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Online since: March 2014
Authors: Alawi Sulaiman, Che Mohd Som Said, Ayub M. Som, Mohd Noriznan Mokhtar, Muhammad Aqif Adam, Azhari Samsu Bahruddin
Materials and Methods
Materials.
This can be explained from the physical size of the materials itself.
Table 2 also shows the sizes of different materials used to develop NPC.
Green Composites: A Review of Adequate Materials for Automotive Application.
Songklanakarin Journal of Science and Technology 2005;27;343-352
This can be explained from the physical size of the materials itself.
Table 2 also shows the sizes of different materials used to develop NPC.
Green Composites: A Review of Adequate Materials for Automotive Application.
Songklanakarin Journal of Science and Technology 2005;27;343-352
Online since: July 2015
Authors: Sergey Shevtsov, I.V. Tarasov, I.V. Zhilyaev, E.E. Orozaliev
Kelly: Composite materials for aircraft structures. 2nd ed., (AIAA Inc., N.
Park, and S.W.Lee: Journal of Composite Materials, Vol. 35, (2001), p. 188
Lee: Journal of Composite Materials, Vol. 36, (2002), pp. 19
Shevtsov, et al. in: Advanced Materials - Studies and Applications, Ch.7, edited by I.A.
Vafayan, et al.: Journal of Composite Materials, Vol. 48, (2014), p. 1039
Park, and S.W.Lee: Journal of Composite Materials, Vol. 35, (2001), p. 188
Lee: Journal of Composite Materials, Vol. 36, (2002), pp. 19
Shevtsov, et al. in: Advanced Materials - Studies and Applications, Ch.7, edited by I.A.
Vafayan, et al.: Journal of Composite Materials, Vol. 48, (2014), p. 1039
Online since: November 2015
Authors: Mohd Mustafa Al Bakri Abdullah, Hussin Kamarudin, Rosniza Hamzah, Nik Noriman Zulkepli, Sam Sung Ting, N.Z. Nik Yahya, Hanafi Ismail, Muhammad Ridhwan Jamalul Nasir
Table 1: The characteristics of the materials
Materials
Description
Source
Natural rubber
Standard Malaysia Rubber L (SMR L)
Malayan Testing Laboratory Sdn.
Materials & Design, 2001. 22(2): p. 123-128
Journal of applied polymer science, 1999. 74(5): p. 1129-1139
Journal of applied polymer science, 1986. 32(3): p. 4063-4074
Key Engineering Materials, 2014. 594: p. 634-638
Materials & Design, 2001. 22(2): p. 123-128
Journal of applied polymer science, 1999. 74(5): p. 1129-1139
Journal of applied polymer science, 1986. 32(3): p. 4063-4074
Key Engineering Materials, 2014. 594: p. 634-638
Online since: August 2018
Authors: Aldyandra Hami Seno, M.H. Aliabadi, Zahra Sharif Khodaei
Smart Materials and Structures. 2003;12:795–803
Smart Materials and Structures. 2007;16:1489–1499
Journal of Intelligent Material Systems and Structures. 2000;11:180–190
Journal of Intelligent Material Systems and Structures. 2013;24:559–573
Smart Materials and Structures. 2012;21:105026.
Smart Materials and Structures. 2007;16:1489–1499
Journal of Intelligent Material Systems and Structures. 2000;11:180–190
Journal of Intelligent Material Systems and Structures. 2013;24:559–573
Smart Materials and Structures. 2012;21:105026.
Online since: March 2020
Authors: Wan Mohd Nazri Wan Abdul Rahman, Nor Yuziah Mohd Yunus, Nurrohana Ahmad, Siti Noorbaini Sarmin
Materials and Method
Fly ash, metakaolin, alkaline activator and wood veneer.
Chemical composition (% mass) of fly ash Oxides Materials SiO2 Al2O3 Fe2O3 CaO MgO Na2O K2O TiO2 L.O.I.
Sun, New building materials from fly ash-based lightweight inorganic polymer, Construction and Building Materials.
Zhang, Utilization of Sweet Sorghum Fiber to Reinforce Fly Ash-Based Geopolymer, Journal of Materials Science.
Van Deventer, Geopolymer Technology: The Current State of the Art, Journal of Materials Science.
Chemical composition (% mass) of fly ash Oxides Materials SiO2 Al2O3 Fe2O3 CaO MgO Na2O K2O TiO2 L.O.I.
Sun, New building materials from fly ash-based lightweight inorganic polymer, Construction and Building Materials.
Zhang, Utilization of Sweet Sorghum Fiber to Reinforce Fly Ash-Based Geopolymer, Journal of Materials Science.
Van Deventer, Geopolymer Technology: The Current State of the Art, Journal of Materials Science.
Online since: December 2012
Authors: Wen Lei Liu, Shan Lin Zhao, Shuang Cui, Shuang Chun Yang, Li Yan Shang
The exploitation of modified talcum powder materials will broaden the application range of the talcum powder and improve the additional value of the talcum powder.
Materials and methods Materials.
Journal of Harbin University of Science and Technology.
Journal of Jilin University (Science Edition).
Journal of Shenyang Jianzhu University (Natural Science).Vol.23(2007), p. 1004-1008
Materials and methods Materials.
Journal of Harbin University of Science and Technology.
Journal of Jilin University (Science Edition).
Journal of Shenyang Jianzhu University (Natural Science).Vol.23(2007), p. 1004-1008
Online since: May 2023
Authors: Yuan Yuan Ju, Lei Zhang
Parashar, Effect of lattice distortion and nanovoids on the shock compression behavior of (Co-Cr-Cu-Fe-Ni) high entropy alloy, Computational Materials Science 209 (2022) 111402
Xu, Shock-induced spallation in single-crystalline tantalum at elevated temperatures through molecular dynamics modeling, Computational Materials Science 201 (2022) 110870
Phillpot, Molecular dynamics simulation of the shock response of materials: A tutorial, Journal of Applied Physics 131 (2022) 051101
Qi, Atomic insights into shock-induced spallation of single-crystal aluminum through molecular dynamics modeling, Mechanics of Materials 143 (2020) 103343
Dongare, Defect and damage evolution during spallation of single crystal Al: Comparison between molecular dynamics and quasi-coarse-grained dynamics simulations, Computational Materials Science 145 (2018) 68-79
Xu, Shock-induced spallation in single-crystalline tantalum at elevated temperatures through molecular dynamics modeling, Computational Materials Science 201 (2022) 110870
Phillpot, Molecular dynamics simulation of the shock response of materials: A tutorial, Journal of Applied Physics 131 (2022) 051101
Qi, Atomic insights into shock-induced spallation of single-crystal aluminum through molecular dynamics modeling, Mechanics of Materials 143 (2020) 103343
Dongare, Defect and damage evolution during spallation of single crystal Al: Comparison between molecular dynamics and quasi-coarse-grained dynamics simulations, Computational Materials Science 145 (2018) 68-79
Online since: August 2013
Authors: Li Ping Du, Xiu Juan Xu, Yi Li Tan
Numerical study of dynamic crack of 1D hexagonal and 3D
icosahedral quasicrystals
Liping Du1, a, Xiujuan Xu2,b Yili Tan3,c
1College of science, HeBei United University, Tangshan 063000,China
2 College of science, HeBei United University, Tangshan 063000,China
3 College of science, HeBei United University, Tangshan 063000,China
aliping.du@163.coml, b xxjluck@126.com , c tanyili_2002@163.com
Keywords: quasicrystals;anti-plane problems;phonon;finite difference
Abstract.
Further the dynamic behaviour of the material with a model Ⅲ crack under impact loading is given.The results show dynamic stress intensity factor of the crack tip, in which the similar and different features with conventional materials are discussed, especially the phonon,phason and phonon-phason coupling effects are explored.
The comparison between the present new results with those for conventional materials is included.
Acknowledgements This work was financially supported by the Project of Tanghan City science and technology (12110209b) .
Experimental study of the dynamics of icosahedral phases,Journal of Non-Crystalline Solids 334&335(2004) 303~307 [9]T.Y.Fan and A.Y.Zhu, Elastodynamics and defect dynamics of quasicrystals, Phil.
Further the dynamic behaviour of the material with a model Ⅲ crack under impact loading is given.The results show dynamic stress intensity factor of the crack tip, in which the similar and different features with conventional materials are discussed, especially the phonon,phason and phonon-phason coupling effects are explored.
The comparison between the present new results with those for conventional materials is included.
Acknowledgements This work was financially supported by the Project of Tanghan City science and technology (12110209b) .
Experimental study of the dynamics of icosahedral phases,Journal of Non-Crystalline Solids 334&335(2004) 303~307 [9]T.Y.Fan and A.Y.Zhu, Elastodynamics and defect dynamics of quasicrystals, Phil.
Online since: April 2020
Authors: Muhammad Musaddique Ali Rafique
Journal of Materials Research, 2005. 20(10): p. 2632-2638
Materials Science and Engineering: A, 2015. 627: p. 21-26
Journal of Materials Research, 2010. 25(6): p. 1159-1163
Journal of Materials Science, 1980. 15(5): p. 1224-1230
Journal of Materials Science, 1975. 10(10): p. 1802-1825
Materials Science and Engineering: A, 2015. 627: p. 21-26
Journal of Materials Research, 2010. 25(6): p. 1159-1163
Journal of Materials Science, 1980. 15(5): p. 1224-1230
Journal of Materials Science, 1975. 10(10): p. 1802-1825
Online since: January 2020
Authors: A.G. Barbosa de Lima, W.C.P. Barbosa de Lima, N. Lima Tresena, G. Santos de Lima, Lucas Pereira Castanheira Nascimento, R. Lima Dantas, J.B. Silva Júnior
In this sense, in order to optimize the process and reduce energy costs, this work presents a transient three-dimensional mathematical modeling to describe the heat transfer inside liquid materials with parallelepiped shape including phase change (liquid-solid) term.
For,it is assumed that the material is completely non-porous materials (liquids).
,Journal of Food Science, 55(1990), 484p
Applications,Journal of Food Engineering, 37 (b) (1998), 143-157
Case studied: drying of ceramic materials, Ph.
For,it is assumed that the material is completely non-porous materials (liquids).
,Journal of Food Science, 55(1990), 484p
Applications,Journal of Food Engineering, 37 (b) (1998), 143-157
Case studied: drying of ceramic materials, Ph.