Hu, “Additive manufacturing technology in spare parts supply chain: a comparative study.,” International Journal of Production Research, vol. 55, no. 5, pp. 1498-1515, 2017
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Laser-based processes such as Selective Laser Melting (SLM) and Laser Engineered Net Shaping (LENS) are dominating processes while Laminated Object Manufacturing (LOM) has also been used.
But it is not so successful with ceramics, and plastics have limited applicability in high-strength applications resulting into faster growth of AM of metallic materials.
Significant among them are: Selective Laser Sintering/Melting (SLS/M), Laser Engineered Net Shaping (LENS) and its variants, Laminated Object Manufacturing (LOM), Electron Beam Melting (EBM) and Ultrasonic Consolidation (UC).
Laoui: International Journal of Machine Tools and Manufacture Vol. 46 (2006), p. 1459 [3] G.

Sivakumar1,c 1Department of Sciences, Amrita School of Engineering, Coimbatore, Amrita Vishwa Vidyapeetham, India aanjalikkoroth@gmail.com, ba_umamaheswari@cb.amrita.edu, cm_sivakumar@cb.amrita.edu Keywords: TiO2 nanoparticles; Dielectric constant; Photoluminescence; Impedance spectroscopy.
Acknowledgement The authors acknowledge Science and Engineering Research Board (SERB) of the Department of Science and Technology (DST) for funding (Research Grant EMR/2016/001222).
References [1] Davis, B.H., Journal of the American Ceramic Society, 1984. 67(8): p.
[2] Uma Maheswari, A., et al., Ceramics International, 2014. 40(5): p. 6561-6568
[8] Santara, B., et al., Journal of Alloys and Compounds, 2016. 661: p. 331-344

Sultanb aSchool of Chemical Engineering, Engineering Campus, Universiti Sains Malaysia, 14300 Nibong Tebal, Penang, Malaysia bDepartment of Petroleum and Center for Petroleum & Minerals, King Fahd University of Petroleum & Minerals, Dhahran 31261, Saudi Arabia * chlatif@eng.usm.my; Tel.:  +6045941012, fax +6045941013 Keywords: Natural gas, membrane, plasticization, selectivity, permeability, carbon dioxide, methane.
Barrier materials commonly used in gas separation are classified into two types, namely organic (e.g. polymer) and inorganic (ceramic, metals).
Commonly used inorganic membranes include Zeolite, Silica, Carbon Molecular Sieve and Ceramic [24, 33-35].
W., International Journa lof Greenhouse Gas Control 4(2010 ) 739–755
Hagg, International Journal of Hydrogen Energy, 33 (2008) 2379-2388