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Online since: July 2014
Authors: Tong Wei, Xiao Jing Feng, Zhong Yi Zuo
Heavy vehicles mostly applied for the transportation of bulk materials, so the study of compartment pressure by bulk materials while running is essential for the structural design of carriages.
In addition, the boundary conditions between supporting structure and supported materials was considered simply, Rankine supposed the interface between the soil and the walls as completely smooth, while Coulomb theory considered internal friction between the soil and the walls is δ.
Advances in Science and Technology of Hehai,1991,3(11):85-89.
Journal of the Japan Society of Civil Engineers, 1924,10(5):1277-1323
[14] Ma Wei.Dynamical Behavior of Granular Materials Under Impact:[D].Beijing:College of Engineering of Peking University,2008.
In addition, the boundary conditions between supporting structure and supported materials was considered simply, Rankine supposed the interface between the soil and the walls as completely smooth, while Coulomb theory considered internal friction between the soil and the walls is δ.
Advances in Science and Technology of Hehai,1991,3(11):85-89.
Journal of the Japan Society of Civil Engineers, 1924,10(5):1277-1323
[14] Ma Wei.Dynamical Behavior of Granular Materials Under Impact:[D].Beijing:College of Engineering of Peking University,2008.
Online since: December 2012
Authors: Ismail Hanafi, Hakim Ibrahim Lokman, N.Z. Noimam, Sam Sung Ting
EXPERIMENTAL
Materials
LLDPE (ETILINAS LL0209SA) was supplied by Polyethylene Malaysia Sdn.
Journal of Applied Polymer Science, 100(4), 2717-2724 (2006)
Journal of Applied Polymer Science, 113(5), 2826-2832 (2009)
Journal of Applied Polymer Science, 103(6), 3758-3765 (2007)
Journal of Polymer Engineering, 9(1), 67-84 (1990)
Journal of Applied Polymer Science, 100(4), 2717-2724 (2006)
Journal of Applied Polymer Science, 113(5), 2826-2832 (2009)
Journal of Applied Polymer Science, 103(6), 3758-3765 (2007)
Journal of Polymer Engineering, 9(1), 67-84 (1990)
Online since: April 2014
Authors: Yong Shi, Jun Ke, Qi Dong Zhao, Xin Yong Li, Nan Zheng, Fang Hong Xue
Advanced Materials. 2012,24(2):229-251
Advanced Functional Materials. 2010,20(13):2165-2174
Journal of Materials Chemistry. 2010 2010; 20(18):3656-3664
Advanced Functional Materials [J]. 2010,20(12): 1970-1976
Journal of Hazardous Materials. 2004,114(1-3):183-190
Advanced Functional Materials. 2010,20(13):2165-2174
Journal of Materials Chemistry. 2010 2010; 20(18):3656-3664
Advanced Functional Materials [J]. 2010,20(12): 1970-1976
Journal of Hazardous Materials. 2004,114(1-3):183-190
Online since: May 2013
Authors: Bilal Ghazanfar, Mokhtar Awang, Sajjad Raza Khan, Hasan Fawad
Progress in Materials Science, 2008. 53(6): p. 980-1023
Journal of Materials Engineering and Performance, 2010. 19(8): p. 1071-1089
Materials Science and Engineering: R: Reports, 2005. 50(1–2): p. 1-78
Journal of Materials Processing Technology, 2007. 183(1): p. 62-70
Journal of Materials Processing Technology, 2008. 200(1–3): p. 163-175.
Journal of Materials Engineering and Performance, 2010. 19(8): p. 1071-1089
Materials Science and Engineering: R: Reports, 2005. 50(1–2): p. 1-78
Journal of Materials Processing Technology, 2007. 183(1): p. 62-70
Journal of Materials Processing Technology, 2008. 200(1–3): p. 163-175.
Online since: February 2007
Authors: Cheng Yun Ning, Ying Jun Wang, Jian Dong Ye, Xiao Feng Chen, Li Ren, Hua Guo Liu, Gang Wu, Na Ru Zhao, Kun Wei
Buckberry: Advanced Materials Vol. 11 (1999), p.318
Gladius: Bio-medical Materials and Engineering Vol.10(2000), p.157
Boskey: Journal of Biomedical Materials Research 54(2001), p.480
Decker: Journal of Biomedical Materials Research Vol. 39(1998), p.234
Lausmaa: Journal of Biomedical Materials Research Vol. 30 (1996), p.251
Gladius: Bio-medical Materials and Engineering Vol.10(2000), p.157
Boskey: Journal of Biomedical Materials Research 54(2001), p.480
Decker: Journal of Biomedical Materials Research Vol. 39(1998), p.234
Lausmaa: Journal of Biomedical Materials Research Vol. 30 (1996), p.251
Online since: July 2011
Authors: Tshilidzi Marwala, Mukul Shukla, Stephen Akinlabi, Esther Titilayo Akinlabi
This gives a good baseline for comparison and also determines the effect of the beam on the structure of the materials.
Kannatey-Asibu: Principle of laser materials processing.
Moeanodini: Computational Material Science 45 (2009), p. 480 [4] S.J.
Vittal: Journal of Manufacturing Processes Vol. 2 (2000), p. 4
Yao: Journal of Manufacturing processes.
Kannatey-Asibu: Principle of laser materials processing.
Moeanodini: Computational Material Science 45 (2009), p. 480 [4] S.J.
Vittal: Journal of Manufacturing Processes Vol. 2 (2000), p. 4
Yao: Journal of Manufacturing processes.
Online since: July 2020
Authors: Alexey V. Ishkov, Vladimir N. Malikov, Alexey A. Grigorev, Mihail A. Ryasnoi, Denis A. Fadeev
Much effort is devoted to understand the physical and chemical properties of materials, which can serve as model catalyst systems.
Schneider, Electron quantization in arbitrarily shaped gold islands on MgO thin films, Physical Review B - Condensed Matter and Materials Physics 88 (2013) 1-8
Sterrer, Surface Science Approach to Catalyst Preparation—Pd Deposition onto Tin Fe3O4 111 Films from PdCl2, Precursor Journal of Catalysis 286 (2012) 1-5
Liao, Application of an eddy-current method to measure electrical conductivity of thin films, IOP Conference Series: Materials Science and Engineering 441 (2018) 29-36
Malikov, Control quality of composite materials by using subminiature eddy current transducers, Materials Science Forum 945 (2018) 866-872.
Schneider, Electron quantization in arbitrarily shaped gold islands on MgO thin films, Physical Review B - Condensed Matter and Materials Physics 88 (2013) 1-8
Sterrer, Surface Science Approach to Catalyst Preparation—Pd Deposition onto Tin Fe3O4 111 Films from PdCl2, Precursor Journal of Catalysis 286 (2012) 1-5
Liao, Application of an eddy-current method to measure electrical conductivity of thin films, IOP Conference Series: Materials Science and Engineering 441 (2018) 29-36
Malikov, Control quality of composite materials by using subminiature eddy current transducers, Materials Science Forum 945 (2018) 866-872.
Online since: September 2013
Authors: Igor Tsukrov, Borys Drach, Harun Bayraktar, Jon Goering
Finite Element Models of the Composite Material
Mesh generation.
Material orientations define the directions of the principal material axes in the element relative to the global coordinate system of the FE mesh.
[6] Drach A., Drach B., Tsukrov I., Bayraktar H., and Goering J., 2013, “Realistic FEA Modeling of 3D Woven Composites on Mesoscale,” Proceedings of the 19th International Conference on Composite Materials (ICCM-19)
[7] Hashin Z., 1983, “Analysis of composite materials: A survey,” Journal of Applied Mechanics, 50, pp. 481–505
S., 2012, “Effective stiffness and thermal expansion coefficients of unidirectional composites with fibers surrounded by cylindrically orthotropic matrix layers,” International Journal of Engineering Science, 58, pp. 129–143
Material orientations define the directions of the principal material axes in the element relative to the global coordinate system of the FE mesh.
[6] Drach A., Drach B., Tsukrov I., Bayraktar H., and Goering J., 2013, “Realistic FEA Modeling of 3D Woven Composites on Mesoscale,” Proceedings of the 19th International Conference on Composite Materials (ICCM-19)
[7] Hashin Z., 1983, “Analysis of composite materials: A survey,” Journal of Applied Mechanics, 50, pp. 481–505
S., 2012, “Effective stiffness and thermal expansion coefficients of unidirectional composites with fibers surrounded by cylindrically orthotropic matrix layers,” International Journal of Engineering Science, 58, pp. 129–143
Online since: May 2011
Authors: Tie Lin Shi, M.Rizwan Malik, Zi Rong Tang, Lei Zhang, Shuang Xi, Dan Liu
Simpson, Journal of Vacuum Science and Technology B, 19 (2001) 2598
[3] M.
Baneyx, Nature Materials, 2 (2003) 577 [4] Y.
Ajayan, Smart Materials and Structures, 11 (2002) 691 [8] Y.
Li, Materials Science and Engineering A, 444 (2007) 138 [14] M.
Saito, Journal of Vacuum Science and Technology B, 22 (2004) 1335 [17] S.
Baneyx, Nature Materials, 2 (2003) 577 [4] Y.
Ajayan, Smart Materials and Structures, 11 (2002) 691 [8] Y.
Li, Materials Science and Engineering A, 444 (2007) 138 [14] M.
Saito, Journal of Vacuum Science and Technology B, 22 (2004) 1335 [17] S.
Online since: August 2014
Authors: Eva Ružinská, Martin Zachar, Iveta Mitterová, Andrea Majlingová
ISBN 978-80-7366-090-1
[2] GALLA, Š. – IVANOVIČOVÁ, M., 2013: Assessment of fire risk of selected agglomerated wooden materials.
In: Research Journal of Recent Sciences, 2013, Vol. 2 (7), p. 43-47.
In: Fire Safety Journal.
In: Research journal of recent sciences. 2013, Vol. 2, no. 12 (2013), p. 80-82.
[10] OSVALD, A. a kol., 2009: Evaluation of materials and structures for fire protection needs.
In: Research Journal of Recent Sciences, 2013, Vol. 2 (7), p. 43-47.
In: Fire Safety Journal.
In: Research journal of recent sciences. 2013, Vol. 2, no. 12 (2013), p. 80-82.
[10] OSVALD, A. a kol., 2009: Evaluation of materials and structures for fire protection needs.