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Online since: May 2011
Authors: Li Xiao, Wen Zhong Qu
Material properties for steel and RC slab are listed in Table 2.
Acknowledgements This work was financially supported by the Hubei Province Natural Science Foundation (2009CBD431) and the Fundamental Research Funds for the Central Universities(1082005).
International Journal of Numerical Methods Engineering.Vol. 66(2006), p. 1717-1737 [2] Chengqing Wu, Hong Hao.
Journal of Engineering Mechanics.ASCE.
Journal of Constructional Steel Research.Eisevier.Vol.64(2008),p. 854-866 [5] Yanchao Shi, Hong Hao, Zhongxian Li.
Acknowledgements This work was financially supported by the Hubei Province Natural Science Foundation (2009CBD431) and the Fundamental Research Funds for the Central Universities(1082005).
International Journal of Numerical Methods Engineering.Vol. 66(2006), p. 1717-1737 [2] Chengqing Wu, Hong Hao.
Journal of Engineering Mechanics.ASCE.
Journal of Constructional Steel Research.Eisevier.Vol.64(2008),p. 854-866 [5] Yanchao Shi, Hong Hao, Zhongxian Li.
Online since: August 2010
Authors: Chang He Li, Yong Yang, Yu Ling Wang
Mechanics models of milling process
Material constitutive model.
The workpiece material is titanium alloy Ti6Al4V, and the tool material is uncoated carbide.
Incropera: International Journal of Machine & Manufacture Vol. 39 (1999), p. 731-750 [2] Y.
Liang: Journal of Manufacture Science and Engineering Vol. 127 (2005), p. 262-270 [3] X.
Liu: International Journal of Material Science Vol. 44 (2002), p. 703-723 [4] Y.
The workpiece material is titanium alloy Ti6Al4V, and the tool material is uncoated carbide.
Incropera: International Journal of Machine & Manufacture Vol. 39 (1999), p. 731-750 [2] Y.
Liang: Journal of Manufacture Science and Engineering Vol. 127 (2005), p. 262-270 [3] X.
Liu: International Journal of Material Science Vol. 44 (2002), p. 703-723 [4] Y.
Online since: April 2008
Authors: Li Cheng Yang, Jin Xiang Hu, Li Wei Ning, Ying Chun Liu
The change of the
characteristics of the material also influences the deformation process and temperature distribution.
The material of the billet is the typical low-carbon steel 45# and the rollers are alloy cast iron.
References [1] Xianghuai DONG: Computer Simulation for Material Figuration.
Journal of Materials Science & Technology (2003), P.228 [4] Jianchao LI, Jianzhong CUI and Yonglin MA: Simulation of Rolling Billet in Oval Pass by Explicit Dynamics Elastic-Plastic FEM.
Journal of University of Science and Technology Beijing (2004), P.173
The material of the billet is the typical low-carbon steel 45# and the rollers are alloy cast iron.
References [1] Xianghuai DONG: Computer Simulation for Material Figuration.
Journal of Materials Science & Technology (2003), P.228 [4] Jianchao LI, Jianzhong CUI and Yonglin MA: Simulation of Rolling Billet in Oval Pass by Explicit Dynamics Elastic-Plastic FEM.
Journal of University of Science and Technology Beijing (2004), P.173
Online since: July 2017
Authors: B. Ravi Kumar
Introduction
Nanoscale engineering materials have significant mechanical, electrical and thermal performances that are superior to the conventional structural materials.
Carbon nanotubes are the strongest and stiffest materials yet discovered in terms of tensile strength and elastic modulus respectively [2],[7], and [13].
Journal of applied physics 54.9 (1983): 4703-4710
International Journal of Engineering Science 45.2 (2007): 288-307
Computational Materials Science 50.3 (2011): 1052-1056
Carbon nanotubes are the strongest and stiffest materials yet discovered in terms of tensile strength and elastic modulus respectively [2],[7], and [13].
Journal of applied physics 54.9 (1983): 4703-4710
International Journal of Engineering Science 45.2 (2007): 288-307
Computational Materials Science 50.3 (2011): 1052-1056
Online since: July 2021
Authors: Liang Song, Mao Shan Niu, Yang Wang
Experimental
Materials.
Journal of Materials Chemistry C, Vol.6 (2018), p. 9660 [6] Jianbo Xiong, Kai Wang, Zhaoquan Yao, Bo Zou, Jialiang Xu, and Xian-He Bu.
Chemistry of Materials, Vol.22 (2010), p. 5905 [10] L.
Journal of Materials Science, Vol.1 (2011), p. 139 [23] Greg O’Bryan, Bryan M.
Smart Materials and Structures, Vol.23 (2014), p. 095038
Journal of Materials Chemistry C, Vol.6 (2018), p. 9660 [6] Jianbo Xiong, Kai Wang, Zhaoquan Yao, Bo Zou, Jialiang Xu, and Xian-He Bu.
Chemistry of Materials, Vol.22 (2010), p. 5905 [10] L.
Journal of Materials Science, Vol.1 (2011), p. 139 [23] Greg O’Bryan, Bryan M.
Smart Materials and Structures, Vol.23 (2014), p. 095038
Online since: October 2010
Authors: Guang Tu Yang, Jing Yuan Li, Feng Qin Lin, Shui Ping Hu, Yong Song
Development of the Online Control Model for Aluminum Ingot Tapered Cooling
SONG Yong1, a, LI Jing-yuan2,b , LIN Feng-qin1,c , HU Shui-ping 1,d and YANG Guang-tu 2,e
1National Engineering Research Center for Advanced Rolling Technology, University of Science and Technology Beijing, China
2School of Material Science and Engineering, University of Science and Technology Beijing, China
asongyong@ustb.edu.cn, bjerranlee@yahoo.com.cn, clinfengqin@ustb.edu.cn, dhusp@ustb.edu.cn, eguangtuyang@gmail.com
Keywords: Tapered cooling, Online control model, Finite difference method, Isothermal extrusion
Abstract.
In Chinese [2] Yan Leng, Zuo-jun Jing: JOURNAL NORTH CHINA UNIV.
In Chinese [9] Ren-zhong Wand, An-rui He and Yang Quan: JOURNAL OF UNIVERSITY OF SCIENCE AND TECHNOLOGY BEIJING Vol. 26 (2004), p. 655.
In Chinese [10] Li-li Tian, Jian-guo Cao and Jie Zhang: JOURNAL OF UNIVERSITY OF SCIENCE AND TECHNOLOGY BEIJING Vol. 31 (2009), p. 244.
Beijing: University of Science and Technology Beijing, 2002:85.
In Chinese [2] Yan Leng, Zuo-jun Jing: JOURNAL NORTH CHINA UNIV.
In Chinese [9] Ren-zhong Wand, An-rui He and Yang Quan: JOURNAL OF UNIVERSITY OF SCIENCE AND TECHNOLOGY BEIJING Vol. 26 (2004), p. 655.
In Chinese [10] Li-li Tian, Jian-guo Cao and Jie Zhang: JOURNAL OF UNIVERSITY OF SCIENCE AND TECHNOLOGY BEIJING Vol. 31 (2009), p. 244.
Beijing: University of Science and Technology Beijing, 2002:85.
Online since: May 2020
Authors: Peter Košťál, Róbert Hrušecký, Ivan Molnár, Dávid Michal
Analysis of Shape and Dimensional Deformation of the Model with a Precision Circular Hole Produced by Digital Light Processing (DLP) Additive Technology
David Michal1,a*, Robert Hrusecky1,b, Peter Kostal1,c, Ivan Molnar1,d
1Slovak University of Technology, Faculty of Materials Science and Technology in Trnava,
J.
There are a number of materials for this technology with different attribute like PLA, ABS, PCABS and next special materials like PCL, PLGA etc. [3, 4, 5].
Journal of Manufacturing Systems.
Journal of Biomedical Materials Research.
Journal Material Science, Vol. 51. 2016
There are a number of materials for this technology with different attribute like PLA, ABS, PCABS and next special materials like PCL, PLGA etc. [3, 4, 5].
Journal of Manufacturing Systems.
Journal of Biomedical Materials Research.
Journal Material Science, Vol. 51. 2016
Online since: April 2015
Authors: Hazizan Md. Akil, A.A. Sinar, Zainuddin Firuz, M.A. Nur Azni, H.A. Sahrim
Polyol can be synthesized or extracted from natural materials such as oils, plants or wood [1].
PU foam materials are popular type of thermosetting resin used as core for fabricated sandwich composites.
Tanoglu : Usak University Journal of Material Sciences 1 (2012), p. 59-70 [4] L.
Jerro : Materials Science and Engineering A 417 (2006), p. 249-258 [8] K.S.
Adam : Advanced Materials Research Vol. 795 (2013), p. 526-529
PU foam materials are popular type of thermosetting resin used as core for fabricated sandwich composites.
Tanoglu : Usak University Journal of Material Sciences 1 (2012), p. 59-70 [4] L.
Jerro : Materials Science and Engineering A 417 (2006), p. 249-258 [8] K.S.
Adam : Advanced Materials Research Vol. 795 (2013), p. 526-529
Online since: December 2013
Authors: Wei Lv, Xiao Nan Zhang, Chao Cheng, Xin Hai Wang, Zhong Xia Zhao, Jian Wei Han, Xi Yu Lin
The granular solid materials are suspended and dispersed in hot and high-speed airflow, and they are dried in the airflow.
Experiment materials The result of corn stalks industrial analysis is shown in Table 1.
Journal of Harbin University of Science and Technology, 2010,15(3):129-131
Journal of Dalian University of Technology, 2006
Journal of Hunan University of Science and Technology, 2008,23(2):47-51
Experiment materials The result of corn stalks industrial analysis is shown in Table 1.
Journal of Harbin University of Science and Technology, 2010,15(3):129-131
Journal of Dalian University of Technology, 2006
Journal of Hunan University of Science and Technology, 2008,23(2):47-51
Online since: September 2015
Authors: Kseniia N. Grafskaia, Denis V. Anokhin, Jaime J. Hernandez Rueda, Dmitriy A. Ivanov
Introduction
Modern material engineering pays great attention to creating "smart" adaptive materials for various applications.
One of the most interesting classes of such systems is photosensitive organic materials.
Thus, the combination of various environmental effects opens new possibilities for the structure control and, ultimately, design of new "smart" materials.
To study the effect of different external factors on the materials structure a unique setup, that includes UV-lamp and heating/cooling stage, was developed.
Elyashevitch, Photochromic LC-polymer composites containing azobenzene chromophores with thermally stable Z-isomer, Journal of Materials Chemistry 2 (2014) 4482-4489
One of the most interesting classes of such systems is photosensitive organic materials.
Thus, the combination of various environmental effects opens new possibilities for the structure control and, ultimately, design of new "smart" materials.
To study the effect of different external factors on the materials structure a unique setup, that includes UV-lamp and heating/cooling stage, was developed.
Elyashevitch, Photochromic LC-polymer composites containing azobenzene chromophores with thermally stable Z-isomer, Journal of Materials Chemistry 2 (2014) 4482-4489