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Online since: November 2014
Authors: Abdul Malek Abdul Rahman, Karam M. Al-Obaidi, Mazran Ismail
International Journal of Energy & Environment, 2013; 4(1)
Abdul Rahman.A Review of Skylight Glazing Materials in Architectural Designs for a Better Indoor Environment.Modern Applied Science, 2013; 8(1), p68
Glazing materials used in plastic unit skylights.
Glazing Materials for Skylights. (2013).
Alexandria Engineering Journal.in press
Abdul Rahman.A Review of Skylight Glazing Materials in Architectural Designs for a Better Indoor Environment.Modern Applied Science, 2013; 8(1), p68
Glazing materials used in plastic unit skylights.
Glazing Materials for Skylights. (2013).
Alexandria Engineering Journal.in press
Online since: December 2012
Authors: Fathallah Qods, Mojtaba Dehghan, Mahdi Gerdooei
Ashrafizadeh: Journal of Materials ProcessingTechnology Vol. 211 (2011), pp. 1184–90
Gerdooei: Materials Science Forum Vols. 702-703 (2012), pp. 147-50
Tajally: Materials Science and Engineering A Vol. 530 (2011), pp. 63-72
Zheng:Materials Science and Engineering A Vol. 527 (2010), pp. 3073-78
Barnett: journal of materials processing technology Vol. 209 (2009), pp. 1436-44
Gerdooei: Materials Science Forum Vols. 702-703 (2012), pp. 147-50
Tajally: Materials Science and Engineering A Vol. 530 (2011), pp. 63-72
Zheng:Materials Science and Engineering A Vol. 527 (2010), pp. 3073-78
Barnett: journal of materials processing technology Vol. 209 (2009), pp. 1436-44
Online since: May 2013
Authors: Chwei Goong Tseng, Wei Min Chuang, Kan Shan Shih, Ching Tsun Liao
In this study, we constructed both a digital bi-material FEM model and a physical model with similar material parameters.
Schuessler: Journal of Dental Research, Vol. 55(1976), p. 772
Steen: Journal of Oral Rehabilitation, Vol. 20 (1993), p. 147
Eskitascioglu: The Journal of Prosthetic Dentistry, No. 3 Vol 93(2005)
Jiang and K.Shih: Journal of Biomechanical Science and Engineering.
Schuessler: Journal of Dental Research, Vol. 55(1976), p. 772
Steen: Journal of Oral Rehabilitation, Vol. 20 (1993), p. 147
Eskitascioglu: The Journal of Prosthetic Dentistry, No. 3 Vol 93(2005)
Jiang and K.Shih: Journal of Biomechanical Science and Engineering.
Online since: November 2012
Authors: Pedro Vilaça, Catarina Vidal, Virgínia Infante
Krishnamurthy, Friction stir channeling: Characterization of the channels, Journal of Materials Processing Technology 209 (2009) 3696–3704
Krishnamurthy, Process forces during friction stir channeling in an aluminum alloy, Journal of Materials Processing Technology 211 (2011) 305 311
Materials Science and Engineering: A; 445-446, pp.501-508.
[6] ISO 6507-1, Mettalic materials – Vickers hardness test – Part 1: Test Method, 1997
Colligan, Material flow behaviour during friction stir welding, welding Journal 78 (1999) 229 237.
Krishnamurthy, Process forces during friction stir channeling in an aluminum alloy, Journal of Materials Processing Technology 211 (2011) 305 311
Materials Science and Engineering: A; 445-446, pp.501-508.
[6] ISO 6507-1, Mettalic materials – Vickers hardness test – Part 1: Test Method, 1997
Colligan, Material flow behaviour during friction stir welding, welding Journal 78 (1999) 229 237.
Online since: November 2010
Authors: Jian Bo Lei, Zhen Wang, Juan Chen, Yun Shan Wang
Based Plank’s radiation law, thermal radiation intensity depends on radiation wavelength and material temperature.
Dai: Journal of China Jiliang University Vol. 17 (2006), p. 95
Sønnik: International Journal of Thermophysics Vol. 28 (2007), p. 2145
Tsa: International Journal of Thermophysics Vol. 30 (2009), p. 98
Yuan: International Journal of Thermophysics Vol. 30(2009), p. 220
Dai: Journal of China Jiliang University Vol. 17 (2006), p. 95
Sønnik: International Journal of Thermophysics Vol. 28 (2007), p. 2145
Tsa: International Journal of Thermophysics Vol. 30 (2009), p. 98
Yuan: International Journal of Thermophysics Vol. 30(2009), p. 220
Online since: August 2019
Authors: Kamrun N. Keya, Nasrin A. Kona, Ruhul Amin Khan
International Journal of Textile Science, 1(6), 84-93
Damodaran (1987), Impact properties of natural fibre composites, Journal of Materials Science Letters, 6(8), 882–884
[35] Dipa, R., Sarkar, B.K., Rana, A.K., and Bose, N.R. (2001), Effect of alkali treated jute fibres on composite properties, Bulletin of Materials Science, 24(2), 129-135
Materials & Design, 27 (5), 391-396
Materials Today: Proceedings, 4(2), 2893–2902
Damodaran (1987), Impact properties of natural fibre composites, Journal of Materials Science Letters, 6(8), 882–884
[35] Dipa, R., Sarkar, B.K., Rana, A.K., and Bose, N.R. (2001), Effect of alkali treated jute fibres on composite properties, Bulletin of Materials Science, 24(2), 129-135
Materials & Design, 27 (5), 391-396
Materials Today: Proceedings, 4(2), 2893–2902
Online since: August 2011
Authors: Yan Ling Bao, Guang Ze Dai, Xing Min Huang, Jing Han, Jun Wen Zhao
PAN-CF (Commercial T300) was chosen to be carrier materials.
Wang: Journal of Environmental Sciences Vol. 19 (2007), p. 1281
Lee: Journal of colloid and interface science Vol. 230 (2000), p. 84
Li: Journal of Applied Polymer Science Vol. 112 (2009), p. 2413
Wang: Journal of Environmental Sciences Vol. 20 (2008), p. 142
Wang: Journal of Environmental Sciences Vol. 19 (2007), p. 1281
Lee: Journal of colloid and interface science Vol. 230 (2000), p. 84
Li: Journal of Applied Polymer Science Vol. 112 (2009), p. 2413
Wang: Journal of Environmental Sciences Vol. 20 (2008), p. 142
Online since: October 2010
Authors: Wen Xian Li, Fang Xin Yu, Qiang Chen, Dun Qiang Tan
Study on high-density-copper grain-refining Cu-W Composites
Dunqiang Tan1,a, Qiang Chen1,b, Fangxin Yu1,cand Wenxian Li2,d
1School of Material Science and Engineering, Nanchang University,
Nanchang Jiangxi, 330031, China
2School of Materials Science and Engineering, Central South University,
Changsha,Hunan, 410083, China
acntdunqiang@yahoo.com.cn, bbaixkj-2008@163.com, cyfx11@263.net, dvictor2008@126.com
Keywords: high-density-copper Cu-W, Co-reduction, sintering temperature, compacting pressure
Abstract.
The enhancement of capillary force did good for particle rearrangement which led to form compact materials [23].
References [1] Zhixiang Li, Xiaoqing Yang: Materials of Engineering, Vol. 8, issue 32, 53-55, 2005, In Chinese [2] Wei Chen, Yonggeng Kuang, Wuping Zhou: Rare Metal Materials and Engineering, Vol.33, issue l, 11-14, 2004, In Chinese [3] Yunping Li, Xianhui Qu, Behua Duan: Cemented Carbide, Vol.18, issue 4, 232-236, 2001, In Chinese [4] Bregel T, Krauss-Vogt W, Michal R, et al: IEEE Transactions on Components Hybrids and Manufacturing Technology, Vol.14, issue1, 8-13,1991 [5] Donaldson A L, Kristiansen M: 7th IEEE ,Pulsed Power Conference, 83-86, 1989 [6] Soffa W A, Laughlin D E: Program In Material Science, Vol.49, 347-366, 2004 [7] Kim D G, Kim G S, Oh S T, et al: Materials Letters, Vol.58, 57-58, 2004 [8] Yang B, German R M: International Journal of Powder Metallurgy, Vol.33, issue 4, 55-61, 1997 [9] Zheng Li: Foreign Weapon News, issue 6, 15-16, 2000 [10] Held.
M: Journal of Battle field Technology, Vol.4, issue 3, p1, 2001 [11] Doig A: Journal of Battle field Technology, Vol.1, issue1, p1, 1998 [12] Quanxiao Zhang, Yun Gao, Wanming Jia, et al: Ordnance Material Science And Engineering, Vol.23, issue 3, 44-50, 2000 , In Chinese [13] Moom I H, Kim E P, Petzo W G: Intenrational Jounral of Powder Metallurgy Vol.41, issue l, 51-57, 1998 [14] Zhongwu Hu, Zhongkui Li, Tingjie Zhang, et al: Rare metal materials and engineering, Vol.10, issue 33, 1009-1012, 2004, In Chinese [15] Keqiang Mu, Kedian Xu, Anbang Wei et al: Journal of iron and steel research, Vol.7, issue 5, 89-91, 1995 [16] Yonggeng Kuang, Keqiang Mo, Guilan Xu, et al: Rare Metal Materials and Engineering ,Vol.26, issue 5, 30-34, 1997, In Chinese [17] Wuping Zhou, Daming Lu: Materials Science and engineering of Powder Metallurgy, Vol.10, issue 1, 21-25, 2005, In Chinese [18] Wenge Chen, Bingjun Ding: Powder Metallurgy Industry, Vol.11, issue 3, 45-50, 2001, In Chinese [19] Yingqi
Tao, Zuping Wang, Ningxiang Fang, et al: Powder Metallurgy Technology, Vol.20, issue 1,49-51,2002, In Chinese [20] Sebastian K V, Tendolker G S: International Journal Powder Metal and Powder Technology, issue1, 45-53, 1979 [21] Lee J S, Kim T H: Nanostructured Materials, issue 6, 691-694, 1995 [22] Shunhua Cao, Xiping Lin, Jiongyi Li: The Chinese Journal of Nonferrous Metals, Vol.15, issue 2, 248-253, 2005, In Chinese [23] Dongdong Gu, Yifu Shen: Acta Metallurgica Sinica, Vol.45, issue1, 113-118, 2009 [24] Johnson J L, Brezovsky J J, German R M: Metallurgical and Materials Transactions A, Vol.36, issue 6, 1557-1565, 2005 [25] Johnson J L, Brezovsky J J, German R M: Metallurgical and Materials Transactions A, Vol.36, issue 10, 2807-2814, 2005
The enhancement of capillary force did good for particle rearrangement which led to form compact materials [23].
References [1] Zhixiang Li, Xiaoqing Yang: Materials of Engineering, Vol. 8, issue 32, 53-55, 2005, In Chinese [2] Wei Chen, Yonggeng Kuang, Wuping Zhou: Rare Metal Materials and Engineering, Vol.33, issue l, 11-14, 2004, In Chinese [3] Yunping Li, Xianhui Qu, Behua Duan: Cemented Carbide, Vol.18, issue 4, 232-236, 2001, In Chinese [4] Bregel T, Krauss-Vogt W, Michal R, et al: IEEE Transactions on Components Hybrids and Manufacturing Technology, Vol.14, issue1, 8-13,1991 [5] Donaldson A L, Kristiansen M: 7th IEEE ,Pulsed Power Conference, 83-86, 1989 [6] Soffa W A, Laughlin D E: Program In Material Science, Vol.49, 347-366, 2004 [7] Kim D G, Kim G S, Oh S T, et al: Materials Letters, Vol.58, 57-58, 2004 [8] Yang B, German R M: International Journal of Powder Metallurgy, Vol.33, issue 4, 55-61, 1997 [9] Zheng Li: Foreign Weapon News, issue 6, 15-16, 2000 [10] Held.
M: Journal of Battle field Technology, Vol.4, issue 3, p1, 2001 [11] Doig A: Journal of Battle field Technology, Vol.1, issue1, p1, 1998 [12] Quanxiao Zhang, Yun Gao, Wanming Jia, et al: Ordnance Material Science And Engineering, Vol.23, issue 3, 44-50, 2000 , In Chinese [13] Moom I H, Kim E P, Petzo W G: Intenrational Jounral of Powder Metallurgy Vol.41, issue l, 51-57, 1998 [14] Zhongwu Hu, Zhongkui Li, Tingjie Zhang, et al: Rare metal materials and engineering, Vol.10, issue 33, 1009-1012, 2004, In Chinese [15] Keqiang Mu, Kedian Xu, Anbang Wei et al: Journal of iron and steel research, Vol.7, issue 5, 89-91, 1995 [16] Yonggeng Kuang, Keqiang Mo, Guilan Xu, et al: Rare Metal Materials and Engineering ,Vol.26, issue 5, 30-34, 1997, In Chinese [17] Wuping Zhou, Daming Lu: Materials Science and engineering of Powder Metallurgy, Vol.10, issue 1, 21-25, 2005, In Chinese [18] Wenge Chen, Bingjun Ding: Powder Metallurgy Industry, Vol.11, issue 3, 45-50, 2001, In Chinese [19] Yingqi
Tao, Zuping Wang, Ningxiang Fang, et al: Powder Metallurgy Technology, Vol.20, issue 1,49-51,2002, In Chinese [20] Sebastian K V, Tendolker G S: International Journal Powder Metal and Powder Technology, issue1, 45-53, 1979 [21] Lee J S, Kim T H: Nanostructured Materials, issue 6, 691-694, 1995 [22] Shunhua Cao, Xiping Lin, Jiongyi Li: The Chinese Journal of Nonferrous Metals, Vol.15, issue 2, 248-253, 2005, In Chinese [23] Dongdong Gu, Yifu Shen: Acta Metallurgica Sinica, Vol.45, issue1, 113-118, 2009 [24] Johnson J L, Brezovsky J J, German R M: Metallurgical and Materials Transactions A, Vol.36, issue 6, 1557-1565, 2005 [25] Johnson J L, Brezovsky J J, German R M: Metallurgical and Materials Transactions A, Vol.36, issue 10, 2807-2814, 2005
Online since: March 2012
Authors: Mohamed Yusof Alias, Ahmad Humaizi Hilmi, Ariffin Ismail, Zi Jun Zhao, Shohaimi Abdullah, Norazman Mohamad Nor
Two materials are chosen to cut; stainless steel 304 and aluminum 1100.
Dome radius 6 r Next step is to simulate cutting metal plates. 2 materials are chosen; aluminum 1100 and stainless steel 304.
Karpuschewski: Journals of Materials Processing Technology 149 (2004), p. 30-36 [4] Hoogstrate, T.
[6] Hameda Niroumand and Khairul Anuar Kassim: International Journal of the Physical Sciences Vol. 6(7), 4 April, 2011, p. 1583-1590 [7] Pritchard, D.J.
Guilbert: Journal of Loss Prevention Process Industries Vol 9.
Dome radius 6 r Next step is to simulate cutting metal plates. 2 materials are chosen; aluminum 1100 and stainless steel 304.
Karpuschewski: Journals of Materials Processing Technology 149 (2004), p. 30-36 [4] Hoogstrate, T.
[6] Hameda Niroumand and Khairul Anuar Kassim: International Journal of the Physical Sciences Vol. 6(7), 4 April, 2011, p. 1583-1590 [7] Pritchard, D.J.
Guilbert: Journal of Loss Prevention Process Industries Vol 9.