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Online since: September 2011
Authors: Jian Bo Lei, Yun Shan Wang, Zhen Wang
The absorption can be adjusted by different filler materials or filler concentrations.
In the absence of absorption agent, the strongest absorb light are black materials, followed by white, red and yellow materials are poor.
Herrmann: Journal of Reinforced Plastics and Composites.
Zak: Journal of Heat Transfer, Vol.129 (2007), pp.1177-1186
Katsiropoulos: Journal of Composite Materials, Vol.44 (2010), pp.113-130.
In the absence of absorption agent, the strongest absorb light are black materials, followed by white, red and yellow materials are poor.
Herrmann: Journal of Reinforced Plastics and Composites.
Zak: Journal of Heat Transfer, Vol.129 (2007), pp.1177-1186
Katsiropoulos: Journal of Composite Materials, Vol.44 (2010), pp.113-130.
Online since: February 2015
Authors: Bhoopendra Dhar Diwan, Sambandam Murugan
Even for bulk materials, parameters that ensure this constancy involving normalized cohesive energy, surface reconstruction, iconicity, bulk structure, melting point hybridization and charge balance.
The cause for this fluctuation in size and number of atom-pairs dependence regards the covalent nature of the bonding in semiconductor materials as well as low aspect-ratio metals.
Nanoelectronics and Materials vol.1, pp. 65-79, 2008
Srivastava, ‘‘Specific heat calculations of III-N bulk materials’’, Phys.
N Talwar, D Sofranko, C Mooney, S Tallo, ‘‘Elastic, structural, bonding, and defect properties of zinc-blende BN, AlN, GaN, InN and their alloys’’, Materials Science and Engineering: B, Volume 90, Issue 3, , Pages 269–277, March 2002 [18] H.
The cause for this fluctuation in size and number of atom-pairs dependence regards the covalent nature of the bonding in semiconductor materials as well as low aspect-ratio metals.
Nanoelectronics and Materials vol.1, pp. 65-79, 2008
Srivastava, ‘‘Specific heat calculations of III-N bulk materials’’, Phys.
N Talwar, D Sofranko, C Mooney, S Tallo, ‘‘Elastic, structural, bonding, and defect properties of zinc-blende BN, AlN, GaN, InN and their alloys’’, Materials Science and Engineering: B, Volume 90, Issue 3, , Pages 269–277, March 2002 [18] H.
Online since: September 2013
Authors: Xiao Hua Pan, Sheng Qiang Yuan, Zhi Feng Ji, Zi Yang
It can deep into materials without destroying samples, with advantages such as rapid, accurate and high resolution.
[6] Xu H., Zhang S.H., Leng X., Tang D.Z. and Wang M.S: Chinese Science Bulletin Vol. 50, (2005), p. 45-50
[7] Kevin, M., Douglas, M., Smith, A: Journal of Colloid and Interface Science, Vol. 19 (1), (1987). p. 117-126
[14] Ranhong Xie, Lizhi Xiao, Zhongdong Wang, Kejun Deng: Science in China (Series D:Earth Sciences), Vol. 51, (2008), p. 212-217 (in Chinese)
[20] Timur, A: Journal of Petroleum Technology, Vol. 21 (6), (1969), p. 775-786.
[6] Xu H., Zhang S.H., Leng X., Tang D.Z. and Wang M.S: Chinese Science Bulletin Vol. 50, (2005), p. 45-50
[7] Kevin, M., Douglas, M., Smith, A: Journal of Colloid and Interface Science, Vol. 19 (1), (1987). p. 117-126
[14] Ranhong Xie, Lizhi Xiao, Zhongdong Wang, Kejun Deng: Science in China (Series D:Earth Sciences), Vol. 51, (2008), p. 212-217 (in Chinese)
[20] Timur, A: Journal of Petroleum Technology, Vol. 21 (6), (1969), p. 775-786.
Online since: March 2013
Authors: Mohd Afzan Mohd Anuar, Ahmad Azlan Mat Isa
Anifantis, Vibration analysis of multi-walled carbon nanotubes using a spring-mass based finite element model, Computational Materials Science 47 (2009) 168-177
Materials science and Engineering C 16 (2001) 3-10
Computational Materials Science 48 (2010) 730-735
Computational Materials Science 50 (2010) 790-795
Advanced Materials 17 (2005) 3011-3018
Materials science and Engineering C 16 (2001) 3-10
Computational Materials Science 48 (2010) 730-735
Computational Materials Science 50 (2010) 790-795
Advanced Materials 17 (2005) 3011-3018
Online since: September 2024
Authors: Artem Ruban, Viktoriya Pasternak, Kyrylo Pasynchuk, Pavlo Polyanskyi
Journal of Materials Research and Technology. 9 (2020) 1–19
Materials Science Forum. 1006 (2020) 55–61
Materials Science Forum. 1038 (2021) 33–39
Materials Science Forum. 1006 (2020) 47–54
Materials Science Forum. 1038 (2021) 15–24
Materials Science Forum. 1006 (2020) 55–61
Materials Science Forum. 1038 (2021) 33–39
Materials Science Forum. 1006 (2020) 47–54
Materials Science Forum. 1038 (2021) 15–24
Online since: September 2012
Authors: Katsuyuki Kida, Takashi Honda, Takuya Shibukawa, Koshiro Mizobe, Hitonobu Koike, Edson Costa Santos
Kikuchi: Metallurgical and Materials Trans A, Vol. 15, No. 7 (1984),
pp. 1431-1436
[5] Y.
Grange: Metallurgical and Materials Trans.
Tamura: Metallurgical and Materials Trans.
Bozo: Journal of Materials Processing Technology, Vol. 155, No. 156 (2004), pp. 1704-1707 [14] T.
Yamamoto: Materials Science Forum, Vols. 561-565 (2007), pp. 2345-2348 [15] C.
Grange: Metallurgical and Materials Trans.
Tamura: Metallurgical and Materials Trans.
Bozo: Journal of Materials Processing Technology, Vol. 155, No. 156 (2004), pp. 1704-1707 [14] T.
Yamamoto: Materials Science Forum, Vols. 561-565 (2007), pp. 2345-2348 [15] C.
Online since: May 2014
Authors: Holger Aretz, Frédéric Barlat
Influence of Contact Friction on the Experimental Determination of the
Balanced Biaxial Strain-Ratio Using the Disc Compression Test
Holger Aretza,∗, Frédéric Barlatb
aHydro Aluminium Rolled Products GmbH, Research & Development,
Georg-von-Boeselager-Str. 21, 53117 Bonn, Germany
b Graduate Institute of Ferrous Technology (GIFT), Pohang University of Science and Technology,
San 31 Hyoja-dong, Nam-gu, Pohang, Gyeongbuk, 790-784, Korea
aholger.aretz@hydro.com, bf.barlat@postech.ac.kr, ∗corresponding author
Keywords: Sheet Forming, Materials Characterization, Anisotropy, Disc Compression Test, Materials
Modelling, Yield Function
Abstract.
This ability of flexible yield functions underlines their importance in materials modelling and analyzing thereof.
Aretz: An extension of Hill's localized necking model, International Journal of Engineering Science 48 (2010) 312-331 [2] H.
Barlat: Unconditionally convex yield functions for sheet metal forming based on linear stress deviator transformation, Key Engineering Materials 504-506 (2012) 667-672 [3] H.
Brinkman: A simple ductile failure model with application to AA5182 aluminium sheet forming, International Journal of Material Forming, in press, DOI 10.1007/s12289-013-1127-x [5] F.
This ability of flexible yield functions underlines their importance in materials modelling and analyzing thereof.
Aretz: An extension of Hill's localized necking model, International Journal of Engineering Science 48 (2010) 312-331 [2] H.
Barlat: Unconditionally convex yield functions for sheet metal forming based on linear stress deviator transformation, Key Engineering Materials 504-506 (2012) 667-672 [3] H.
Brinkman: A simple ductile failure model with application to AA5182 aluminium sheet forming, International Journal of Material Forming, in press, DOI 10.1007/s12289-013-1127-x [5] F.
Online since: July 2016
Authors: Jaime Gonzalez, Christian Carloni, Tommaso D'Antino, Carlo Pellegrino, Lesley H. Sneed
In recent decades the growing need for strengthening and retrofitting existing structures has led to the development of innovative strengthening materials.
Materials employed.
The FRMC materials employed in this study were commercially available from a single manufacturer.
G&P Intech of Altavilla Vicentina, Italy, is gratefully acknowledged for providing the FRCM composite materials.
ACI Material Journal, Vol. 111, No. 1-6, 2014, pp.1-12
Materials employed.
The FRMC materials employed in this study were commercially available from a single manufacturer.
G&P Intech of Altavilla Vicentina, Italy, is gratefully acknowledged for providing the FRCM composite materials.
ACI Material Journal, Vol. 111, No. 1-6, 2014, pp.1-12
Online since: July 2011
Authors: Shou Yi Bi, Xing Pei Liang, Chang Bing Chen
Powders are not only important raw materials, but also important products.
The tangential friction between wall and bulk materials can be written as Eq. 3
A numerical model for flow of granular materials in silos, Part 2: Model validation.
Finite Deformation Analysis of Motion of Bulk Materials in silo.
Granular Flow of Materials in silos: Numerical results.
The tangential friction between wall and bulk materials can be written as Eq. 3
A numerical model for flow of granular materials in silos, Part 2: Model validation.
Finite Deformation Analysis of Motion of Bulk Materials in silo.
Granular Flow of Materials in silos: Numerical results.
Online since: October 2013
Authors: Lian Chun Long, Hai Hong Liu
The interaction between laser and material has been attracted a wide attention.
Qiang [3] studied the interaction between power laser and target material.
Fig.1 Finite element model of the grid-stiffened cylindrical shell Fig.2 Boundary conditions 2.2 Material properties The material properties that vary with temperature were considered.
[2] Li Junchang, Laser Diffraction and Thermal Effect, Beijing: Science Press.2002 [3] Qiang Xiwen, Investigation on mechanical effects of laser target interaction, Laser & Infrared. 2000(03): 141-144
Buckling analysis of cylindrical shell under laser irradiation, Chinese Journal of Computational Mechanics.2008;25:124-128
Qiang [3] studied the interaction between power laser and target material.
Fig.1 Finite element model of the grid-stiffened cylindrical shell Fig.2 Boundary conditions 2.2 Material properties The material properties that vary with temperature were considered.
[2] Li Junchang, Laser Diffraction and Thermal Effect, Beijing: Science Press.2002 [3] Qiang Xiwen, Investigation on mechanical effects of laser target interaction, Laser & Infrared. 2000(03): 141-144
Buckling analysis of cylindrical shell under laser irradiation, Chinese Journal of Computational Mechanics.2008;25:124-128