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Online since: May 2013
Authors: Chun Yu Zhang, Xian Shuai Chen
With the development of science and technology, more materials can be chose in making dental implant.
[12] J C WATAHA.Materials for end osseous dental implant.
Selective laser melting of iron-based powd -er Journal of Materials Processing Technology, 2004, 149: 616-622
Journal of Materials Processing Technology, 2000, 106(1-3): 191~198
Journal of Materials Processing Technology, 2001, 110(1): 98~103
[12] J C WATAHA.Materials for end osseous dental implant.
Selective laser melting of iron-based powd -er Journal of Materials Processing Technology, 2004, 149: 616-622
Journal of Materials Processing Technology, 2000, 106(1-3): 191~198
Journal of Materials Processing Technology, 2001, 110(1): 98~103
Online since: October 2010
Authors: Miao Zhang, Rui Jiang, Ning Bo Liao
Madenci: Journal of Materials Science and Engineering: A Vol. 421 (2006), p. 57
[4] B.
Zhang: Journal of Materials Science and Technology Vol. 20 (2004), p. 644 [6] S.V.
Ye: Journal of Materials Science and Technology 19 (2003), p. 540 [11] L.M.
Ye: Materials Science Forum Vol. 475-479 (2005), p. 4251 [12] M.
Tadmor: Journal of Computer-Aided Materials Design Vol. 9 (2002), p. 203 [30] E.B.
Zhang: Journal of Materials Science and Technology Vol. 20 (2004), p. 644 [6] S.V.
Ye: Journal of Materials Science and Technology 19 (2003), p. 540 [11] L.M.
Ye: Materials Science Forum Vol. 475-479 (2005), p. 4251 [12] M.
Tadmor: Journal of Computer-Aided Materials Design Vol. 9 (2002), p. 203 [30] E.B.
Online since: August 2014
Authors: Zhao Wu Shen, Hong Hao Ma, Yong Yu, Li Jie Ren, Bing Xue
Study on Ball Milling of TiH2 and Application in Energetic Materials
Bing Xue1*, Honghao Ma1, Zhaowu Shen1, Yong Yu1, Lijie Ren1
1Department of Modern Mechanics, University of Science and Technology of China, Hefei, Anhui, 230027, China
* xuebustc@mail.ustc.edu.cn
Keywords: Titanium hydride (TiH2); Ball milling; Energetic materials; Particle size
Abstract.
Another purpose of the research is introducing TiH2 into the energetic materials.
High Energy Ball Mill Raw materials of the TiH2 was commercial accessible.
Baburaj and M.Miranova, et al.: Materials Science and Engineering Vol. 356 (2003), p. 190-199
Prashanth,: Materials and Manufacturing Processes Vol. 25-9 (2010), p. 974-977
Another purpose of the research is introducing TiH2 into the energetic materials.
High Energy Ball Mill Raw materials of the TiH2 was commercial accessible.
Baburaj and M.Miranova, et al.: Materials Science and Engineering Vol. 356 (2003), p. 190-199
Prashanth,: Materials and Manufacturing Processes Vol. 25-9 (2010), p. 974-977
Online since: May 2013
Authors: Shui Lin Zheng, Jun Mao, Yu Zhong Zhang, Yan Ping Bai, Yue Liu
Experimental
Materials.
Loaded Composite Phase Change Materials prepared.
Zhang: Energy Storage: Theory and Application (China science and technology university press, China1996, p.9~12) (In Chinese) [2] A.Y Chen, X.Z Cao, X.Y: Material Science, Vol. 17 (2003) No.5, p.42~44 (In Chinese) [3] Krupa I, Mikova G, Luyt A S: European Polymer Journal, (2007) No.43, p.4965~4705 [4] X.
(In Chinese) [12] L.X Wang, J.F Shu, L Ren: Polymer Material Science and Technology, Vol. 21 (2005), No.1, p.276~279.
Shu: Journal of Chinese Ceramics Society, Vol. 34 (2006) No.11, p.1382-1386 (In Chinese) [19] Y.Z Sun, G.X Xi, W.J Yang: New Chemical Materials, Vol. 38 (2010) No.4 p.46~48 (In Chinese)
Loaded Composite Phase Change Materials prepared.
Zhang: Energy Storage: Theory and Application (China science and technology university press, China1996, p.9~12) (In Chinese) [2] A.Y Chen, X.Z Cao, X.Y: Material Science, Vol. 17 (2003) No.5, p.42~44 (In Chinese) [3] Krupa I, Mikova G, Luyt A S: European Polymer Journal, (2007) No.43, p.4965~4705 [4] X.
(In Chinese) [12] L.X Wang, J.F Shu, L Ren: Polymer Material Science and Technology, Vol. 21 (2005), No.1, p.276~279.
Shu: Journal of Chinese Ceramics Society, Vol. 34 (2006) No.11, p.1382-1386 (In Chinese) [19] Y.Z Sun, G.X Xi, W.J Yang: New Chemical Materials, Vol. 38 (2010) No.4 p.46~48 (In Chinese)
Online since: May 2014
Authors: Joseph W. Newkirk, F. Frank Liou
High Performance Materials by Laser Deposition
Joseph W.
Bishop Ave., Missouri University of Science and Technology, Rolla, MO, U.S.A: 65409- 0330 2292B Toomey Hall, 400 W. 13th St., Missouri University of Science & Technology, Rolla, MO 65409-0050 ajnewkirk@mst.edu, bliou@mst.edu Keywords: Advanced materials, Rapid solidification, Additive manufacturing, Laser deposition.
Hofmann, Journal of Materials, vol. 2013, Article ID 517904, 2013
Chinese Journal of lasers 2005,32(4):567-570
Bhaduri, Progress in Materials Science, Vol 57 Part 5, pp. 911-946, 2012
Bishop Ave., Missouri University of Science and Technology, Rolla, MO, U.S.A: 65409- 0330 2292B Toomey Hall, 400 W. 13th St., Missouri University of Science & Technology, Rolla, MO 65409-0050 ajnewkirk@mst.edu, bliou@mst.edu Keywords: Advanced materials, Rapid solidification, Additive manufacturing, Laser deposition.
Hofmann, Journal of Materials, vol. 2013, Article ID 517904, 2013
Chinese Journal of lasers 2005,32(4):567-570
Bhaduri, Progress in Materials Science, Vol 57 Part 5, pp. 911-946, 2012
Online since: January 2011
Authors: Chun Ping Ouyang, Chang Jun Hu, Zhen Yu Liu, Yang Li
A semantic connection between materials science data and engineering data should be setup as well.
There exist some studies on materials science ontology in the last few years.
Data Science Journal, Vol. 5 (2006): p. 52-63
Data Science Journal, Vol. 7 (2010): p. 54-61
Data Science Journal, Vol. 8 (2009): p. 52-61.
There exist some studies on materials science ontology in the last few years.
Data Science Journal, Vol. 5 (2006): p. 52-63
Data Science Journal, Vol. 7 (2010): p. 54-61
Data Science Journal, Vol. 8 (2009): p. 52-61.
Online since: August 2023
Authors: Vladimir Lebedev, Tetyana Tykhomyrova, Anna Cherkashina, Katerina Lebedeva
Alvarez, J.G Hardy., M.F Desimone, Stimuli-responsive materials for tissue engineering and drug delivery, International Journal of Molecular Sciences. 21 (2020) 4724
Detsch, Biofabrication of vessel-like structures with alginate di-aldehyde-gelatin (ADA-GEL) bioink, Journal of Materials Science: Materials in Medicine. 30 (2019) 8
Boccaccini, A review of hydrogel-based composites for biomedical applications: Enhancement of hydrogel properties by addition of rigid inorganic fillers, Journal of Materials Science. 51 (2016) 271–310
Saimbetova, Design and Research of Eco-Friendly Polymer Composites, Materials Science Forum. 1006 (2020) 259–266
Lytvynenko, Sorption Resistance Studying of Environmentally Friendly Polymeric Materials in Different Liquid Mediums, Materials Science Forum. 1038 (2021) 168–174
Detsch, Biofabrication of vessel-like structures with alginate di-aldehyde-gelatin (ADA-GEL) bioink, Journal of Materials Science: Materials in Medicine. 30 (2019) 8
Boccaccini, A review of hydrogel-based composites for biomedical applications: Enhancement of hydrogel properties by addition of rigid inorganic fillers, Journal of Materials Science. 51 (2016) 271–310
Saimbetova, Design and Research of Eco-Friendly Polymer Composites, Materials Science Forum. 1006 (2020) 259–266
Lytvynenko, Sorption Resistance Studying of Environmentally Friendly Polymeric Materials in Different Liquid Mediums, Materials Science Forum. 1038 (2021) 168–174
Online since: October 2011
Authors: Hai Chao Cai, Dong Feng Wang, Qiao Yu Xu, Zhen Dong Shang
The Acoustic Emission Diagnose and Analysis of Journal Bearing‘s Inner Ring Looseness Fault by Truck Wheel
Cai,Haichao1,a; Wang,Dongfeng2,b;Xu,Qiaoyu1,c;Shang,Zhendong1,d
1 School of Electromechanical Engineering,Henan University of Science and Technology,Luoyang,Henan,471003,china
2 Science and Technology Department , Bearing Institute of LuoYang , LuoYang, HeNan ,471003,china
achclovely99@163.com,bwangdongfeng2006@163.com,cxiaoyu0622@163.com dcnlyszd@163.com
Keywords: Rolling bearing; Fault diagnose; Looseness; Wavelet packet analysis
Abstract: In this paper, we combine the characteristics of acoustic emission detection with the present condition of truck rolling bearing’s fault detection ,adopting the acoustic emission technique to examine railway freight car ’s journal bearing inner ring looseness .We put forward the method which wavelet packet analyze and withdraw bearing acoustic emission signal’s feature vector.
Acoustic emission technique is a dynamic detection method, which can get materials’ important information,fatigue crack propagation,under the dynamic loading conditions.
The bearing inner ring’s looseness is not bearings’ internal defects, but has the relation to the metal wearing between bearing inner ring and bearing journal[1]. in this paper, we adopt the acoustic emission technology to make a preliminary research and analysis of the bearing inner ring’s loose defect.
In the process of wearing, through the materials ’structure and phase change, the acoustic emission cooperates with superficial impact’s micro-process, rub belt’s damage, the expanding micro-cracks and wear debris’s transfer in the superficial layer.
Acknowledgements This work was financially supported by Henan Province Science and Technology Agency as Key project(0223025200) References [1] Gerald B.
Acoustic emission technique is a dynamic detection method, which can get materials’ important information,fatigue crack propagation,under the dynamic loading conditions.
The bearing inner ring’s looseness is not bearings’ internal defects, but has the relation to the metal wearing between bearing inner ring and bearing journal[1]. in this paper, we adopt the acoustic emission technology to make a preliminary research and analysis of the bearing inner ring’s loose defect.
In the process of wearing, through the materials ’structure and phase change, the acoustic emission cooperates with superficial impact’s micro-process, rub belt’s damage, the expanding micro-cracks and wear debris’s transfer in the superficial layer.
Acknowledgements This work was financially supported by Henan Province Science and Technology Agency as Key project(0223025200) References [1] Gerald B.
Online since: February 2022
Authors: Aleksei A. Orlov, Svetlana V. Skvortsova, Alyona V. Neiman, Dmitriy O. Sopelnik
Narayan, Biomedical materials: Springer, 2009
Davis, Handbook of materials for medical devices: ASM international, 2003
Gogia, "Ti based biomaterials, the ultimate choice for orthopaedic implants–A review," Progress in Materials Science, vol. 54, pp. 397-425, 2009
Rack, "Titanium alloys in total joint replacement—a materials science perspective," Biomaterials, vol. 19, pp. 1621-1639, 1998
Key Engineering Materials Vol. 887, pp 358-363, 2021
Davis, Handbook of materials for medical devices: ASM international, 2003
Gogia, "Ti based biomaterials, the ultimate choice for orthopaedic implants–A review," Progress in Materials Science, vol. 54, pp. 397-425, 2009
Rack, "Titanium alloys in total joint replacement—a materials science perspective," Biomaterials, vol. 19, pp. 1621-1639, 1998
Key Engineering Materials Vol. 887, pp 358-363, 2021
Online since: May 2016
Authors: Jean Njoroge, Arnab Chakrabarty, Tahir Çağın
Shockwave Response of Polymer and Polymer Nanocomposites
Jean Njoroge1,b, Arnab Chakrabarty2,c and Tahir Cagin1,2,a
1Department of Materials Science and Engineering, Texas A&M University, College Station, Texas, 77843-3003, USA
2Department of Chemical Engineering, Texas A&M University, College Station, Texas, 77843-3022, USA
atcagin@tamu.edu, bjnjoroge@tamus.edu, carnabc@gmail.com, cbedri.arman@chemail.tamu.edu
Keywords: computational materials science, nanocomposites, dynamic response, shock waves, graphene, polyurathene
Abstract.
[3] Meyers, M.A., Dynamic Behavior of Materials. 1994, New York: John Wiley
[6] Kasparek, E., et al., Computational Materials Science, 2011. 50(4): p. 1353-1358
[15] Veca, L.M., et al., Advanced Materials, 2009. 21(20): p. 2088-2092
[17] Grujicic, M., et al., Materials Science and Engineering: A, 2011. 528(10-11): p. 3799-3808
[3] Meyers, M.A., Dynamic Behavior of Materials. 1994, New York: John Wiley
[6] Kasparek, E., et al., Computational Materials Science, 2011. 50(4): p. 1353-1358
[15] Veca, L.M., et al., Advanced Materials, 2009. 21(20): p. 2088-2092
[17] Grujicic, M., et al., Materials Science and Engineering: A, 2011. 528(10-11): p. 3799-3808