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Online since: May 2011
Authors: Yong Yao, Dai Guo Chen, Lu Cheng, Bin Jia
[2] TIAN Kan-liang, ZHANG Hui-li, LUO Ya-sheng: SHEAR STRENGTH AND STRESS-STRAIN PROPERTIES OF ROCKFILL MATERIALS.
(Chinese Journal of Rock Mechanics and Engineering. 2005,24(4): 657-661
(Journal of Hydraulic Engineering. 1982(9): 22-31
) [6] Si Hongyang: Determination of Duncan model parameters of shell materials in earth and rockfill dam.
) [7] Liu Mengcheng; GaoYufeng; Liu Hanlong; Chen Yuanhong: LARGE-SCALE TRIAXIAL TEST STUDY ON DEFORMATION AND STRENGTH CHARACTERISTICS OF ROCKFILL MATERIALS.
(Chinese Journal of Rock Mechanics and Engineering. 2005,24(4): 657-661
(Journal of Hydraulic Engineering. 1982(9): 22-31
) [6] Si Hongyang: Determination of Duncan model parameters of shell materials in earth and rockfill dam.
) [7] Liu Mengcheng; GaoYufeng; Liu Hanlong; Chen Yuanhong: LARGE-SCALE TRIAXIAL TEST STUDY ON DEFORMATION AND STRENGTH CHARACTERISTICS OF ROCKFILL MATERIALS.
Online since: January 2015
Authors: Qing Rui Yue, Biao Li, Yan Hong Zhang, Peng Fei Chen, Yong Xin Yang
In Materials and Product Technology, 2005, 23(3-4): 348-371
ACI Materials Journal 2002, 99(2): 129-137
Journal of Building Structure.2009,30(6),8-14
Russian Journal Of General Chemistry, 2011, 81(5): 970-977
Mechanics of Composite Materials, 1991, 26 (4):480-484
ACI Materials Journal 2002, 99(2): 129-137
Journal of Building Structure.2009,30(6),8-14
Russian Journal Of General Chemistry, 2011, 81(5): 970-977
Mechanics of Composite Materials, 1991, 26 (4):480-484
Online since: June 2012
Authors: L. Chen, X.M. Liu, F.X. Huang, J. Chen
Dai: Applied Surface Science Vol. 256 (2010) , p. 4709
[2] J.
Guan: Chinese Journal of Lasers Vol. 6 (A26) (1999), p. 565 [4] Q.M.
Liu: Rare Metal Materials and Engineering Vol. 7 (32) (2003), p. 550 [5] S.
Su: Rare Metal Materials and Engineering Vol. 10 (34) (2005), p. 1520 [9] X.M.
Guan: Chinese Journal of Lasers Vol. 5 (A26) (1999), p. 470 [10] X.M.
Guan: Chinese Journal of Lasers Vol. 6 (A26) (1999), p. 565 [4] Q.M.
Liu: Rare Metal Materials and Engineering Vol. 7 (32) (2003), p. 550 [5] S.
Su: Rare Metal Materials and Engineering Vol. 10 (34) (2005), p. 1520 [9] X.M.
Guan: Chinese Journal of Lasers Vol. 5 (A26) (1999), p. 470 [10] X.M.
Online since: August 2014
Authors: Jin Ju, Hu Zhu, Yi Bo Liu
Acknowledgements
This work was financially supported by the National Natural Science Foundation of China (No. 51175351).
Tisza: Journal of Achievements in Materials and Manufacturing Engineering Vol. 55(2012), p. 113-119
Filice: Journal of Materials Processing Technology Vol. 191(2007), p. 390-395
Kim: Journal of Materials Processing Technology Vol. 140(2003), p. 447-453
Bai: Advanced Materials Research Vol. 421 (2012), p. 325-328.
Tisza: Journal of Achievements in Materials and Manufacturing Engineering Vol. 55(2012), p. 113-119
Filice: Journal of Materials Processing Technology Vol. 191(2007), p. 390-395
Kim: Journal of Materials Processing Technology Vol. 140(2003), p. 447-453
Bai: Advanced Materials Research Vol. 421 (2012), p. 325-328.
Online since: October 2019
Authors: Ana Catarina Lopes, Miguel Llano, Andoni Lasheras, Jorge Feuchtwanger, Ariane Sagasti, Jon Gutierrez
Introduction
Amorphous ferromagnetic alloys or metallic glasses have proved to be interesting materials due to their structural and magneto-mechanical properties.
In these kind of materials magnetic and elastic properties are coupled through the magnetostriction and due to this phenomenon they are considered technological interesting materials [1, 2, 3].
Materials 10 (2017) 849 (17p).
Nanostructured Materials 10 (1998) 449-456.
Journal of Non−Crystalline Solids 287 (2001) 428-431.
In these kind of materials magnetic and elastic properties are coupled through the magnetostriction and due to this phenomenon they are considered technological interesting materials [1, 2, 3].
Materials 10 (2017) 849 (17p).
Nanostructured Materials 10 (1998) 449-456.
Journal of Non−Crystalline Solids 287 (2001) 428-431.
Online since: September 2016
Authors: Hong Wei Yang, Cheng Cheng Zhang, Jing Yun Gao, Shen Zhi Zhang, Hong Yu Qi
Beijing Science Press (2007) 25-26
Journal of Alloys and Compounds. (2005). 402. 237-241
Journal of Central South University (2008) 15(S2) 372-376
Beijing Science Press (2010) 319-326
China Aeronautical Materials Handbook (Version 2).
Journal of Alloys and Compounds. (2005). 402. 237-241
Journal of Central South University (2008) 15(S2) 372-376
Beijing Science Press (2010) 319-326
China Aeronautical Materials Handbook (Version 2).
Online since: September 2020
Authors: Yan Li, Ren Dong Liu, Rong Sheng Sun, Jian Jun Zhang, Shun Da Cai, Lei Xia, Xiao Long Jin
Acknowledgments
The authors are grateful for the financial supports from the University of Science and Technology Liaoning Talent Project Grants (No.601010314) and the University of Science and Technology Liaoning Young Teachers Fund (2019QN08).
Journal of Materials Processing Technology, 2015, 216:357-368
Advanced Materials Research, 228-229:321-326
Materials Science Forum, 2015, 817:219-224
Journal of Materials Processing Technology, 140(1-3):569-575
Journal of Materials Processing Technology, 2015, 216:357-368
Advanced Materials Research, 228-229:321-326
Materials Science Forum, 2015, 817:219-224
Journal of Materials Processing Technology, 140(1-3):569-575
Online since: December 2007
Authors: Małgorzata Karolus, Eugeniusz Łągiewka, Edward Rówiński
The codeposition of alloys with polymers or polymerisation with alloys
codeposition has created new opportunities in the preparation of novel composite materials.
Conductive polymers have been investigated for use as the electrode materials for a number of applications including rechargeable batteries, electrochemical sensors etc.
Such materials were annealed in the temperature of 1000 °C in an argon atmosphere or in an air atmosphere by 1 hour.
Budniok, Journal of Achivements in Materials and Manufacturing Engineering, Vol. 16, Issue 1-2 (2006) 25 - 29
Łągiewka, Journal of Achivements in Materials and Manufacturing Engineering, Vol. 18, Issue 1-2 (2006) 119 - 122
Conductive polymers have been investigated for use as the electrode materials for a number of applications including rechargeable batteries, electrochemical sensors etc.
Such materials were annealed in the temperature of 1000 °C in an argon atmosphere or in an air atmosphere by 1 hour.
Budniok, Journal of Achivements in Materials and Manufacturing Engineering, Vol. 16, Issue 1-2 (2006) 25 - 29
Łągiewka, Journal of Achivements in Materials and Manufacturing Engineering, Vol. 18, Issue 1-2 (2006) 119 - 122
Online since: December 2010
Authors: Yong Hu, Hong Yan, Li Rao
Introduction
In recent years, there has been an increasing growth of light-weight materials which can be used as structural materials in the engineering applications where weight saving is critical for improved performance.
Magnesium and its alloys owing to their attractive physical properties have been potential candidates for light-weight structural materials.
Typical difference between coefficients of thermal expansion AM60 magnesium alloy and reinforcing phase Mg2Si will cause the higher dislocation density generated in materials.
Vol.36A (2005),p.2235 [6] G Y Yuan, Y S Sun and Z Wang: The Chinese Journal of Nonfeerous Metals Vol. 9(1999),p.779 [7] J F Li, H R Geng and Z X Yang: Foundry Vol.54(2005),p.53 [8] X F Huang, Q D Wang and X Q Zeng: Journal of the Chinese Rare Earth Society Vol.22(2004),p.93 [9] M Mabuchi and K Higashi: Acta.
Vol.44 (1996),p.4611 [10] G D Zhang and C Z Zhao: Metal matrix composites (Shanghai Jiaotong University Press, China 1996) [11] J S Pan, J M Tong and M B Tian: Materials science foundation (Tsinghua University Press, China 1998)
Magnesium and its alloys owing to their attractive physical properties have been potential candidates for light-weight structural materials.
Typical difference between coefficients of thermal expansion AM60 magnesium alloy and reinforcing phase Mg2Si will cause the higher dislocation density generated in materials.
Vol.36A (2005),p.2235 [6] G Y Yuan, Y S Sun and Z Wang: The Chinese Journal of Nonfeerous Metals Vol. 9(1999),p.779 [7] J F Li, H R Geng and Z X Yang: Foundry Vol.54(2005),p.53 [8] X F Huang, Q D Wang and X Q Zeng: Journal of the Chinese Rare Earth Society Vol.22(2004),p.93 [9] M Mabuchi and K Higashi: Acta.
Vol.44 (1996),p.4611 [10] G D Zhang and C Z Zhao: Metal matrix composites (Shanghai Jiaotong University Press, China 1996) [11] J S Pan, J M Tong and M B Tian: Materials science foundation (Tsinghua University Press, China 1998)
Online since: December 2013
Authors: Jian Yun He, Qiang Wang, Yong Liu, Li Chen He
Introduction
Waterborne UV-curing materials has a lot of advantage [1]
, such as; environmental friendly, economic, energy-saving, high efficient, excellent in film properties, which is the developing direction of new environmental protection materials.
Thus a lot of research work has been down in the improvement of waterborne UV-curing materials, especially waterborne UV-curing polyurethane acrylate coatings.
Dual-curing method was introduced to improve the water resistance, hardness and adhesion of waterborne UV-curing materials by Yang Jianwen, etc [6].
Journal of Suzhou University:Natural Science, 2000, 16 (2):66-71.
Chen, Polyurethane acrylates grafted acrylic resins as photocurable water-borne coatings [J] Chinese Journal of Materials Research. 2000, 14 (1): 109-112.
Thus a lot of research work has been down in the improvement of waterborne UV-curing materials, especially waterborne UV-curing polyurethane acrylate coatings.
Dual-curing method was introduced to improve the water resistance, hardness and adhesion of waterborne UV-curing materials by Yang Jianwen, etc [6].
Journal of Suzhou University:Natural Science, 2000, 16 (2):66-71.
Chen, Polyurethane acrylates grafted acrylic resins as photocurable water-borne coatings [J] Chinese Journal of Materials Research. 2000, 14 (1): 109-112.