Sort by:
Publication Type:
Open access:
Publication Date:
Periodicals:
Search results
Online since: May 2013
Authors: Jian Xiong Yang, Zhong Yao Huang, Li Hai Cai
Miraftab: Journal of materials science, Vol. 26 (1991) No. 11, p. 1661
Bunsell: Journal of Materials Science, Vol.17 (1982) No. 8, p.2391
Bunsell: Journal of Materials Science, Vol. 10(1975), No. 8, p.1300
Wong: Journal of Materials Science, Vol. 12 (1977) No. 12, p.2447
Rose, Journal of Materials Science, Vol. 9 (1974) No. 11, p.1809
Bunsell: Journal of Materials Science, Vol.17 (1982) No. 8, p.2391
Bunsell: Journal of Materials Science, Vol. 10(1975), No. 8, p.1300
Wong: Journal of Materials Science, Vol. 12 (1977) No. 12, p.2447
Rose, Journal of Materials Science, Vol. 9 (1974) No. 11, p.1809
Online since: June 2011
Authors: Zone Ching Lin, Jia Rong Ye
Acknowledgements
The authors thank National Science Council (grant number NSC-96-2221-E-011-106-MY3) supporting this research.
7.
Moon, “A study on microcutting for the configuration of tools using molecular dynamics,” Journal of Materials Processing Technology , Vol.59, No.4, pp. 309-314(1995)
Hu, “A study on mechanism of nano-cutting single crystal silicon,” Journal of Materials Processing Technology, Vol.184, No.1-3, pp. 407-410(2007)
Wu, “Nanometric cutting of copper: A molecular dynamics study,” Computational Materials Science, Vol.37, No.4, pp.434-441(2006)
Tan, “Study of Nanoindentation Using FEM Atomic Model,” Journal of Tribology, v 126, pp. 767-774(2004)
Moon, “A study on microcutting for the configuration of tools using molecular dynamics,” Journal of Materials Processing Technology , Vol.59, No.4, pp. 309-314(1995)
Hu, “A study on mechanism of nano-cutting single crystal silicon,” Journal of Materials Processing Technology, Vol.184, No.1-3, pp. 407-410(2007)
Wu, “Nanometric cutting of copper: A molecular dynamics study,” Computational Materials Science, Vol.37, No.4, pp.434-441(2006)
Tan, “Study of Nanoindentation Using FEM Atomic Model,” Journal of Tribology, v 126, pp. 767-774(2004)
Online since: September 2011
Authors: Adam Niesłony, Andrzej Kurek
In many papers we can find the data proving that this assumption is not correct for some materials [8, 9].
Table 2 contain constants according to the selected material and those obtained for particular materials according to the equations of compatibility (10) and (11).
Suitable material tests and a good choice of the approximating equations should provide a correct description of fatigue properties of constructional materials.
Materials, Vol. 5, 1970, pp. 767-776 [13] ASTM Standard E606-92: Standard practice for strain-controlled fatigue testing.
ASTM; 1997, p. 523-37 [14] Bäumel A. and Seeger T.: Material Data for Cyclic Loading, Materials Science Monographs, 61, Elsevier Science Publishers, Amsterdam, 1990 [15] Ramberg W. and Osgood W.R.: Description of stress-strain curves by three parameters, Technical Note No. 902, National Advisory Committee for Aeronautics, Washington DC, 1943 [16] Plumtree A. and Abdel-Raouf H.A.: Cyclic stress–strain response and substructure, International Journal of Fatigue, Vol. 23, 2001, pp. 799-805 [17] Niesłony A., El Dsoki Ch., Kaufmann H., Krug P.: New method for evaluation of the Manson-Coffin-Basquin and Ramberg-Osgood equations with respect to compatibility, International Journal of Fatigue, Vol. 30, 2008, pp. 1967-1977 [18] Niesłony A., Kurek A., El Dsoki Ch. and Kaufmann H.: A study of compatibility between two classical fatigue curve models based on some selected structural materials, International Journal of Fatigue, 2011, Available online doi:10.1016/j.ijfatigue.2011.03.002
Table 2 contain constants according to the selected material and those obtained for particular materials according to the equations of compatibility (10) and (11).
Suitable material tests and a good choice of the approximating equations should provide a correct description of fatigue properties of constructional materials.
Materials, Vol. 5, 1970, pp. 767-776 [13] ASTM Standard E606-92: Standard practice for strain-controlled fatigue testing.
ASTM; 1997, p. 523-37 [14] Bäumel A. and Seeger T.: Material Data for Cyclic Loading, Materials Science Monographs, 61, Elsevier Science Publishers, Amsterdam, 1990 [15] Ramberg W. and Osgood W.R.: Description of stress-strain curves by three parameters, Technical Note No. 902, National Advisory Committee for Aeronautics, Washington DC, 1943 [16] Plumtree A. and Abdel-Raouf H.A.: Cyclic stress–strain response and substructure, International Journal of Fatigue, Vol. 23, 2001, pp. 799-805 [17] Niesłony A., El Dsoki Ch., Kaufmann H., Krug P.: New method for evaluation of the Manson-Coffin-Basquin and Ramberg-Osgood equations with respect to compatibility, International Journal of Fatigue, Vol. 30, 2008, pp. 1967-1977 [18] Niesłony A., Kurek A., El Dsoki Ch. and Kaufmann H.: A study of compatibility between two classical fatigue curve models based on some selected structural materials, International Journal of Fatigue, 2011, Available online doi:10.1016/j.ijfatigue.2011.03.002
Online since: November 2018
Authors: Getahun Aklilu, Sarp Adali, Glen Bright
Materials and Methods
Materials.
Bowles, Stephen Frimpong, Void Effects on the Interlaminar Shear Strength of Unidirectional Graphite-Fiber-Reinforced Composites, Journal of Composite Materials, 26 (1992) 1487-1509
Inplane and Interlaminar Shear Behavior of Graphite/Epoxy Composites, Journal of Composite Materials, 25 (1991) 932-957
Marconi, Dynamic Mechanical Analysis of Particulate-Filled Epoxy Resin, Journal of Applied Polymer Science, 88 (2013) 883-892
Evans, Laminate theory analysis of composites under load in fire, Journal of Composite Materials, 40 (2006) 639-659.
Bowles, Stephen Frimpong, Void Effects on the Interlaminar Shear Strength of Unidirectional Graphite-Fiber-Reinforced Composites, Journal of Composite Materials, 26 (1992) 1487-1509
Inplane and Interlaminar Shear Behavior of Graphite/Epoxy Composites, Journal of Composite Materials, 25 (1991) 932-957
Marconi, Dynamic Mechanical Analysis of Particulate-Filled Epoxy Resin, Journal of Applied Polymer Science, 88 (2013) 883-892
Evans, Laminate theory analysis of composites under load in fire, Journal of Composite Materials, 40 (2006) 639-659.
Online since: May 2025
Authors: M. O. H. Amuda, Waidi Saka, Taiwo F. Lawal
Materials Science and Engineering, 790, 139685
Journal of Materials Science and Technology, 33(4), 359–366
Reference Module in Material Science and Materials.
Materials Science and Engineering, 803, 140476
Journal of Materials Science & Technology, 34(5), 737-744
Journal of Materials Science and Technology, 33(4), 359–366
Reference Module in Material Science and Materials.
Materials Science and Engineering, 803, 140476
Journal of Materials Science & Technology, 34(5), 737-744
Online since: January 2020
Authors: Aleksey I. Khatsrinov, Lenar N. Shafigullin, Alsu Yusupova
This modified filler was a part of sulfide materials.
EPR-measurements of silicate containing materials No.
Lakhno, Production and investigation of properties of sulfide composite materials based on technogenic sulfur waste with titanium chloride as an activator, Research Journal of Pharmaceutical, Biological and Chemical Sciences. 6 (2016) 1614-1619
Goretyi, Sulfur-based construction materials, Penza, 2003
Sciences, Moscow, 2000
EPR-measurements of silicate containing materials No.
Lakhno, Production and investigation of properties of sulfide composite materials based on technogenic sulfur waste with titanium chloride as an activator, Research Journal of Pharmaceutical, Biological and Chemical Sciences. 6 (2016) 1614-1619
Goretyi, Sulfur-based construction materials, Penza, 2003
Sciences, Moscow, 2000
Preparation for Spherical Humidity Control Composite Materials and their Humidity Control Properties
Online since: January 2013
Authors: Zhi Wen Hu, Zhi Qin Peng, Peng Fei Xu, Dun Huang, Ning Yu, Qing Qing Yao
These preparations make the humidity performances of materials improved to some extent.
Experimental Materials.
[2] Jialie Cao, Xiyun Luo, Wenqing Zhang, Laiming Wu, Journal of functional Materials, 40 (2009) 1742-1746, In Chinese
Materials Letters, 65 (2011) 940-943
European Polymer Journal, 44 (2008) 1209-1216
Experimental Materials.
[2] Jialie Cao, Xiyun Luo, Wenqing Zhang, Laiming Wu, Journal of functional Materials, 40 (2009) 1742-1746, In Chinese
Materials Letters, 65 (2011) 940-943
European Polymer Journal, 44 (2008) 1209-1216
Online since: November 2011
Authors: Li Li, Er Bao Liu, Zhen Li, Wan Tao Guo, Muhammad Iqbal Sabir
D.: Journal of Composite Materials Vol. 28 (1994), p.112
B.: Journal of Composite Materials Vol. 33 (1999), p. 1457-1469
:Journal of Composite Materials Vol. 28 (1994), p.1840-1854
:Mechanics of Advanced Materials and Structures, Vol.10 (2003),p. 43–75
:Development and Application of Materials, Vol. 14 (1992), p. 9-14.
B.: Journal of Composite Materials Vol. 33 (1999), p. 1457-1469
:Journal of Composite Materials Vol. 28 (1994), p.1840-1854
:Mechanics of Advanced Materials and Structures, Vol.10 (2003),p. 43–75
:Development and Application of Materials, Vol. 14 (1992), p. 9-14.
Online since: April 2013
Authors: Bing Tao Tang, Yun Ming Wang, Shu Fen Zhang
Zhang, Solar Energy Materials and Solar Cells, 105 (2012), 242-248
Meng, Journal of Power Sources, 195 (2010), 7684-7690
Cheng, Solar Energy Materials and Solar Cells, 102 (2012), 36-43
Biçer, Solar Energy Materials and Solar Cells, 101 (2012), 114-122
Lu, Solar Energy Materials and Solar Cells, 96 (2012), 202-209
Meng, Journal of Power Sources, 195 (2010), 7684-7690
Cheng, Solar Energy Materials and Solar Cells, 102 (2012), 36-43
Biçer, Solar Energy Materials and Solar Cells, 101 (2012), 114-122
Lu, Solar Energy Materials and Solar Cells, 96 (2012), 202-209
Online since: March 2012
Authors: Ai Qin Wang, Zeng Lei Ni, Li Jun Zhang, Ming Fang, Jing Pei Xie
Henan University of Science and Technology, Luoyang 471003, China Email:aiqin_wang888@163.com
Key Words: Hot-pressing, Thermal expansion, SiC/Al-30Si Composite Materials
Abstract.
This material can be prepared by hot extrusion, because of the excellent comprehensive property of Al base composite material.
Effect of Particle Size on Microstructure and Property of High-silicon Aluminum Alloy[J].Materials Science & Technology.2006,14(3):268~271 [4] Cai Yang, Zheng Zi-qiao, etc, The Technique and Mechanism to Fabricate lightweight Si-Al Composites for Electronic Packaging[J].Powder Metallurgy Technology.2004,22(3):168~172 [5] Li Jin-jun, Yu Jia-kang.
Thermal Expansion Properties of The Al-based Composites Enhanced by SiC[J].Journal of Shan Xi University of Science & Technology.2007,25(2):74~78 [6] Isamu Yamauchi, Itsuo Ohnaka , Hot Extrusion of Rapidly Solidified Al-Si Alloy power by the Rotating-Water-Atomization-Process, Transactions of the Japan institute of Metals, 1986, 27(3):195~203 [7] Lin Feng, Feng Xi, etc, Research on High Performance Novel Electronic Packing Materials of Silicon-based Aluminum.
Material Review.2006,20(3):107~111 [8] Feng Xi, Yang ying-xin, etc, Effect of Pressure on Properties of Si-Al Electronic Packaging Materials[J].Casting Technique.2009,30(3):370~373
This material can be prepared by hot extrusion, because of the excellent comprehensive property of Al base composite material.
Effect of Particle Size on Microstructure and Property of High-silicon Aluminum Alloy[J].Materials Science & Technology.2006,14(3):268~271 [4] Cai Yang, Zheng Zi-qiao, etc, The Technique and Mechanism to Fabricate lightweight Si-Al Composites for Electronic Packaging[J].Powder Metallurgy Technology.2004,22(3):168~172 [5] Li Jin-jun, Yu Jia-kang.
Thermal Expansion Properties of The Al-based Composites Enhanced by SiC[J].Journal of Shan Xi University of Science & Technology.2007,25(2):74~78 [6] Isamu Yamauchi, Itsuo Ohnaka , Hot Extrusion of Rapidly Solidified Al-Si Alloy power by the Rotating-Water-Atomization-Process, Transactions of the Japan institute of Metals, 1986, 27(3):195~203 [7] Lin Feng, Feng Xi, etc, Research on High Performance Novel Electronic Packing Materials of Silicon-based Aluminum.
Material Review.2006,20(3):107~111 [8] Feng Xi, Yang ying-xin, etc, Effect of Pressure on Properties of Si-Al Electronic Packaging Materials[J].Casting Technique.2009,30(3):370~373