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Online since: January 2013
Authors: Komson Jirapattarasilp, Teerawut Sripunchat
Li, Optimization Design of Patch Shape for Rivet Repair of Aircraft Skin Advanced Materials Research, 466-467 (2012), 1000-1005
[2] N.
Sinha Processing and Characterization of Al-Cu-Mg Alloy Rivets for Aerospace Applications Mater.Sci.Forum, 710(2012),180-185 [3] Y.
Kato, K.Mori, Aluminium Alloy Self-Pierce Riveting for Joining of Aluminium Alloy Sheets Key Engineering Materials, 410-411 (2009),79-86 [4] M.Esfahani, Y.Durandet, J.Wang, Y.C.
Wong, Effect of Joining Process on the Coatings of Self-Piercing Rivets Advanced Materials Research, 488-489 (2012),1501-1505 [5] F.Caputo, G.Lamanna, A.Soprano About the Effects of Residual Stress States Coming from Manufacturing Processes on the Behaviour of Riveted Joints Key Engineering Materials, 385-387 (2009), 25-28
[7] D.W.Jung, N.S.Choi, Characteristic Fracture Assessment of a Rivet Joint for Hybrid Composite Laminates under Static and Fatigue Shear Loads Key Engineering Materials, 326-328 (2006),1757-1760
Sinha Processing and Characterization of Al-Cu-Mg Alloy Rivets for Aerospace Applications Mater.Sci.Forum, 710(2012),180-185 [3] Y.
Kato, K.Mori, Aluminium Alloy Self-Pierce Riveting for Joining of Aluminium Alloy Sheets Key Engineering Materials, 410-411 (2009),79-86 [4] M.Esfahani, Y.Durandet, J.Wang, Y.C.
Wong, Effect of Joining Process on the Coatings of Self-Piercing Rivets Advanced Materials Research, 488-489 (2012),1501-1505 [5] F.Caputo, G.Lamanna, A.Soprano About the Effects of Residual Stress States Coming from Manufacturing Processes on the Behaviour of Riveted Joints Key Engineering Materials, 385-387 (2009), 25-28
[7] D.W.Jung, N.S.Choi, Characteristic Fracture Assessment of a Rivet Joint for Hybrid Composite Laminates under Static and Fatigue Shear Loads Key Engineering Materials, 326-328 (2006),1757-1760
Online since: February 2022
Authors: Alexey V. Shalin, Aleksander S. Stepushin, Sergey M. Sarychev, Olga Gvozdeva
The military-industrial complex accumulates advanced developments in materials science, which, on the one hand, increases the lethality of military equipment, and on the other, improves the armor protection materials to counter new types of weapons [1, 2].
[4] Mylnikov V V, Abrosimov A A, Romanov I D and Romanov A D 2014 Technical Science 9 pp 143 – 147 [5] Grinevich A V and Lavrov A V 2018 Proceedings of VIAM 3(63) pp 95-102 [6] Minhyung Lee, Sangwon Park, Ilguk Jo and Sangkwan Lee. 2017 Procedia Engineering 204 pp 100-107 [7] Ilyin A A, Skvortsova S V, Spector V S, Kudelina I M and Mamontova N A 2011 Light alloy technology 2 pp 37-41 [8] Mamonov A M, Safaryan A I, Agarkova E O, Zhilyakova M A 2018 Metal Science and Heat Treatment V 60 I 1-2 pp 80-88 [9] Senkevich K S, Skvortsova S V, Kudelina I M, Knyazev M I and Zasypkin V V 2014 Metals 1 pp 77-82 [10] Gvozdeva O N, Shalin A V and Stepushin A S 2020 IOP Conference Series Materials Science and Engineering V 889 I 1 A 012005 pp 1-7 [11] Gvozdeva O N, Shalin A V, Stepushin A S and Ovchinnikov A V 2020 IOP Conference Series Materials Science and Engineering V 971 I 1 A 052016 pp 1-5 [12] Skvortsova S V, Gvozdeva O N, Shalin A V, Sarychev S M and Stepushin A S 2020 Sixth interdisciplinary
scientific forum with international participation "New materials and advanced technologies" V I pp 81-86 [13] Lukina E A 2019 Journal of Physics: Conference Series. – IOP Publishing.
[4] Mylnikov V V, Abrosimov A A, Romanov I D and Romanov A D 2014 Technical Science 9 pp 143 – 147 [5] Grinevich A V and Lavrov A V 2018 Proceedings of VIAM 3(63) pp 95-102 [6] Minhyung Lee, Sangwon Park, Ilguk Jo and Sangkwan Lee. 2017 Procedia Engineering 204 pp 100-107 [7] Ilyin A A, Skvortsova S V, Spector V S, Kudelina I M and Mamontova N A 2011 Light alloy technology 2 pp 37-41 [8] Mamonov A M, Safaryan A I, Agarkova E O, Zhilyakova M A 2018 Metal Science and Heat Treatment V 60 I 1-2 pp 80-88 [9] Senkevich K S, Skvortsova S V, Kudelina I M, Knyazev M I and Zasypkin V V 2014 Metals 1 pp 77-82 [10] Gvozdeva O N, Shalin A V and Stepushin A S 2020 IOP Conference Series Materials Science and Engineering V 889 I 1 A 012005 pp 1-7 [11] Gvozdeva O N, Shalin A V, Stepushin A S and Ovchinnikov A V 2020 IOP Conference Series Materials Science and Engineering V 971 I 1 A 052016 pp 1-5 [12] Skvortsova S V, Gvozdeva O N, Shalin A V, Sarychev S M and Stepushin A S 2020 Sixth interdisciplinary
scientific forum with international participation "New materials and advanced technologies" V I pp 81-86 [13] Lukina E A 2019 Journal of Physics: Conference Series. – IOP Publishing.
Online since: July 2005
Authors: Kwang Seon Shin, Young Gee Na, Dan Eliezer
Corrosion of New Wrought Magnesium Alloys
Young Gee Na
1,a, Dan Eliezer2,b and Kwang Seon Shin
1,c
1
School of Materials Science and Engineering
Research Institute of Advanced Materials
Seoul National University, Seoul 151-742, Korea
2
Department of Materials Engineering, Ben-Gurion University of the Negev
Beer-Sheva 84105, Israel
a
youngee@snu.ac.kr, bdeliezer@bgumail.bgu.ac.il, cksshin@snu.ac.kr
Keywords: Mg-Zn-Ag alloy, Mg-Zn-Si alloy, extrusion, microstructure, mechanical property,
immersion test, corrosion rate.
Forum Vol. 419-422 (2003), p. 851 [9] C.S.
Atrens: Corrosion Mechanisms of Magnesium Alloys, Advanced Engineering Materials (1999)
Forum Vol. 419-422 (2003), p. 851 [9] C.S.
Atrens: Corrosion Mechanisms of Magnesium Alloys, Advanced Engineering Materials (1999)
Online since: September 2013
Authors: Shou Zhong Hu, Chang Kuan Gao, Han Yan Liu
Shanghai University of Engineering Science,Shanghai,China
2.College of fashion,Shanghai University of Engineering Science ,Shanghai,China
a446706205@qq.com,b172012241@qq.com,chushzh@sues.edu.cn
Key words: Shanghai textile holding group; Lead; Industrial cluster; Overall competitiveness; Strategy
Abstract: Shanghai textile holding group (Shangtex for short) is one of the leading enterprises in the Shanghai textile industry ,as well as the largest state-owned enterprise, it plays a central role as a "bellwether" in the whole industry.
In order to avoid industrial hollowing, Shangtex still reserves and enhances its advanced textile manufacturing, and it clearly displays the characteristics of Chinese textile industry.and in these advanced textile fiber manufacturing, their output are lower every year but have tech-heavy and good economic benefit so that Shangtex can resist the abominable external market to be in an invincible position. 1.3 The trading guide of Shangtex for the formation of fashionable industry.
Corresponding author: HuShouzhong,College of Fashion,Shanghai University of Engineering Science ,China.
Ability— the interview about Xi Shiping who is the chairman of Shanghai textile holding group company in the Summit Forum of “brand culture, wealth,”[J].Fashion Color.2012(3):94 [6].Unidentified Man .
In order to avoid industrial hollowing, Shangtex still reserves and enhances its advanced textile manufacturing, and it clearly displays the characteristics of Chinese textile industry.and in these advanced textile fiber manufacturing, their output are lower every year but have tech-heavy and good economic benefit so that Shangtex can resist the abominable external market to be in an invincible position. 1.3 The trading guide of Shangtex for the formation of fashionable industry.
Corresponding author: HuShouzhong,College of Fashion,Shanghai University of Engineering Science ,China.
Ability— the interview about Xi Shiping who is the chairman of Shanghai textile holding group company in the Summit Forum of “brand culture, wealth,”[J].Fashion Color.2012(3):94 [6].Unidentified Man .
Online since: July 2013
Authors: Mariano Modano, Donato Cancellara, Fabio de Angelis, Vittorio Pasquino
[3] Fajfar, P., Capacity spectrum method based on inelastic demand spectra, Earthquake Engineering & Structural Dynamics, Vol. 28, Issue 9, pp. 979-993, 1999
Journal for Multiscale Computational Engineering, Vol. 5, Issue 2, pp. 105-116, New York, 2007
[18] De Angelis, F., On constitutive relations in non-smooth elasto/viscoplasticity, Advanced Materials Research, Vol. 566, pp. 691-698, 2012
[23] De Angelis, F., Computational issues in rate dependent plasticity models, Advanced Materials Research, Vol. 566, pp. 70-77, 2012
[25] De Angelis, F., Numerical algorithms for J2 viscoplastic models, Advanced Materials Research, Vol. 567, pp. 267-274, 2012
Journal for Multiscale Computational Engineering, Vol. 5, Issue 2, pp. 105-116, New York, 2007
[18] De Angelis, F., On constitutive relations in non-smooth elasto/viscoplasticity, Advanced Materials Research, Vol. 566, pp. 691-698, 2012
[23] De Angelis, F., Computational issues in rate dependent plasticity models, Advanced Materials Research, Vol. 566, pp. 70-77, 2012
[25] De Angelis, F., Numerical algorithms for J2 viscoplastic models, Advanced Materials Research, Vol. 567, pp. 267-274, 2012
Online since: August 2014
Authors: Zhi Long Xu, Ju Dong Liu, Jie Zhen Zhuang
Pei, et al: Key Engineering Materials Vol.304-305(2006), pp. 588-592
Zhang: Advanced Materials Research Vol. 76-78 (2009), pp. 3-8
Zhang: Key Engineering Materials Vol. 443 (2010), pp. 388-393
Zhuang: Advanced Materials Research Vol.102-104 (2010), pp.733-737
Huang: Key Engineering Materials Vol. 455 (2011), pp. 580-584.
Zhang: Advanced Materials Research Vol. 76-78 (2009), pp. 3-8
Zhang: Key Engineering Materials Vol. 443 (2010), pp. 388-393
Zhuang: Advanced Materials Research Vol.102-104 (2010), pp.733-737
Huang: Key Engineering Materials Vol. 455 (2011), pp. 580-584.
Online since: February 2008
Authors: Yi Gong, Hong Wen Ma, Hui Feng Zhao, Li Wang, Xin Gang Yu, Wen Yue Bi, Xue Chun Tian, Guo Hong Qiu
XPS Studies on ZrO2 Thin Films Deposited on Glass Substrate by
Sol-Gel
Xingang Yu1a, Yi Gong
1, Wenyue Bi1, Xuechun Tian
1, Hongwen Ma2b,
Huifeng Zhao3c, Guohong Qiu and Li Wang3
1
College of Materials Science and Engineering, Chongqing University, Chongqing, 400044, China
2
Department of Material Science, China University of Geosciences Beijing, 100083, China
3
Research Institute of Glass and Glass Fiber, China Building Materials Academy Beijing, 100024,
China
a
yu_xin_gang@163.com, bmahw@cugb.edu.cn, czhao-73@tom.com
Keyword: XPS, ZrO2-CeO2 thin films, Sol-gel
Abstract: The chemical composition and the valence state of elements on the surface of ZrO2 thin films
deposited on glass substrates have been studied by X-ray photoelectron spectroscopy.
Acknowledgement This work was supported by the Foundation of Key laboratory of new processing technology for nonferrous metals and materials, ministry of education, and Guangxi key laboratory for the advance materials and new preparation technology, Guilin, Guangxi, China.
Forum Vol. 475-479 (2005), p. 1647
Acknowledgement This work was supported by the Foundation of Key laboratory of new processing technology for nonferrous metals and materials, ministry of education, and Guangxi key laboratory for the advance materials and new preparation technology, Guilin, Guangxi, China.
Forum Vol. 475-479 (2005), p. 1647
Online since: April 2013
Authors: Fu Sheng Yu, Rong Lu Zhang, Yun Jiang Li, Bin Bin Jiao, Gui Lin Du, Tao Li
Advances in Mechanics. 31,394-404(2001) (in Chinese)
[2] Dong Lihua, Li Zhenjia: Analysis of Milling Stress Field.J.
Journal of Mechanical Engineering. 40,106-110(2004) (in Chinese) [4] Zheng Minli, Jiang Bin, Chen Binhu, Sun Yongjun: Research on High Speed Face Milling Cutter Based on the Model of Stress Field.J.
Materials Science Forum. 532-533, 341-344(2006) [5] Zhao Xianxiang, Tan Guangyu, Zhang Yuhua, Feng Xinmin: Stress Field Analysis of Milling Insert Based on Cellular Automata.J.
Journal of Mechanical Engineering. 40,106-110(2004) (in Chinese) [4] Zheng Minli, Jiang Bin, Chen Binhu, Sun Yongjun: Research on High Speed Face Milling Cutter Based on the Model of Stress Field.J.
Materials Science Forum. 532-533, 341-344(2006) [5] Zhao Xianxiang, Tan Guangyu, Zhang Yuhua, Feng Xinmin: Stress Field Analysis of Milling Insert Based on Cellular Automata.J.
Online since: October 2007
Authors: Mischa Crumbach, Günter Gottstein, Lasar S. Shvindlerman, L.A. Barrales-Mora
Recent Advances in the Simulation
of Recrystallization and Grain Growth
Günter Gottstein
1,a , Lasar S.
Modeling and simulation of recrystallization, grain growth, and related phenomena are important tools for the fundamental understanding of microstructural evolution and prediction of engineering properties.
There is hope that this will eventually allow to conduct true multiscale simulations for a reliable prediction of engineering phenomena and properties on a macroscopic scale.
Conclusions We have shown that advanced modeling tools are now at hand to address more complex issues of recrystallization (e.g. nucleation) and grain growth (e.g. junction drag).
Engler, in: Continuum scale simulation of engineering materials, edited by D.
Modeling and simulation of recrystallization, grain growth, and related phenomena are important tools for the fundamental understanding of microstructural evolution and prediction of engineering properties.
There is hope that this will eventually allow to conduct true multiscale simulations for a reliable prediction of engineering phenomena and properties on a macroscopic scale.
Conclusions We have shown that advanced modeling tools are now at hand to address more complex issues of recrystallization (e.g. nucleation) and grain growth (e.g. junction drag).
Engler, in: Continuum scale simulation of engineering materials, edited by D.