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Online since: April 2016
Authors: Rong Jin, Bi Tao Liu, Liang Sheng Ge, Jia Fu Xu, Liu Yang, Ming Jing Tu
Research Development in Synthesis Methods of Silver Nanowires
Bi Tao Liu1,a, Liang-sheng Ge1,2,b, Jia-fu Xu1,2,c, Rong Jin1,d*, Liu Yang1,e
and Ming-jing Tu1,f
1Research Institute for New Materials Technology, Chongqing University of Arts and Sciences, Yongchuan Chongqing 402160, China
2Institute of Materials and Chemica, Chongqing University of Arts and Sciences, Yongchuan Chongqing 402160, China
aXCLLiu@sina.com, bglsmly@sina.com, cxjfmly@sina.com, drong516112@sian.com, exclyl007@sian.com, ftmjxcl@sina.com
Keywords: Silver nanowires, Synthesis method, Applicaton
Abstract.
[9] Yang Rui, Dong Guocheng, Shao Chen: Journal of molecular science, 2008, 24(6): 436-438 [10] Hu Zhongai, Xu Tao, Li Hulin, et al: Meterials Science and Engineering A, 2004, 371: 236-240
Martin: Science, 1994, 263(23): 1961-1966
[14] Zhao Jianpo, Tian Baoli, Wan Shaoming, et al: Journal of functional materials, 2009,7(40):1208-1210
[20] Luo Chao, Dai Ying: Journal of Xihua University, 2008, 27(6):70-72
[9] Yang Rui, Dong Guocheng, Shao Chen: Journal of molecular science, 2008, 24(6): 436-438 [10] Hu Zhongai, Xu Tao, Li Hulin, et al: Meterials Science and Engineering A, 2004, 371: 236-240
Martin: Science, 1994, 263(23): 1961-1966
[14] Zhao Jianpo, Tian Baoli, Wan Shaoming, et al: Journal of functional materials, 2009,7(40):1208-1210
[20] Luo Chao, Dai Ying: Journal of Xihua University, 2008, 27(6):70-72
Online since: March 2010
Authors: Silvio Romero de Barros, Sandro Marden Torres, João Regis De Souza, Normando Perazzo Barbosa, Kelly Cristiane Gomes
In this sense, the study
of adhesive properties of thermally stable materials as the geopolymers becomes a need.
Also, the main precursors are based on materials such as clays and industrial residues such as fly ash [6,7].
[5]V.F.F Barbosa, K.J.D Mackenzie: Materials Research Bulletin Vol 38 (2002), p. 319
Thaumaturgo: International Journal of Inorganic Materials Vol. 2 (2000), p. 309
R Escott, D.J Cassidy: Journal of Material Science.
Also, the main precursors are based on materials such as clays and industrial residues such as fly ash [6,7].
[5]V.F.F Barbosa, K.J.D Mackenzie: Materials Research Bulletin Vol 38 (2002), p. 319
Thaumaturgo: International Journal of Inorganic Materials Vol. 2 (2000), p. 309
R Escott, D.J Cassidy: Journal of Material Science.
Online since: January 2014
Authors: Shamsul Baharin Jamaludin, W. Rahman, Mazlee Mohd Noor
All materials were supplied by the Sigma Aldrich Chemistry, Sweden.
Use of microwaves for the synthesis and processing of materials, Bulletin of Material Science 1995;18:447
Microwave sintering of nanocrystalline WC- 12Co: Challenges and perspectives, International Journal of Refractory Metals and Hard Materials. 2010;28:180-6
Journal of the Minerals, Metals and Materials Society. 2000;52:38-40
Journal of Refractory Metals and Hard Materials 35 (2012) 138.
Use of microwaves for the synthesis and processing of materials, Bulletin of Material Science 1995;18:447
Microwave sintering of nanocrystalline WC- 12Co: Challenges and perspectives, International Journal of Refractory Metals and Hard Materials. 2010;28:180-6
Journal of the Minerals, Metals and Materials Society. 2000;52:38-40
Journal of Refractory Metals and Hard Materials 35 (2012) 138.
Online since: August 2024
Authors: Mohamed Azzaz, Warda Laslouni, Ahmed Haddad, Hanane Mechri, Zineb Hamlati
The Cu70 Fe30 samples were elaborated and compacted at Materials Science and Engineering Laboratory, USTHB.The formatting process consisted of two steps.
This analysis, XRD and SEM were also carried out at the Materials Science and Engineering Laboratory.
International Journal of Computational and Experimental Science and Engineering 2(2): 24– 27
Emerging Materials Research (2019) 8(4): 552–557
Taekim, materials sciences and engineer A304-306 (2001), pp 928-931
This analysis, XRD and SEM were also carried out at the Materials Science and Engineering Laboratory.
International Journal of Computational and Experimental Science and Engineering 2(2): 24– 27
Emerging Materials Research (2019) 8(4): 552–557
Taekim, materials sciences and engineer A304-306 (2001), pp 928-931
Online since: December 2024
Authors: Shun Yong Zhang, Yan Dan Chen, Ya Hui Shi, Ji Cheng Li, Xi Cheng Huang
Geometric modeling of the representative zone, (a1-a3) is materials with VV = 30%, and (b1-b3) is materials with VV = 60%.
Material parameters for different materials.
Effective stress cloud within various materials at a press-in of 600 nm.
References [1] Pan X, Jia C, Ji Z, and Qiu C 2023 Microstructural evolution and dynamic recrystallization mechanism of a heavily-alloyed Ni-based superalloy during hot extrusion Journal of Materials Research and Technology 23 4922-37 [2] Li D, Liu J, Sun Y, Huang W-Q, Li N, and Yang L 2023 Microstructure and mechanical degradation of K403 Ni-based superalloy from ultra-long-term serviced turbine blade Journal of Alloys and Compounds 957 170378 [3] Xu J, Zhao X, Li W, Liu H, Yue Q, Duan H, Gu Y and Zhang Z 2023 Aging process design based on the morphological evolution of γ′ precipitates in a 4th generation nickel-based single crystal superalloy Journal of Materials Science & Technology 147 176-88 [4] Li B, Zhang S, Essa F A, Dong C, Yu J and Zhang Q 2018 Crack Propagation and Microstructural Evolution of Ni-based Single Crystal Alloy Under Shear Loads Rare Metal Materials and Engineering 47 1370-6 [5] Jiang Y, Yue H, Li Q, Ding G, and Wang X 2023 Study on the Machinability of Ni-Based
Superalloy by Milling Parameters and Cooling Methods under Minimal Quantity Lubrication Applied Sciences 13 2773 [6] Zhang S Y, Zhao J F, Liang Y X, Li J C, and Huang X C 2024 Degradation and anisotropy characteristics of fracture toughness in Ni-based superalloys after phase coarsening Materials Science and Engineering: A 889 145852
Material parameters for different materials.
Effective stress cloud within various materials at a press-in of 600 nm.
References [1] Pan X, Jia C, Ji Z, and Qiu C 2023 Microstructural evolution and dynamic recrystallization mechanism of a heavily-alloyed Ni-based superalloy during hot extrusion Journal of Materials Research and Technology 23 4922-37 [2] Li D, Liu J, Sun Y, Huang W-Q, Li N, and Yang L 2023 Microstructure and mechanical degradation of K403 Ni-based superalloy from ultra-long-term serviced turbine blade Journal of Alloys and Compounds 957 170378 [3] Xu J, Zhao X, Li W, Liu H, Yue Q, Duan H, Gu Y and Zhang Z 2023 Aging process design based on the morphological evolution of γ′ precipitates in a 4th generation nickel-based single crystal superalloy Journal of Materials Science & Technology 147 176-88 [4] Li B, Zhang S, Essa F A, Dong C, Yu J and Zhang Q 2018 Crack Propagation and Microstructural Evolution of Ni-based Single Crystal Alloy Under Shear Loads Rare Metal Materials and Engineering 47 1370-6 [5] Jiang Y, Yue H, Li Q, Ding G, and Wang X 2023 Study on the Machinability of Ni-Based
Superalloy by Milling Parameters and Cooling Methods under Minimal Quantity Lubrication Applied Sciences 13 2773 [6] Zhang S Y, Zhao J F, Liang Y X, Li J C, and Huang X C 2024 Degradation and anisotropy characteristics of fracture toughness in Ni-based superalloys after phase coarsening Materials Science and Engineering: A 889 145852
Online since: January 2020
Authors: Meng Meng Qiao, Mu Huo Yu, Hai Juan Kong, Zhi Feng Hu, Xiao Ma Ding
Study on the Crystallization Behavior of PAN Fibers during Hot-Drawing Process in Supercritical Carbon Dioxide Fluid with Different Strain
Mengmeng Qiao1,a, Haijuan Kong2,b, Xiaoma Ding1,c, Zhifeng Hu1,d,
and Muhuo Yu1,e*
1State Key Laboratory for Modification of Chemical Fibers and Polymer Materials, College of Materials Science and Engineering, Shanghai Key Laboratory of Lightweight Composite, Donghua University, Shanghai 201620, China
2School of Materials Engineer, Shanghai University of Engineer Science, Shanghai 201620, China
a2160320@mail.dhu.edu.cn, bKonghaijuan@sues.edu.cn, c1159124@mail.dhu.edu.cn, d2160226@mail.dhu.edu.cn, edhuyumuhuo@163.com
Keyword: Polyacrylonitrile fibers, X-ray diffraction, crystallization behavior, supercritical carbon dioxide fluid, hot-drawing
Abstract.
Experimental Materials.
Materials Science Forum, 921 (2018), 85-90
Journal of Materials Science, 49 (2014), 191-198
Encyclopedia/handbook of materials, parts, and finishes [J]. (1976)
Experimental Materials.
Materials Science Forum, 921 (2018), 85-90
Journal of Materials Science, 49 (2014), 191-198
Encyclopedia/handbook of materials, parts, and finishes [J]. (1976)
Online since: January 2022
Authors: Saifulnizan Jamian, Masyrukan Masyrukan, Muniandy Nagentrau, Abdul Latif Mohd Tobi
In Materials Science Forum (Vol. 991, pp. 53-61).
Journal of Mechanical Engineering and Sciences, 9, 1556-70
Journal of the mechanical behavior of biomedical materials, 122, 104657
Journal of Mechanical Science and Technology, 30(11), 5093-5101
Materials Science and Engineering: A, 528(3), 1111-1116
Journal of Mechanical Engineering and Sciences, 9, 1556-70
Journal of the mechanical behavior of biomedical materials, 122, 104657
Journal of Mechanical Science and Technology, 30(11), 5093-5101
Materials Science and Engineering: A, 528(3), 1111-1116
Online since: February 2014
Authors: Zhen Bai, Zhi Guo Zhang
The course materials of CAI enriched teaching materials including sports basic knowledge, multi media video teaching, sports health knowledge, and sports game information.
The sports staffs mainly use VB and VF programming language to develop CAI course materials.
China Sports Science, 1985,21(4): 29~30
China Sports Science, 1999,35(10):30~32
Shandong Sports Science, 2001,23(3):54~55
The sports staffs mainly use VB and VF programming language to develop CAI course materials.
China Sports Science, 1985,21(4): 29~30
China Sports Science, 1999,35(10):30~32
Shandong Sports Science, 2001,23(3):54~55
Online since: August 2007
Authors: Kuk Hee Lee, Chi Yong Park, Yun Jae Kim
The present work presents plastic limit load solutions for branch junctions under internal
pressure and in-plane bending, based on detailed three-dimensional (3-D) FE limit analyses using
elastic-perfectly plastic materials.
The present work provides plastic limit load solutions for branch junctions, via small strain, 3-D FE limit analyses using elastic-perfectly plastic materials.
Materials were assumed to be elastic-perfectly plastic, and non-hardening J2 flow theory was used using a small geometry change continuum FE model.
Conclusions This paper presents closed-form plastic limit load solutions for branch junctions under internal pressure and in-plane bending, based on detailed three-dimensional (3-D) FE limit analyses using elastic-perfectly plastic materials.
International Journal of Mechanical Sciences 2006; 48: 460-467
The present work provides plastic limit load solutions for branch junctions, via small strain, 3-D FE limit analyses using elastic-perfectly plastic materials.
Materials were assumed to be elastic-perfectly plastic, and non-hardening J2 flow theory was used using a small geometry change continuum FE model.
Conclusions This paper presents closed-form plastic limit load solutions for branch junctions under internal pressure and in-plane bending, based on detailed three-dimensional (3-D) FE limit analyses using elastic-perfectly plastic materials.
International Journal of Mechanical Sciences 2006; 48: 460-467
Online since: September 2015
Authors: Akira Ueno, Tatsuo Sakai, Akiyoshi Sakaida, Shoichi Kikuchi, Yoshihiko Yokoyama, Yan Bin Zhang
Masumoto, The deformation of amorphous palladium-20at.% silicon, Materials Science and Engineering, 9 (1972) 153-162
Pampillo, Flaw and fracture in amorphous alloys, Journal of the Materials Science, Vol.10 (1975), 194-227
Ito, A study on tensile strength distribution and its temperature dependence for amorphous alloy ribbons, Journal of the Society of Materials Science, Japan, 47 (1998) 1210-1215
Masumoto, Production of Al-based amorphous steels with large thickness by a supper cooled liquid-quenching method, Journal of Materials Science Letters, 10 (1991) 289-291
Nakai et al., Strength and Fracture of Materials, Chapter 4, the Society of Materials Science, Japan, Kyoto, 2005
Pampillo, Flaw and fracture in amorphous alloys, Journal of the Materials Science, Vol.10 (1975), 194-227
Ito, A study on tensile strength distribution and its temperature dependence for amorphous alloy ribbons, Journal of the Society of Materials Science, Japan, 47 (1998) 1210-1215
Masumoto, Production of Al-based amorphous steels with large thickness by a supper cooled liquid-quenching method, Journal of Materials Science Letters, 10 (1991) 289-291
Nakai et al., Strength and Fracture of Materials, Chapter 4, the Society of Materials Science, Japan, Kyoto, 2005