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Online since: February 2014
Authors: Anita Ramli, Ita Athirah Ahmad
In addition some starting materials are too expensive thus will increase the production cost of the DSC.
Grätzel, Current Opinion in Colloid and Interface Science Vol. 4 (1999), p. 314
Haarer: Journal of Solar Energy Material and Solar Cells Vol. 56 (1999), p. 167
Adschiri: Progress in Crystal Growth and Characterization of Materials Vol. 53(2) (2007), p. 117
Moa, Journal of Nanoscience and Nanotechnology Vol. 6 (2006), p. 906
Grätzel, Current Opinion in Colloid and Interface Science Vol. 4 (1999), p. 314
Haarer: Journal of Solar Energy Material and Solar Cells Vol. 56 (1999), p. 167
Adschiri: Progress in Crystal Growth and Characterization of Materials Vol. 53(2) (2007), p. 117
Moa, Journal of Nanoscience and Nanotechnology Vol. 6 (2006), p. 906
Online since: July 2016
Authors: Chun Lei Wan, Kaleem Ahmad, Hany S. Abdo, Mohammad A. Al-Eshaikh, Ahmed N. Kadachi, Rawaiz Khan
Abdoe
a*Sustainable energy technologies center, College of Engineering, King Saud University
bStateKey Laboratory of New Ceramics and Fine Processing, School of Materials Science and Engineering, Tsinghua University, Beijing 100084, China
cResearch Center, College of Engineering, King Saud University, PO Box 800, Riyadh 11421, Saudi Arabia
eCenter of Excellence for Research in Engineering Materials (CEREM), Advanced Manufacturing Institute, King Saud University, P.O.
There are continued efforts to developemerging functional and structural materials to improve safety of nuclear power reactors.
Qin, et al., "Enhanced thermoelectric figure of merit in p-type Bi0.48Sb1.52Te3 alloy with WSe2 addition," Journal of Materials Chemistry A, vol. 2, pp. 8512-8516, 2014
Khaliq, et al., "Large ZT enhancement in hot forged nanostructured p-type Bi0.5Sb1.5Te3 bulk alloys," Journal of Materials Chemistry A, vol. 2, pp. 5785-5790, 2014
Ioannou, et al., "Seebeck and thermal conductivity analysis in amorphous/crystalline β-K2Bi8Se13 nanocomposite materials," J.
There are continued efforts to developemerging functional and structural materials to improve safety of nuclear power reactors.
Qin, et al., "Enhanced thermoelectric figure of merit in p-type Bi0.48Sb1.52Te3 alloy with WSe2 addition," Journal of Materials Chemistry A, vol. 2, pp. 8512-8516, 2014
Khaliq, et al., "Large ZT enhancement in hot forged nanostructured p-type Bi0.5Sb1.5Te3 bulk alloys," Journal of Materials Chemistry A, vol. 2, pp. 5785-5790, 2014
Ioannou, et al., "Seebeck and thermal conductivity analysis in amorphous/crystalline β-K2Bi8Se13 nanocomposite materials," J.
Online since: March 2014
Authors: Stanislav Seitl, Jan Klusák, Alfonso Canteli, Pelayo Fernández
The thermographic method has been successfully applied to different materials like steels [1,2] and aluminium alloys [5,8,9].
Risitano Thermographic methodology for rapid determination of the fatigue limit of materials and mechanical components, Int.
Journal of Fatigue, (2000) XXII, 65-73
Journal of Fatigue, (1986) VIII, 29-38
Stanzl-Tschegg: Influence of loading frequency on the high cycle fatigue properties of AlZnMgCu1.5 aluminium alloy, Materials Science and Engineering: A, Volume 314, Issues 1–2, 15 (2001) 48–54
Risitano Thermographic methodology for rapid determination of the fatigue limit of materials and mechanical components, Int.
Journal of Fatigue, (2000) XXII, 65-73
Journal of Fatigue, (1986) VIII, 29-38
Stanzl-Tschegg: Influence of loading frequency on the high cycle fatigue properties of AlZnMgCu1.5 aluminium alloy, Materials Science and Engineering: A, Volume 314, Issues 1–2, 15 (2001) 48–54
Online since: September 2014
Authors: Yu Liu, Jun Hua Zhang, Peng Fei Wen, Rui Yang
Journal of Materials Processing Technology 210 (2010), p981–997
Journal of Materials Processing Technology 113 (2001), p654-685
Journal of Materials Processing Technology 130-131 (2002), p42-46
Center for Materials an Engineering Sciences MS 9405.
Journal of Materials Processing Technology 209 (2009), p3688–3695
Journal of Materials Processing Technology 113 (2001), p654-685
Journal of Materials Processing Technology 130-131 (2002), p42-46
Center for Materials an Engineering Sciences MS 9405.
Journal of Materials Processing Technology 209 (2009), p3688–3695
Online since: October 2014
Authors: Ewa Jonda, Krzysztof Labisz, Tomasz Tański, Wojciech Borek, Małgorzata Czaja
Experimental results
It was found that the examined layers for all materials consists of three subzones – the remelted zone (RZ) (Figs. 2, 3), the heat affected zone (HAZ) and the substrate material (SM).
Jonda, Diode laser modification of surface gradient layer properties of a hot work- tool steel, Materials Science Forum 532-533 (2006) 657-660
Cunha, Non-conventional Injection Moulding of a PP/PC-ABS Blend, Trans Tech Publications, Materials Science Forum 514-516, (2006) 858-862
Zaclona, The modelling of high-speed steels' properties using neural networks, Journal of Materials Processing Technology 157 (2004) 245-249
Borek, Microstructure evolution of C-Mn-Si-Al-Nb high-manganese steel during the thermomechanical processing, Materials Science Forum 638 (2010) 3224-3229
Jonda, Diode laser modification of surface gradient layer properties of a hot work- tool steel, Materials Science Forum 532-533 (2006) 657-660
Cunha, Non-conventional Injection Moulding of a PP/PC-ABS Blend, Trans Tech Publications, Materials Science Forum 514-516, (2006) 858-862
Zaclona, The modelling of high-speed steels' properties using neural networks, Journal of Materials Processing Technology 157 (2004) 245-249
Borek, Microstructure evolution of C-Mn-Si-Al-Nb high-manganese steel during the thermomechanical processing, Materials Science Forum 638 (2010) 3224-3229
Online since: January 2013
Authors: Jun Ma, Yan Li
Analysis of Traveling Wave Effect on Half-through CFST Arch Bridge by Large Mass Method
Jun Ma1, a, Yan Li1,b
1 School of Transportation Science and Engineering, Harbin Institute of Technology, Harbin, China
amajunlxd@163.com, bliyan_2007@126.com
Keywords: Traveling wave effect, Large Mass Method, CFST material, Half-through arch bridge, Seismic response
Abstract.
The nonlinear characteristic of material could also be considered so that the results could be closed with the real response.
With this equation, the seismic analysis could take the traveling wave effect and material nonlinear characteristic as considerations.
References [1] Wang Junjie, Wang Qianxin, Jiang Jinren, Random Response of Long-Span Arch Bridge under Spatially Variable Seismic Excitations, Journal of Vibration Engineering, 1995, 8(2): 119-126 [2] Xie Kaizhong, Qin Rong, Lin Haiying, On Methods of Seismic Response Analysis of Long-span CFST Arch Bridge, Journal of Wuhan University of Technology, 2005, 29(5): 700-703 [3] Fan Lichu, Hu Shide and Ye Aijun, Seismic Design of Large Span Brige, China Communication Press, Beijing, 2001: 144-167 [4] Xu Jinhua, Wang Xiangjian, Travelling Wave Seismic Response of Long Span Arch Bridges, Journal of Chongqing Jiaotong Institute, 1998, 17(2): 1-5 [5] Nazmy A S.
Proc. of 11th WCEE, Amsterdam: Elsevier Science Ltd, 1996: 1309-1312 [6] P.
The nonlinear characteristic of material could also be considered so that the results could be closed with the real response.
With this equation, the seismic analysis could take the traveling wave effect and material nonlinear characteristic as considerations.
References [1] Wang Junjie, Wang Qianxin, Jiang Jinren, Random Response of Long-Span Arch Bridge under Spatially Variable Seismic Excitations, Journal of Vibration Engineering, 1995, 8(2): 119-126 [2] Xie Kaizhong, Qin Rong, Lin Haiying, On Methods of Seismic Response Analysis of Long-span CFST Arch Bridge, Journal of Wuhan University of Technology, 2005, 29(5): 700-703 [3] Fan Lichu, Hu Shide and Ye Aijun, Seismic Design of Large Span Brige, China Communication Press, Beijing, 2001: 144-167 [4] Xu Jinhua, Wang Xiangjian, Travelling Wave Seismic Response of Long Span Arch Bridges, Journal of Chongqing Jiaotong Institute, 1998, 17(2): 1-5 [5] Nazmy A S.
Proc. of 11th WCEE, Amsterdam: Elsevier Science Ltd, 1996: 1309-1312 [6] P.
Online since: May 2020
Authors: O.V. Bashkov, A.A. Bryansky, H. Khon, Denis B. Solovev
When compared with the traditional materials, the advantages of composite materials are high strength, stiffness, lightweight, heat resistance, moisture resistance, chemical and corrosion resistance to aggressive environments, low thermal conductivity, and design flexibility.
The problem of monitoring the condition of composite material has become relevant to the development and widely used of composite materials.
Markus Sause, In Situ Monitoring of Fiber-Reinforced Composites, Springer Series in Materials Science 242, Springer, 2016
Solovev, Modelling the propagation of elastic ultrasonic waves in isotropic and anisotropic materials when excited by various sources, Materials Science Forum. 945 (2018) 926-931
Kapralov, Gradient Structure Generated in Hardox 450 Steel with Built-Up Layer, Inorganic Materials: Applied Research. 9(3) (2018) 427-432.
The problem of monitoring the condition of composite material has become relevant to the development and widely used of composite materials.
Markus Sause, In Situ Monitoring of Fiber-Reinforced Composites, Springer Series in Materials Science 242, Springer, 2016
Solovev, Modelling the propagation of elastic ultrasonic waves in isotropic and anisotropic materials when excited by various sources, Materials Science Forum. 945 (2018) 926-931
Kapralov, Gradient Structure Generated in Hardox 450 Steel with Built-Up Layer, Inorganic Materials: Applied Research. 9(3) (2018) 427-432.
Online since: December 2013
Authors: Hyeung Sik Choi, Yun Hae Kim, Han Vin Kim, Sung Won Yoon, Byeong Geun Choi, Jin Woo Lee, Jin Cheol Ha
Composites composed of those materials are commonly classified into layered composite materials, particle-reinforced composite materials, fiber-reinforced composite materials, and other[1].
Fig. 1 Selection of effective progress Materials and Specimen Preparation Theory of Void Formation in Composite Materials.
When voids are formed inside both composites and all materials, stress concentration generated in the materials reduces mechanical strength.
Materials necessary for the test were prepared to identify the effects of void formation inside composite materials according to pressure.
Bouquet, "Void fraction prevision in LCM parts", The european physical journal: applied physics Vol. 16, 2001, pp. 157-164 [7] Shenoi, R.A. and Welicome, J.F., Composite materials in marine structurer volume 1: Fudmental aspect, Cambridge Universit Press.
Fig. 1 Selection of effective progress Materials and Specimen Preparation Theory of Void Formation in Composite Materials.
When voids are formed inside both composites and all materials, stress concentration generated in the materials reduces mechanical strength.
Materials necessary for the test were prepared to identify the effects of void formation inside composite materials according to pressure.
Bouquet, "Void fraction prevision in LCM parts", The european physical journal: applied physics Vol. 16, 2001, pp. 157-164 [7] Shenoi, R.A. and Welicome, J.F., Composite materials in marine structurer volume 1: Fudmental aspect, Cambridge Universit Press.
Online since: January 2014
Authors: Yan Fei Bian, Wei Jie Zhai
This is the mechanism of the material removal in ECMP.
Advanced Materials Research, Vol.314-316 (2011), p.2565 [4] Zhai W.J, Yang Y.Z.
Advanced Materials Research, Vol.239-242 (2011), p.920 [5] Hong Y, Devarapalli V.K, Roy D, and Babu S.V.
Journal of The Electrochemical Society, Vol.154 (2007), p.H444 [6] MATJAZ F, INGRID M.
Corrosion Science, Vol.52 (2010), p.2737
Advanced Materials Research, Vol.314-316 (2011), p.2565 [4] Zhai W.J, Yang Y.Z.
Advanced Materials Research, Vol.239-242 (2011), p.920 [5] Hong Y, Devarapalli V.K, Roy D, and Babu S.V.
Journal of The Electrochemical Society, Vol.154 (2007), p.H444 [6] MATJAZ F, INGRID M.
Corrosion Science, Vol.52 (2010), p.2737
Online since: December 2014
Authors: Marcos Flavio de Campos, José Adilson de Castro
Series: Materials Science and Engineering Vol 1 (2009), p. 012020
[5] M.F. de Campos, J.A. de Castro: Materials Science Forum Vol. 727-728 (2012), p. 146
Kimura: Materials Science Forum Vols. 654-656 (2010), p. 2919
Materials Science and Application.Vol. 2 (2011), p. 1109-1115.
Ferrante: Journal of Materials Synthesis and Processing.
[5] M.F. de Campos, J.A. de Castro: Materials Science Forum Vol. 727-728 (2012), p. 146
Kimura: Materials Science Forum Vols. 654-656 (2010), p. 2919
Materials Science and Application.Vol. 2 (2011), p. 1109-1115.
Ferrante: Journal of Materials Synthesis and Processing.