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Online since: June 2014
Authors: Heng An Ou, Yan Wang, Chang Rong Chen
Tusek, "Thermal stresses in aluminium alloy die casting dies," Computational Materials Science, vol. 43, pp. 1147-1154, 2008
Taliat, "Thermal fatigue of materials for die-casting tooling," Materials Science and Engineering a-Structural Materials Properties Microstructure and Processing, vol. 472, pp. 198-207, 2008
Dai, "Effects of striated laser tracks on thermal fatigue resistance of cast iron samples with biomimetic non-smooth surface," Materials & Design, vol. 32, pp. 796-802, 2011
Persson, "Strain-based approach to crack growth and thermal fatigue life of hot work tool steels," Scandinavian Journal of Metallurgy, vol. 33, pp. 53-64, 2004
Bergstrom, "Simulation and evaluation of thermal fatigue cracking of hot work tool steels," International Journal of Fatigue, vol. 26, pp. 1095-1107, 2004
Taliat, "Thermal fatigue of materials for die-casting tooling," Materials Science and Engineering a-Structural Materials Properties Microstructure and Processing, vol. 472, pp. 198-207, 2008
Dai, "Effects of striated laser tracks on thermal fatigue resistance of cast iron samples with biomimetic non-smooth surface," Materials & Design, vol. 32, pp. 796-802, 2011
Persson, "Strain-based approach to crack growth and thermal fatigue life of hot work tool steels," Scandinavian Journal of Metallurgy, vol. 33, pp. 53-64, 2004
Bergstrom, "Simulation and evaluation of thermal fatigue cracking of hot work tool steels," International Journal of Fatigue, vol. 26, pp. 1095-1107, 2004
High-Energy-Density TiO2-Coated LiNi0.9Mn0.05Co0.05O2 (NMC 955) as Cathode for Lithium-Ion Batteries
Online since: October 2025
Authors: Salamulloh Abdul Hadi, Lukman Noerochim, Diah Susanti
Materials characterization
Materials characterization for TiO2-coated NMC 955 cathode lithium-ion batteries involves various techniques and methods to assess the properties and performance of the cathode materials used in these batteries.
XRD pattern of TiO2-coated NMC 955 materials.
Fast Charging of Lithium-Ion Batteries: A Review of Materials Aspects.
Recent progress in cathode materials research for advanced lithium ion batteries.
Materials Science and Engineering R: Reports, 73(5–6), 51–65. https://doi.org/10.1016/j.mser.2012.05.003 [4] Guan, P., Zhou, L., Yu, Z., Sun, Y., Liu, Y., Wu, F., Jiang, Y., & Chu, D. (2020).
XRD pattern of TiO2-coated NMC 955 materials.
Fast Charging of Lithium-Ion Batteries: A Review of Materials Aspects.
Recent progress in cathode materials research for advanced lithium ion batteries.
Materials Science and Engineering R: Reports, 73(5–6), 51–65. https://doi.org/10.1016/j.mser.2012.05.003 [4] Guan, P., Zhou, L., Yu, Z., Sun, Y., Liu, Y., Wu, F., Jiang, Y., & Chu, D. (2020).
Online since: April 2021
Authors: Risdiana Risdiana, Nowo Riveli
Watanabe, μSR Study with Light Irradiation of P3HT:ZnO Nanoparticles as Active Material of Hybrid Solar Cells”, Materials Science Forum 966, 404-408 (2019)
Watanabe, "Study of Charge Carrier Dynamics of P3HT:PCBM Blend for Active Material Solar Cell Using Muon Spin Relaxation", Materials Science Forum 827, 168 (2015)
Watanabe, "mSR Study of Charge Motion in Active Layer P3HT:ZnO:PCBM Hybrid Solar Cells", Materials Science Forum 827, 131 (2015)
Watanabe, Charge carrier dynamics of active material solar cell P3HT:ZnO nanoparticles studied by muon spin relaxation (µSR), Advanced Materials Research 896, 477 (2014)
Saragi and Risdiana, Study on the Diffusion Rate of the Charge Carrier Transport in Regio-Random P3HT, Materials Science Forum 966, 471-475 (2019).
Watanabe, "Study of Charge Carrier Dynamics of P3HT:PCBM Blend for Active Material Solar Cell Using Muon Spin Relaxation", Materials Science Forum 827, 168 (2015)
Watanabe, "mSR Study of Charge Motion in Active Layer P3HT:ZnO:PCBM Hybrid Solar Cells", Materials Science Forum 827, 131 (2015)
Watanabe, Charge carrier dynamics of active material solar cell P3HT:ZnO nanoparticles studied by muon spin relaxation (µSR), Advanced Materials Research 896, 477 (2014)
Saragi and Risdiana, Study on the Diffusion Rate of the Charge Carrier Transport in Regio-Random P3HT, Materials Science Forum 966, 471-475 (2019).
Online since: November 2011
Authors: Guo Qing Zhang, Zhou Li, Wen Yong Xu
Low cycle fatigue behavior of spray formed superalloy rings
Wenyong Xua, Guoqing Zhangb and Zhou Lic
Science and Technology on Advanced High Temperature Structural Materials Laboratory, Beijing Institute of Aeronautical Materials (BIAM), Beijing 100095, China
axwybiam@126.com, bg.zhang@126.com, clibiam@126.com
Keywords: sprayforming; superalloy; GH738; low cycle fatigue
Abstract.
Experiment The materials studied in the present investigation are the nickel-base superalloy GH738, whose nominal composition is (in wt%):Cr 19.6, Mo 4.3, Co 13.5, Ti 3.1, Al 1.5, B 0.008, and bal.
References [1] D.S.Wei, X.G.Yang: International Journal of Pressure Vessels and Piping Vol.86 (2009), p.616
[2] N.Muhammad: Journal of Engineering for Gas Turbines and Power Vol.131 (2009), p525 [3] K.Gopinath, A.K.
Gogia, S.V.Kamat: Acta Materialia Vol.57 (2009), 34 [4] Keh-Minn Chang, Liu X B: Materials Science and Engineer A Vol.308 (2001), p1 [5] A.Abdul, V.Ferney, K.Saanouni: Transactions of the ASME Vol.121 (1999), p278 [6] J.T.Yeom, S.J.Williams, N.K.Park: Material at High temperatures Vol.19 (2002), p153 [7] D.L.Davidson, R.G.Tryon, M.Oja: Metallurgical and Materials Transactions A Vol.38A(2007), p2214 [8] P.J.Phillips, R.R.Unocic, L.Kovarik: Scripta materialia Vol.62(2010), p790 [9] K.Obrtlik, A.Chlupova, M.Petrenec: Key Engineering Materials Vol.385-387(2008), p581 [10] J.J.Yu, X.F.Sun, T.Jin: Materials Science and Engineering A Vol.527(2010), p2379 [11] M.Marchionni,G.A.Osinkolu,G.Onofrio: International Journal of Fatigue Vol.24 (2002), p1261
Experiment The materials studied in the present investigation are the nickel-base superalloy GH738, whose nominal composition is (in wt%):Cr 19.6, Mo 4.3, Co 13.5, Ti 3.1, Al 1.5, B 0.008, and bal.
References [1] D.S.Wei, X.G.Yang: International Journal of Pressure Vessels and Piping Vol.86 (2009), p.616
[2] N.Muhammad: Journal of Engineering for Gas Turbines and Power Vol.131 (2009), p525 [3] K.Gopinath, A.K.
Gogia, S.V.Kamat: Acta Materialia Vol.57 (2009), 34 [4] Keh-Minn Chang, Liu X B: Materials Science and Engineer A Vol.308 (2001), p1 [5] A.Abdul, V.Ferney, K.Saanouni: Transactions of the ASME Vol.121 (1999), p278 [6] J.T.Yeom, S.J.Williams, N.K.Park: Material at High temperatures Vol.19 (2002), p153 [7] D.L.Davidson, R.G.Tryon, M.Oja: Metallurgical and Materials Transactions A Vol.38A(2007), p2214 [8] P.J.Phillips, R.R.Unocic, L.Kovarik: Scripta materialia Vol.62(2010), p790 [9] K.Obrtlik, A.Chlupova, M.Petrenec: Key Engineering Materials Vol.385-387(2008), p581 [10] J.J.Yu, X.F.Sun, T.Jin: Materials Science and Engineering A Vol.527(2010), p2379 [11] M.Marchionni,G.A.Osinkolu,G.Onofrio: International Journal of Fatigue Vol.24 (2002), p1261
Online since: June 2014
Authors: Wan Li Ma, Feng He Tao, Chang Zhi Jia, Jian Chun Yang
Depend on the forming materials, 3D printing can be divided into three parts.
One is similar to Liquid photosensitive resin, one is similar to powder materials of SLS and the rest is others.
The forming material of SLS is powder materials, and laser is controlled to melt the corresponding powder by a computer.
Journal of Materials Processing Technology,2007:627–630
Xi'an University of Science and Technology, 2008
One is similar to Liquid photosensitive resin, one is similar to powder materials of SLS and the rest is others.
The forming material of SLS is powder materials, and laser is controlled to melt the corresponding powder by a computer.
Journal of Materials Processing Technology,2007:627–630
Xi'an University of Science and Technology, 2008
Online since: September 2011
Authors: Fang Wang, Xiao Hong You, Lu Cai Wang, Yan Li Wang
The Simulation of Compression Performance of Aluminum Foams
Base on DEFORM
Lucai Wang 1, a, Yanli Wang 1, b, Fang Wang 1,c and Xiaohong You1,d
1College of Materials Science and Engineering, Taiyuan Univercity of Science and Technology, Taiyuan Shanxi 030024, China
azsby2@yahoo.com.cn, bmengdekaishi@sohu.com, cporous2005@sina.com, dzsby@sina.com
Keywords: aluminum foam, finite element simulation, cell model, Stress-Strain curve.
Introduction Metal foams are a new, as yet imperfectly characterized, class of engineering materials with the advantages of high mechanical strength, large specific surface areas and high porosity.
Two models of this article cannot be complete and comprehensive description of the actual pore porous materials, just consider two factors of the macroscopic symmetry and easy analysis.
Journal of Applied Polymer Science, Vol. 1(1)(1959),p.107 [2] Gibson L G, Ashby M F: Cellular solids Structure and Properties (Cambridge University Press, London1997) [3] Gibson L G, Ashby M F: Cellular Solids (Pergamon Press, New York 1998) [4] Yuanzhang Zhang, Yihui Yi: J.
Journal of Mechanical Strength, Vol. 31(4)(2009),p.625(In Chinese) [5] Lucai Wang, Yuyong Chen: J.
Introduction Metal foams are a new, as yet imperfectly characterized, class of engineering materials with the advantages of high mechanical strength, large specific surface areas and high porosity.
Two models of this article cannot be complete and comprehensive description of the actual pore porous materials, just consider two factors of the macroscopic symmetry and easy analysis.
Journal of Applied Polymer Science, Vol. 1(1)(1959),p.107 [2] Gibson L G, Ashby M F: Cellular solids Structure and Properties (Cambridge University Press, London1997) [3] Gibson L G, Ashby M F: Cellular Solids (Pergamon Press, New York 1998) [4] Yuanzhang Zhang, Yihui Yi: J.
Journal of Mechanical Strength, Vol. 31(4)(2009),p.625(In Chinese) [5] Lucai Wang, Yuyong Chen: J.
Online since: April 2014
Authors: Wen Jian Weng, Mohannad Saleh Hammadi, Kui Cheng
Influence of Microstructure on Performance of TiO2 Nanodots Film based Biosensor Electrodes
Mohannad Saleh Hammadi1, a, Kui Cheng1, b, *and Wenjian Weng1, c
1, Department of Materials Science and Engineering, State Key Laboratory of Silicon Materials, Cyrus Tang Center for Sensor Materials and Applications, Zhejiang University, Hangzhou 310027, China.
In recent years, many nanostructured materials were used to modify the electrode, so that better protein adsorption and electron transfer could be achieved.
Jiang: Academy of Sciences, 10 (2) (2010), p. 1216
Stanciu: Journal Materials Chemistry, 20 (2010), p. 5030
D.: Malhotra, Biotechnology Journal, 46 (2009), p. 132
In recent years, many nanostructured materials were used to modify the electrode, so that better protein adsorption and electron transfer could be achieved.
Jiang: Academy of Sciences, 10 (2) (2010), p. 1216
Stanciu: Journal Materials Chemistry, 20 (2010), p. 5030
D.: Malhotra, Biotechnology Journal, 46 (2009), p. 132
Online since: November 2016
Authors: Gui Cheng Wang, Hong Jie Pei, Bin Jiao, Jun Feng Zou
Journal of Materials Science, 2002, 37(18): 3935- 3943
Journal of Engineering Manufacture, 2004, 218(10):1339- 1356
Journal of Manufacturing Process, 2005, 7(1): 1- 9
Materials for Mechanical Engineering, 2012, 36(5):58-61.
Material Science and Engineering, 2011, 34(5): 26-28.
Journal of Engineering Manufacture, 2004, 218(10):1339- 1356
Journal of Manufacturing Process, 2005, 7(1): 1- 9
Materials for Mechanical Engineering, 2012, 36(5):58-61.
Material Science and Engineering, 2011, 34(5): 26-28.
Online since: August 2014
Authors: Yi Min Wang, Yan Ping Wang, Yu Min Xia, Jia Wang
Introduction
The synthesis of inorganic materials with specific size and morphology has gained intensive attention because of its potential in designing new materials and devices.
Colloid and Polymer Science, 2008 286 1135-1141
Journal of Physical Chemistry B, 2006 110 6432-6436
Journal of Colloid and Interface Science, 2010 352 43-49
Advanced Materials, 2010 22 540-545
Colloid and Polymer Science, 2008 286 1135-1141
Journal of Physical Chemistry B, 2006 110 6432-6436
Journal of Colloid and Interface Science, 2010 352 43-49
Advanced Materials, 2010 22 540-545
Online since: June 2015
Authors: Daniel Thomazini, André Silva Chaves, Maria Virginia Gelfuso, Olívia de Andrade Raponi
Ross: Materials Science and Engineering A Vol. 130 (1990), p. 119
Koumoto et al: Annual Review of Materials Research Vol. 40 (2010), p. 363
Souza et al: Materials Science and Engineering Vol. 18 (2011), p. 1
Suslick: Advanced Materials Vol. 22 (2010), p. 1039
Chaves et al: Materials Science Forum Vol. 775-776 (2014), p. 445
Koumoto et al: Annual Review of Materials Research Vol. 40 (2010), p. 363
Souza et al: Materials Science and Engineering Vol. 18 (2011), p. 1
Suslick: Advanced Materials Vol. 22 (2010), p. 1039
Chaves et al: Materials Science Forum Vol. 775-776 (2014), p. 445