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Online since: August 2013
Authors: Gui Li Xing
Jason exposed the ugliest side of the humanity and showed a greed and cruelty humane of the material life of modern society.
Journal of South China Normal University (Social Sciences), 2010 (6):18-24 [2] Wenchao Ma.
Journal of Henan Finance & Taxation Collegel, 2010 (6):31-37 [3] Qilin Long.
Journal of Nanchang University,2012(5):69-75
Journal of Engineering Management Journal, 2012(3):75-79
Journal of South China Normal University (Social Sciences), 2010 (6):18-24 [2] Wenchao Ma.
Journal of Henan Finance & Taxation Collegel, 2010 (6):31-37 [3] Qilin Long.
Journal of Nanchang University,2012(5):69-75
Journal of Engineering Management Journal, 2012(3):75-79
Online since: August 2018
Authors: Yousef Alshammari, Fei Yang, Leandro Bolzoni
Gordo, Mechanical Behaviour of Pressed and Sintered CP Ti and Ti-6Al-7Nb Alloy Obtained from Master Alloy Addition Powder, Journal of the Mechanical Behavior of Biomedical Materials, 20 (2013) 149-161
Zhang, Effect of Cu Content on the Antibacterial Activity of Titanium-Copper Sintered Alloys, Materials Science and Engineering: C, 35 (2014) 392-400
Gordo, Microstructural Evolution and Mechanical Properties of the Ti-6Al-4V Alloy Produced by Vacuum Hot-pressing, Materials Science and Engineering A, 546 (2012) 189-197
Gordo, Feasibility Study of the Production of Biomedical Ti-6Al-4V Alloy by Powder Metallurgy, Materials Science and Engineering C, 49 (2015) 400-407
Niinomi, Fabrication of Ti-6Al-7Nb Alloys by Metal Injection Molding, Materials Science Forum, Progress in Powder Metallurgy, Pts 1 and 2 (2007) 357-360.
Zhang, Effect of Cu Content on the Antibacterial Activity of Titanium-Copper Sintered Alloys, Materials Science and Engineering: C, 35 (2014) 392-400
Gordo, Microstructural Evolution and Mechanical Properties of the Ti-6Al-4V Alloy Produced by Vacuum Hot-pressing, Materials Science and Engineering A, 546 (2012) 189-197
Gordo, Feasibility Study of the Production of Biomedical Ti-6Al-4V Alloy by Powder Metallurgy, Materials Science and Engineering C, 49 (2015) 400-407
Niinomi, Fabrication of Ti-6Al-7Nb Alloys by Metal Injection Molding, Materials Science Forum, Progress in Powder Metallurgy, Pts 1 and 2 (2007) 357-360.
Online since: October 2014
Authors: Dong Zhang, Shi Fang Xie, Pei Ling Ke, Shi Yong Wei, Ai Ying Wang, Ke Ming Liu
Influence of Nitrogen Partial Pressure on the Microstructure and Properties of TiN Coatings
Shifang Xie1,a, Keming Liu1,Peiling Ke2, Dong Zhang2, Shiyong Wei1,
Aiying Wang2,b
1 Institute of Applied Physics, Jiangxi Academy of Sciences, Nanchang, 330029, China
2 Ningbo Institute of Materials Technology and Engineering, Chinese Academy of Sciences, Ningbo, 315201, China
aemail: ncsxsf@126.com, bemail: aywang@nimte.ac.cn
Keywords: Multi-arc ion plating; TiN; Microstructure; Hardness; Cohesion
Abstract.
Introduction Titanium nitride (TiN) coatings have been widely used in contemporary microelectronics as diffusion barriers, in jewelery as gold-coloured surface-finishing paints, in the glass and automobile industries as reflecting materials, especially in the machine industry as refractory materials and as hard and wear-resistant coatings on machine tools and mechanical parts due to their superior properties, such as high hardness, good chemical stability and thermal conductivity, wear and corrosion resistance as well as gold-like appearance [1][2][3][4].
Applied Surface Science, 2012 258 3629-3636
Applied Surface Science, 2012 258 7047-7051
International Journal of Hydrogen Energy, 2011 36 9155-9161.
Introduction Titanium nitride (TiN) coatings have been widely used in contemporary microelectronics as diffusion barriers, in jewelery as gold-coloured surface-finishing paints, in the glass and automobile industries as reflecting materials, especially in the machine industry as refractory materials and as hard and wear-resistant coatings on machine tools and mechanical parts due to their superior properties, such as high hardness, good chemical stability and thermal conductivity, wear and corrosion resistance as well as gold-like appearance [1][2][3][4].
Applied Surface Science, 2012 258 3629-3636
Applied Surface Science, 2012 258 7047-7051
International Journal of Hydrogen Energy, 2011 36 9155-9161.
Online since: July 2024
Authors: Benaoumeur Aour, Habib Benzaama, Abdelouahed Elamine, Sadek Kaddour, Mohammed Salah Bennouna, Mohamed Mokhtari
Introduction
The use of composite materials in industry is constantly increasing and their replacement of metallic materials is expanding due to their long-term durability and favorable mechanical properties in various fields of construction (naval, aeronautical, automotive, etc.).
The use of composite materials has expanded to include the use of composite patches for the repair of fractured and damaged structures.
Elastic and thermal properties for different materials [26].
The repaired pipeline, constructed of various composite materials, is exposed to a humid environment for different immersion times.
Lianshuang, Revelation of Pipeline Accidents, China Building Materials Press, (2016) 5-15
The use of composite materials has expanded to include the use of composite patches for the repair of fractured and damaged structures.
Elastic and thermal properties for different materials [26].
The repaired pipeline, constructed of various composite materials, is exposed to a humid environment for different immersion times.
Lianshuang, Revelation of Pipeline Accidents, China Building Materials Press, (2016) 5-15
Online since: March 2026
Authors: Blessie A. Basilia, Menandro C. Marquez, Sigrid Maestro
Methodology
Materials.
Onuegbu: International Journal of Scientific Engineering and Applied Science Vol. 3(4) (2017), p. 145–151 [7] A.K.G.
Anggara: International Journal of Advanced Technology in Mechanical Mechatronics and Materials Vol. 1(3) (2021), p. 125–133 [9] N.M.
Zhiltsova: Materials Vol. 16 (2023), p. 1198 [12] Y.
Zainuddin: Materials & Design (1980–2015) (2015) [14] I.H.
Onuegbu: International Journal of Scientific Engineering and Applied Science Vol. 3(4) (2017), p. 145–151 [7] A.K.G.
Anggara: International Journal of Advanced Technology in Mechanical Mechatronics and Materials Vol. 1(3) (2021), p. 125–133 [9] N.M.
Zhiltsova: Materials Vol. 16 (2023), p. 1198 [12] Y.
Zainuddin: Materials & Design (1980–2015) (2015) [14] I.H.
Online since: October 2014
Authors: Kuei Yang Wu, Yen Yu Wu, Shih Chung Lu
However, it is sometimes used more broadly to include all efforts to educate the public and other audiences, including print materials, websites, media campaigns, etc.
The Journal of Environmental Education, 9, 10-19. (1978) [6] Gold, J.
Elsevier Science.
Nature and Resources,Elsevier Science.
Journal of Cultural Heritage.
The Journal of Environmental Education, 9, 10-19. (1978) [6] Gold, J.
Elsevier Science.
Nature and Resources,Elsevier Science.
Journal of Cultural Heritage.
Online since: August 2009
Authors: L.Q. Yu, Y.P. Zhang, Q.T. Fu
Experimental
Starting materials for the preparation of the alloy samples included Nd, Fe, Dy, Al, Nb, Zr, Ga all
99.9 wt % in purity, and a Fe-B alloy with 20 wt. % B and 80 wt. % Fe.
Obtained Nd and Fe content by analysis with EDX of the grains and grain boundary materials, and not any B content would be measured by this technique.
Acknowledgement The financial support for this study by the National Natural Science Foundation of China (No. 20806093) and China University of Petroleum (East China) (Y071808) are gratefully acknowledged.
Rare-Earth Permanent Magnets Materials and Application [M].
Magn. 33(1997) 3841 [8] Wang Zhan-yong, Gu Nan-ju, Wang Bao-qi, etc, Journal of Magnetic Materials and Devices. 01 (2003) 13
Obtained Nd and Fe content by analysis with EDX of the grains and grain boundary materials, and not any B content would be measured by this technique.
Acknowledgement The financial support for this study by the National Natural Science Foundation of China (No. 20806093) and China University of Petroleum (East China) (Y071808) are gratefully acknowledged.
Rare-Earth Permanent Magnets Materials and Application [M].
Magn. 33(1997) 3841 [8] Wang Zhan-yong, Gu Nan-ju, Wang Bao-qi, etc, Journal of Magnetic Materials and Devices. 01 (2003) 13
Online since: May 2011
Authors: Chao He Chen, Zheng Jun Liao
Introductions
With the development of science and technology, new materials and new technologies have appeared.
Therewith, great progress and improvement have been made in materials used and methods of seismic strengthening.
The application of new materials such as steel twisted cable, carbon fiber sheet, FRP, CFRP, GFRP, etc has greatly improved strengthening effect , which makes strengthening method become a research focus in recent decades.
However, in economically underdeveloped regions, rural towns, the higher construction cost of new materials makes it difficult to become a major strengthening method.
Journal of Tianjin University, 1994, 27 (6):764-770
Therewith, great progress and improvement have been made in materials used and methods of seismic strengthening.
The application of new materials such as steel twisted cable, carbon fiber sheet, FRP, CFRP, GFRP, etc has greatly improved strengthening effect , which makes strengthening method become a research focus in recent decades.
However, in economically underdeveloped regions, rural towns, the higher construction cost of new materials makes it difficult to become a major strengthening method.
Journal of Tianjin University, 1994, 27 (6):764-770
Online since: December 2006
Authors: Hong Yan, Chen Xu, Guo Xiang Chen
Tims[1] reported that
the filling behaviors of semi-solid materials were described by computer simulation.
The material adopted in this paper was AZ61 magnesium alloy, and the simulations were performed in forging and thixoforming.
The materials are normal and semi-solid AZ61 magnesium alloy respectively.
Acknowledgement This research was supported jointly by grant No.50465003 from the National Natural Science Foundation of China, grants No.550067 from the Natural Science Foundation of JiangXi Province and the Jiangxi Province Education Commission Foundation.
Zhang: Journal of Plasticity Engineering, Vol.12 (2005), pp.191
The material adopted in this paper was AZ61 magnesium alloy, and the simulations were performed in forging and thixoforming.
The materials are normal and semi-solid AZ61 magnesium alloy respectively.
Acknowledgement This research was supported jointly by grant No.50465003 from the National Natural Science Foundation of China, grants No.550067 from the Natural Science Foundation of JiangXi Province and the Jiangxi Province Education Commission Foundation.
Zhang: Journal of Plasticity Engineering, Vol.12 (2005), pp.191
Online since: June 2014
Authors: Jing Liu, Jing Tao Han, Xiao Xiong Wang, Qian Liu
Numerical Simulation of polyurethane pad punching process
Xiao-xiong Wang1,a, Jing Liu2,b , Jing-tao Han3,c , Qian Liu4, d
1School of materials science and engineering, University of Science and Technology Beijing, China
aterrywangxiaoxiong@163.com, bliujing@mater.ustb.edu.cn, chanjt@ustb.edu.cn,
diwooden@163.com
Keywords: numerical simulation; polyurethane; punching; collapse height dimension; collapse width dimension
Abstract.
Material Parameter Settings.
The material parameters are shown in table 1: The Adaptive Technology and the Fracture Criterion.
Different material has the different threshold, here 1.94 is adopted [7].
Journal of Materials Processing Technology, 2003, 134:52-54
Material Parameter Settings.
The material parameters are shown in table 1: The Adaptive Technology and the Fracture Criterion.
Different material has the different threshold, here 1.94 is adopted [7].
Journal of Materials Processing Technology, 2003, 134:52-54