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Online since: October 2018
Authors: Vladimir A. Irkha, Adnan A.A. Mohamed, S.N. Chebotarev
Introduction
Nanostructured materials are objects of close scientific interest [1-3].
The data obtained for the selected model materials are shown in Figure 1.
For the selected materials, the sputtering coefficient is less than one.
Erimeev, Zone thermal recrystallization of thin layers from a discrete source, ARPN Journal of Engineering and Applied Sciences, 12 (2017) 1453-1457
Arustamyan, Microcrystalline and amorphous photovoltaic silicon materials Performance optimization, Materials Science Forum, 870 (2016) 74-82
The data obtained for the selected model materials are shown in Figure 1.
For the selected materials, the sputtering coefficient is less than one.
Erimeev, Zone thermal recrystallization of thin layers from a discrete source, ARPN Journal of Engineering and Applied Sciences, 12 (2017) 1453-1457
Arustamyan, Microcrystalline and amorphous photovoltaic silicon materials Performance optimization, Materials Science Forum, 870 (2016) 74-82
Online since: June 2015
Authors: Muhd Zu Azhan Yahya, Muhamad Kamil Yaakob, Fadhlul Wafi Badrudin, Oskar Hasdinor Hassan, Abdul Malik Marwan Bin Ali, Mohd Sazwan Affendi Rasiman, M.F.M. Taib
Chemistry of Materials 2013;25:4010–6
Journal of Materials Chemistry 2012;22:24526
Chemistry of Materials 2011;23:293–300
Materials Research Bulletin 1995;30:715–21
Chemistry of Materials 2007;19:3740–7.
Journal of Materials Chemistry 2012;22:24526
Chemistry of Materials 2011;23:293–300
Materials Research Bulletin 1995;30:715–21
Chemistry of Materials 2007;19:3740–7.
Online since: February 2012
Authors: Qiang Wu, Lan Ying Xu, Pei Xin Qu, Yu Zhong Li
Study on chip morphology of Electric Hot Minipore Drilling
Lanying Xu1,a, Qiang Wu1,b, Yuzhong Li1, Peixin Qu2,c
1Numerical Control Technology Key Laboratory of Colleges of Guangdong Province, GuangDong Polytechnic Normal University, Guangzhou 510635, Guangdong ,China
2School of Information & Engineering, Henan Institute of Science and Technology, Xinxiang,453003, Henan, China
axulanying2011@126.com,b510635wuqiang@163.com,cqupeixin@sina.com
Keywords: Electric hot; Drilling; hard-to-cut materials; Chip morphology
Abstract.
This test uses YG6A carbide twist drill of diameter 3mm (Physics and chemistry properties of materials shows in Table 1 ) to the stainless steel plate (composition of materials shows in Table 2) for hole drilling, test parameters are shown in Table 3,on condition of the electric hot drilling and ordinary drilling, chip morphology and chip removal were observed.
Applied Mechanics and Materials Vol.34-35 (2010),p.1605 [2] J.
International Journal of Machine Tools and Manufacture: Vol.45 (2004),p.1413 [3] Shiva Kalidas, Shiv G Kapoor, Richard E DeVor.
Department of Mechanical and Industrial Engineering, University of Illinois at Urbana-Champaign, Urbana, Vol.6 (2001), p.1801 [4] Xu Lan-ying Wu Qiang Hu Xiao-fang Ye Bang-yan Li Yu-zhong Temperature Simulation and Experiment Study on Electric Hot Minipore Drilling,Journal of South China University of Technology:Natural Science Edition: Vol.39(2011), p.95 [5] Shiva Kalidas, Shiv G Kapoor, Richard E DeVor.
This test uses YG6A carbide twist drill of diameter 3mm (Physics and chemistry properties of materials shows in Table 1 ) to the stainless steel plate (composition of materials shows in Table 2) for hole drilling, test parameters are shown in Table 3,on condition of the electric hot drilling and ordinary drilling, chip morphology and chip removal were observed.
Applied Mechanics and Materials Vol.34-35 (2010),p.1605 [2] J.
International Journal of Machine Tools and Manufacture: Vol.45 (2004),p.1413 [3] Shiva Kalidas, Shiv G Kapoor, Richard E DeVor.
Department of Mechanical and Industrial Engineering, University of Illinois at Urbana-Champaign, Urbana, Vol.6 (2001), p.1801 [4] Xu Lan-ying Wu Qiang Hu Xiao-fang Ye Bang-yan Li Yu-zhong Temperature Simulation and Experiment Study on Electric Hot Minipore Drilling,Journal of South China University of Technology:Natural Science Edition: Vol.39(2011), p.95 [5] Shiva Kalidas, Shiv G Kapoor, Richard E DeVor.
Online since: March 2013
Authors: Jia Mei Jin, Fei Wu, Xiao Jian Chen
The concept of ultra-precision machining updates with the development of science and technology constantly.
Grinding Experiment Wearing is the successive removal of surface materials by repeated friction and is mainly caused by microscopic mechanical fracture.
Acknowledgements This study was supported by National Natural Science Foundation of China (Grant No. 91023020, 5117702).
References [1] Yuan Julong, Zhang Feihu, Dai Yifan, et al, Development Research of Science and Technologies in Ultra-precision Machining Field, Journal of Mechanical Engineering, 2010,46(15): 161-176 [2] H.T.
Engg. , 1990, 56(5):800-805 [9] M R Behzadi, B Arezoo, Static and dynamic models for predicting the effects of supports on machining flatness and roughness, Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture, 2002, 216: 735-742 [10] Akinjide Olufemi Oluwajobi, Stanley Chimezie Obi, Xun Chen, Ultraprecision Machining of Inconel 718 with Nanometric Finish, Journal of Materials Science and Engineering,2011,5: 406-410 [11] Jing Xiu-bing, Lin Bin, ZHANG Da-wei.
Grinding Experiment Wearing is the successive removal of surface materials by repeated friction and is mainly caused by microscopic mechanical fracture.
Acknowledgements This study was supported by National Natural Science Foundation of China (Grant No. 91023020, 5117702).
References [1] Yuan Julong, Zhang Feihu, Dai Yifan, et al, Development Research of Science and Technologies in Ultra-precision Machining Field, Journal of Mechanical Engineering, 2010,46(15): 161-176 [2] H.T.
Engg. , 1990, 56(5):800-805 [9] M R Behzadi, B Arezoo, Static and dynamic models for predicting the effects of supports on machining flatness and roughness, Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture, 2002, 216: 735-742 [10] Akinjide Olufemi Oluwajobi, Stanley Chimezie Obi, Xun Chen, Ultraprecision Machining of Inconel 718 with Nanometric Finish, Journal of Materials Science and Engineering,2011,5: 406-410 [11] Jing Xiu-bing, Lin Bin, ZHANG Da-wei.
Synergistic Effect on Formation of Radiation Damage in CLAM Steel Studied by Triple Beam Irradiation
Online since: March 2017
Authors: Long Wei, Xing Zhong Cao, Bao Yi Wang, Yi Can Wu, Yong Nan Zheng, Sheng Yun Zhu, Li Hua Chen, Qiao Li Zhang, Hai Liang Ma, Wei Feng, Ali Wen, Yi Zuo, Ping Fan, Da Qing Yuan, Bao Qun Cui, Wei Sheng Jiang, Qun Ying Huang, Peng Lei, Hai Hong Xia, Jun Chen Liang, Wen Jun Xiong, Xiao Qiang Ma
Lee et al., Journal of Nuclear Materials 271-272 (1999) 385
Wakai et al., Journal of Nuclear Materials 307-311, (2002) 278
Chen, Journal of Nuclear Materials 329 (2004) 268
Huang, Journal of Nuclear Materials 455 (2014) 649
Peng et al., Journal of Nuclear Materials 386-388 (2009) 312
Wakai et al., Journal of Nuclear Materials 307-311, (2002) 278
Chen, Journal of Nuclear Materials 329 (2004) 268
Huang, Journal of Nuclear Materials 455 (2014) 649
Peng et al., Journal of Nuclear Materials 386-388 (2009) 312
Online since: December 2013
Authors: Chao Liu, Fei Wang, Xiao Qi Chen, Hai Jun Zhou, Xiao Lei Zhang, Yan Tao Li
At present, there are a lot of reports about enteric acrylic resin for coating materials.
Experimental Materials.
Coots: International Journal of Pharmaceutics.
Breitkreutz: Journal of Controlled Release.
Zhu: Chemical New Materials.
Experimental Materials.
Coots: International Journal of Pharmaceutics.
Breitkreutz: Journal of Controlled Release.
Zhu: Chemical New Materials.
Online since: November 2013
Authors: Guo Zhong Li, Lin Lin Li
The preparation of fiber-reinforced foaming desulfurization gypsum
LinLin Li, GuoZhong Li a*
Shandong Provincial Key Laboratory of Preparation and Measurement of Building Materials, University of Jinan, Jinan 250022, China
amse_ligz@ujn.edu.cn, *correspondence author
Keywords: gypsum-based foamed composite materials; fibers reinforced; mechanical properties
Abstract.
According to the mixture ratio, quantified all the raw materials precisely.
References [1] Shi Hui-sheng,Guo Xiao-lu and Liu Hong-yan: Journal of Tongji University(Natural Science), (2009), p. 656-659
[4] Zheng Jin-cui, Sun Zhen-ping and Pang Min: Shanghai Building Materials, (2010), p. 54-58
[5] Wu Xiao-qin, Wu Zhong-biao: Chongqing Environmental Science, (2003), p. 192-195.
According to the mixture ratio, quantified all the raw materials precisely.
References [1] Shi Hui-sheng,Guo Xiao-lu and Liu Hong-yan: Journal of Tongji University(Natural Science), (2009), p. 656-659
[4] Zheng Jin-cui, Sun Zhen-ping and Pang Min: Shanghai Building Materials, (2010), p. 54-58
[5] Wu Xiao-qin, Wu Zhong-biao: Chongqing Environmental Science, (2003), p. 192-195.
Online since: August 2021
Authors: Olusola Olaitan Ayeleru, Sisanda Dlova, Peter Apata Olubambi, Feyisayo Victoria Adams, Messai A. Mamo
These are also known as nanocarbon materials [8, 9].
South African Journal of Science, 2011. 107(3-4): p. 01-15
Journal of Materials Chemistry, 2011. 21(40): p. 15872-15884
Materials today, 2013. 16(10): p. 365-373
Journal of Global Scholars of Marketing Science, 2018. 28(2): p. 103-159
South African Journal of Science, 2011. 107(3-4): p. 01-15
Journal of Materials Chemistry, 2011. 21(40): p. 15872-15884
Materials today, 2013. 16(10): p. 365-373
Journal of Global Scholars of Marketing Science, 2018. 28(2): p. 103-159
Online since: December 2016
Authors: Shuji Ogata, Tomoyuki Tamura, Ichiro Takeuchi, Ryo Kobayashi
Development of Neural-Network Interatomic Potentials
for Structural Materials
Ryo KOBAYASHI1,a, Tomoyuki TAMURA1,3,b, Ichiro TAKEUCHI2,3,c
and Shuji OGATA1,d
1Department of Physical Science and Engineering, Gokiso-cho Showa-ku, Nagoya 466-8555, Japan
2Department of Computer Science, Nagoya Institute of Technology, Gokiso-cho, Showa-ku,
Nagoya 466-8555, Japan
3Center for Materials research by Information Integration, National Institute for Materials Science, 1-2-1Sengen, Tsukuba, Ibaraki 305-0047, Japan
akobayashi.ryo@nitech.ac.jp, btamura.tomoyuki@nitech.ac.jp, ctakeuchi.ichiro@nitech.ac.jp, dogata@nitech.ac.jp
Keywords: molecular dynamics, neural-network, interatomic potential
Abstract.
The discussion in this paper is not limited to Si, it can be applicable any structural materials such as metals even for multicomponent alloys.
Acknowledgements This work was supported by the Support Program for Starting up Innovationhub from Japan Science and Technology Agency (JST), Japan.
Albaret, Journal of Physics: Condensed Matter 25, 055801 (2013)
Tsuneyuki, Journal of Physics: Condensed Matter 26, 225402 (2014)
The discussion in this paper is not limited to Si, it can be applicable any structural materials such as metals even for multicomponent alloys.
Acknowledgements This work was supported by the Support Program for Starting up Innovationhub from Japan Science and Technology Agency (JST), Japan.
Albaret, Journal of Physics: Condensed Matter 25, 055801 (2013)
Tsuneyuki, Journal of Physics: Condensed Matter 26, 225402 (2014)
Online since: October 2014
Authors: Yin Pei Wang, Chen Jin, Wang Chen
Journal of Iron and Steel research. 2011,18(S1-2):769-772
Brief Introduction of GB 150.2-2011 Pressure vessels-Part 2:Materials.
[13] GB/T4340.1.Metallic Materials-vickers hardness test, Part1:test method,2009 (National Standard, In Chinese)
[14] GB/T228.1.Metallic materials-Tensile testing, Part1:Method of test at room temperature,2010 (National Standard, In Chinese)
Transactions of Materials and Heat Treatment,2013,34(4):143-147
Brief Introduction of GB 150.2-2011 Pressure vessels-Part 2:Materials.
[13] GB/T4340.1.Metallic Materials-vickers hardness test, Part1:test method,2009 (National Standard, In Chinese)
[14] GB/T228.1.Metallic materials-Tensile testing, Part1:Method of test at room temperature,2010 (National Standard, In Chinese)
Transactions of Materials and Heat Treatment,2013,34(4):143-147