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Online since: October 2011
Authors: Siba Sankar Mahapatra, Saurav Datta
The suffix m, p and ct stand for the matrix, particulate filler materials and the composite materials respectively.
Ja¨ rvela¨, “Multi-Component Compounding of Polypropylene”, Journal of Materials Science, vol. 31, no. 14, 1996, pp. 3853–3859
Masuko, “Dynamic Viscoelastic Properties and Thermal Properties of Powder-epoxy Resin Composites”, Journal of Applied Polymer Sciences, vol. 69, 1998, pp. 2593–2598
Shembekar, “Mechanical Properties of E-glass Fibre Reinforced Nylon 6/6 Resin Composites”, Journal of Materials Science, vol. 26, 1991, pp. 6693–6698
Schmauder, „Prediction of the Failure Properties of Short Fiber Reinforced Composites with Metal and Polymer Matrix”, Computational Materials Science, vol. 28, 2003, pp. 743–748
Ja¨ rvela¨, “Multi-Component Compounding of Polypropylene”, Journal of Materials Science, vol. 31, no. 14, 1996, pp. 3853–3859
Masuko, “Dynamic Viscoelastic Properties and Thermal Properties of Powder-epoxy Resin Composites”, Journal of Applied Polymer Sciences, vol. 69, 1998, pp. 2593–2598
Shembekar, “Mechanical Properties of E-glass Fibre Reinforced Nylon 6/6 Resin Composites”, Journal of Materials Science, vol. 26, 1991, pp. 6693–6698
Schmauder, „Prediction of the Failure Properties of Short Fiber Reinforced Composites with Metal and Polymer Matrix”, Computational Materials Science, vol. 28, 2003, pp. 743–748
Online since: February 2013
Authors: R.K. Shah, R.J. Pathak, Dipak Sahay, Ripal Parmar
The materials in the elemental form are taken in a stoichiometric proportion and filled up in a quartz ampoule.
YB Dabgar, Principal, RR Mehta College of Science &CL Parikh College of Commerce, Palanpur for his kind cooperation throughout this work. 6 References [1] V M Pathak, K D Patel, R J Pathak and R Srivastava, Solar Energy Materials and Solar Cells, 73(2),(2002),117-123
[7] G Kline, K Kam, D Canfield and B A Parkinson, Solar Energy Materials 4 (3), (1981), 301-308
[10] Helmut Tributsch Solar Energy Materials, 1 (3-4), (1979), 257-269
[11] R Aloney*, P R Chandraa, M Ramrakhaini, Journal Of Optoelectronics And Advanced Materials, 13 (7), (2011), 830 – 832.
YB Dabgar, Principal, RR Mehta College of Science &CL Parikh College of Commerce, Palanpur for his kind cooperation throughout this work. 6 References [1] V M Pathak, K D Patel, R J Pathak and R Srivastava, Solar Energy Materials and Solar Cells, 73(2),(2002),117-123
[7] G Kline, K Kam, D Canfield and B A Parkinson, Solar Energy Materials 4 (3), (1981), 301-308
[10] Helmut Tributsch Solar Energy Materials, 1 (3-4), (1979), 257-269
[11] R Aloney*, P R Chandraa, M Ramrakhaini, Journal Of Optoelectronics And Advanced Materials, 13 (7), (2011), 830 – 832.
Online since: January 2012
Authors: Wen Ni, Hui Wu, De Zhong Li, Cheng Hong Fu
Hydrates and Paste Structure of Slag-Fly Ash Based Cementitious Materials
Chenghong Fu1, a, Wen Ni 1,b , Hui Wu 1,c and Dezhong Li1, d
1 School of Civil and Environmental Engineering, University of Science and Technology of Beijing, Beijing,100083 China
aredcheng2008@163.com, bniwen@ces.ustb.edu.cn, camy.1986@163.com, ddzli0636@126.com
Keywords: Hydrates, Paste Structure, Slag, Fly ash, Cementitious Materials, XRD, SEM, IR.
The chemical composition of raw materials is presented in Table 1.
The mix proportions of raw materials are presented in Table 2.
Construre Building Materials, Vol.23(2009) ,p.2606–2613 [2] D.
Materials Science and Engineering A, Vol.,1-2(2005) ,p.392-402 [9] Y.
The chemical composition of raw materials is presented in Table 1.
The mix proportions of raw materials are presented in Table 2.
Construre Building Materials, Vol.23(2009) ,p.2606–2613 [2] D.
Materials Science and Engineering A, Vol.,1-2(2005) ,p.392-402 [9] Y.
Online since: May 2016
Authors: Yan Bin Shi, Xiao Geng, Yuan Yuan Lv, Shu Dong
By using this nature of Jet, we could machine materials better.
Materials were AISI4340 and Al2219, experiment were carried on 16 times.
Journal of Materials Processing Technology. 133 (2003) 371-377 [34] G.V.S.
Journal of Material processing Technology,.213 (2013) 1711-1724 [47] B.
Journal of China university of petroleum (natural science edition), 36(2012)93-96
Materials were AISI4340 and Al2219, experiment were carried on 16 times.
Journal of Materials Processing Technology. 133 (2003) 371-377 [34] G.V.S.
Journal of Material processing Technology,.213 (2013) 1711-1724 [47] B.
Journal of China university of petroleum (natural science edition), 36(2012)93-96
Online since: December 2014
Authors: Wei Lin, Wei Hwa Chiang
Acoustical Design Study on Application of Absorption Materials
Wei Lin1, a *, Wei-Hwa Chiang 2,b
1 Assistant Professor, Dept. of Interior Design, Hwa Hsia University of Technology, No.111, Gongzhuan Rd., Zhonghe Dist., New Taipei City 235, Taiwan (R.O.C.)
2 Professor, Dept. of Architecture, National Taiwan University of Science and Technology, No.43, Sec. 4, Keelung Rd., Da’an Dist., Taipei 106, Taiwan (R.O.C.)
aweilin@cc.hwh.edu.tw, bedchiang1224@hotmail.com Keywords: Absorption material, Computer simulation, Reinforcement system.
Following sections are dedicated to detailed studies concentrating on the major design components: side wall absorbent material and draperies.
International Symposium on Room Acoustics: Design and Science, Kyoto, Japan. (2004) [4] W, Chiang, Wei Lin, Yi-Run Chen, Huang-Yao Hu, “Variable Acoustics Design of a Small Proscenium Concert Hall”.
Journal of Asian Architecture and Building Engineering. (2008)
aweilin@cc.hwh.edu.tw, bedchiang1224@hotmail.com Keywords: Absorption material, Computer simulation, Reinforcement system.
Following sections are dedicated to detailed studies concentrating on the major design components: side wall absorbent material and draperies.
International Symposium on Room Acoustics: Design and Science, Kyoto, Japan. (2004) [4] W, Chiang, Wei Lin, Yi-Run Chen, Huang-Yao Hu, “Variable Acoustics Design of a Small Proscenium Concert Hall”.
Journal of Asian Architecture and Building Engineering. (2008)
Online since: September 2017
Authors: Alberto Milazzo, Ivano Benedetti, Vincenzo Gulizzi
Summary
A new 3D formulation for the analysis of intergranular degradation and failure in polycrystalline materials has been developed.
Computational Materials Science, 67, 249-260, 2013 [7] V Gulizzi, A Milazzo, I Benedetti, An enhanced grain-boundary framework for computational homogenization and micro-cracking simulations of polycrystalline materials.
Journal of the Mechanics and Physics of Solids, 52(10), 2403-2430, 2004 [10] GK Sfantos, MH Aliabadi, A boundary cohesive grain element formulation for modelling intergranular microfracture in polycrystalline brittle materials.
Computer Methods in Applied Mechanics and Engineering, 265, 36-62, 2013 [13] I Benedetti, MH Aliabadi, Multiscale modeling of polycrystalline materials: A boundary element approach to material degradation and fracture.
International Journal of Plasticity, 83, 202-224, 2016 [15] I Benedetti, F Barbe, Modelling Polycrystalline Materials: An Overview of Three-Dimensional Grain-Scale Mechanical Models.
Computational Materials Science, 67, 249-260, 2013 [7] V Gulizzi, A Milazzo, I Benedetti, An enhanced grain-boundary framework for computational homogenization and micro-cracking simulations of polycrystalline materials.
Journal of the Mechanics and Physics of Solids, 52(10), 2403-2430, 2004 [10] GK Sfantos, MH Aliabadi, A boundary cohesive grain element formulation for modelling intergranular microfracture in polycrystalline brittle materials.
Computer Methods in Applied Mechanics and Engineering, 265, 36-62, 2013 [13] I Benedetti, MH Aliabadi, Multiscale modeling of polycrystalline materials: A boundary element approach to material degradation and fracture.
International Journal of Plasticity, 83, 202-224, 2016 [15] I Benedetti, F Barbe, Modelling Polycrystalline Materials: An Overview of Three-Dimensional Grain-Scale Mechanical Models.
Online since: December 2019
Authors: Vasiliy G. Klimenko, Alexander Z. Chernyshev, Alena I. Strelnikova
The magnesia binder production organization from the local natural materials will provide high-quality and cheap products suitable for the production of a wide range of building materials.
For example, dry construction mixtures (DCC), wall materials, sheet products, self-leveling floors, materials for the protection against electromagnetic and ionizing radiation.
Cherkashina, The World Applied Sciences Journal. 25 (2013) 1343 [7] V.G.
Series Materials Science and 327 (2018) 032029 doi: 10.1088 / 1757-899X / 327/3/032029 [8] B.I.
Journal of Applied Chemistry. (3) 505–515 [9] N.S.
For example, dry construction mixtures (DCC), wall materials, sheet products, self-leveling floors, materials for the protection against electromagnetic and ionizing radiation.
Cherkashina, The World Applied Sciences Journal. 25 (2013) 1343 [7] V.G.
Series Materials Science and 327 (2018) 032029 doi: 10.1088 / 1757-899X / 327/3/032029 [8] B.I.
Journal of Applied Chemistry. (3) 505–515 [9] N.S.
Online since: November 2005
Authors: Kyung Su Kim, Seung Bok Choi
Fatigue Properties of Smart Electrorheological Materials
S.B.
The first two ingredients directly indicate materials and design aspect, respectively.
This property is very important in choosing both electrode materials and compatible ER materials associated with engineering applications.
Thompson: Smart materials and structures, (Chapman & Hall, London 1992) [2] W.H.
Choi: Proceedings of the IMechE: Part D- Journal of Automobile Engineering Vol. 217 (11) (2003), p. 999 [6] G.M.
The first two ingredients directly indicate materials and design aspect, respectively.
This property is very important in choosing both electrode materials and compatible ER materials associated with engineering applications.
Thompson: Smart materials and structures, (Chapman & Hall, London 1992) [2] W.H.
Choi: Proceedings of the IMechE: Part D- Journal of Automobile Engineering Vol. 217 (11) (2003), p. 999 [6] G.M.
Online since: August 2023
Authors: Emilia-Florina Binchiciu, Mircea Nicolaescu, Viorel Aurel Serban, Carmen Lazau, Cornelia Bandas, Corina Orha, Melinda Vajda
Erlebacher, Annual Review of Materials Research 46 (1) (2016) 263-286
Li, Materials Letters 245 (2019) 49-52
Zhan, Materials Letters 265 (2020) 127300
Miclau, Journal of Materials Science: Materials in Electronics 33 (2022) [8] M.
Aurel Serban, Materials Today: Proceedings (2022) [10] Z.
Li, Materials Letters 245 (2019) 49-52
Zhan, Materials Letters 265 (2020) 127300
Miclau, Journal of Materials Science: Materials in Electronics 33 (2022) [8] M.
Aurel Serban, Materials Today: Proceedings (2022) [10] Z.
Online since: October 2013
Authors: Ying Chun Cai, Xiang Hua Tao, Jing Qing Huang
The pavement materials are inhomogeneous medium in fact, the particle surface can induce the scatter and diffraction of electromagnetic wave.
This paper proposes the solutions of inverse analysis for inhomogeneous dielectric coefficients of pavement materials used GPR data.
Two examples are given to assess the validity of genetic algorithms in inversion of pavement materials inhomogeneous dielectricity.
Interface reflection wave only represent properties of materials near the interface, not all the layers of material properties, which leads to the fact that the dielectric constant is not correlated so closely with the characteristics of the whole layer.
Zhang, et al, The Research Report for Characteristics Inversion of Subgrade Pavement Material and ApplicationTechnology of FWD Type Instrument and GP, National Outstanding Youth Science Fund Projects (19625205), 2003
This paper proposes the solutions of inverse analysis for inhomogeneous dielectric coefficients of pavement materials used GPR data.
Two examples are given to assess the validity of genetic algorithms in inversion of pavement materials inhomogeneous dielectricity.
Interface reflection wave only represent properties of materials near the interface, not all the layers of material properties, which leads to the fact that the dielectric constant is not correlated so closely with the characteristics of the whole layer.
Zhang, et al, The Research Report for Characteristics Inversion of Subgrade Pavement Material and ApplicationTechnology of FWD Type Instrument and GP, National Outstanding Youth Science Fund Projects (19625205), 2003