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Online since: August 2018
Authors: Chi Wai Kan, Rattanaphol Mongkholrattanasit, Nattaya Vuthiganond, Nattadon Rungruangkitkrai, Clare Man Ching Ko
Fabric-foam-fabric plied materials are commonly used materials for making intimate apparel.
Based on the data, we can calculate the overall moisture management capability (OMMC) of the piled materials.
Thus, the moisture management property of the plied materials is very important which would affect their end uses [1-5].
Thus, using Equation (1) can help to obtain the OMMC values of the plied materials.
Textile Research Journal. 85 (2015) 838-849
Based on the data, we can calculate the overall moisture management capability (OMMC) of the piled materials.
Thus, the moisture management property of the plied materials is very important which would affect their end uses [1-5].
Thus, using Equation (1) can help to obtain the OMMC values of the plied materials.
Textile Research Journal. 85 (2015) 838-849
Online since: September 2010
Authors: Yong Jun Tang, Yong Jun Zhang, Xiao Kang Liu
Research on Ultrasonic Vibration Combined with Grinding Machining
and its Application in Processing Brittle Hard Materials
Yongjun Zhang
1,a
, Yongjun Tang1,b and Xiaokang Liu2,c
1
Faculty of Electromechanical Engineering, Guangdong University of Technology, China
2
School of Mechanical & Automotive Engineering, South China University of Technology, China
a
yjzhang@gdut.edu.cn,
b
yjtang@gdut.edu.cn,
cliuxk58@scut.edu.cn
Keywords: Ultrasonic vibration, grinding machining, brittle hard materials, high removal rate
Abstract.
Introduction Brittle hard materials of optical glass, function ceramics, hard alloy and so on have been applied in wide fields of modern industrial, but their process-ability are poor owing to high temperature resistant, good resistance to abrasion and chemical stability[1-5].
Acknowledgements This research was funded by Guangdong-Hong Kong's Key Areas Important Breakthrough Project (2006A15101004), Guangdong Key Project of Science and Technology (2007B010400051), Guangzhou Key Project of Science and Technology (2009Z2-D611), Panyu Key Project of Science and Technology (2008-Z-43-1).
Materials Science Forum, 2007,v.532-533:361-4 [6] Hocheng H, Kuo K L.
International Journal of Machine Tools & Manufacture, 2002,42:7-13 [7] Rajurkar K P, Wang Z Y, Kuppattan A.
Introduction Brittle hard materials of optical glass, function ceramics, hard alloy and so on have been applied in wide fields of modern industrial, but their process-ability are poor owing to high temperature resistant, good resistance to abrasion and chemical stability[1-5].
Acknowledgements This research was funded by Guangdong-Hong Kong's Key Areas Important Breakthrough Project (2006A15101004), Guangdong Key Project of Science and Technology (2007B010400051), Guangzhou Key Project of Science and Technology (2009Z2-D611), Panyu Key Project of Science and Technology (2008-Z-43-1).
Materials Science Forum, 2007,v.532-533:361-4 [6] Hocheng H, Kuo K L.
International Journal of Machine Tools & Manufacture, 2002,42:7-13 [7] Rajurkar K P, Wang Z Y, Kuppattan A.
Online since: April 2014
Authors: Li Min Dong, Ya Lei Gao, Wei Chen
This paper deals with the difference of finite element analysis of results between distinguishing bone materials modeling and single bone material modeling.
The conclusion will be reached by analyzing and comparing the effects of the two materials assignment.
In other 4 cases, the stress and strain values of LISS plate in single bone material model was larger than in two bone materials model.
The plate in single bone material was stronger in torsion than in two bone materials.
[3] Zhang guodong, Liao weijing, Tao shengxiang, etc, Method of femur forming material properties in finite element analysis[J], Chinese journal of Tissue Engineering and Clinical Rehabilitation. 2009(43):8436-8441
The conclusion will be reached by analyzing and comparing the effects of the two materials assignment.
In other 4 cases, the stress and strain values of LISS plate in single bone material model was larger than in two bone materials model.
The plate in single bone material was stronger in torsion than in two bone materials.
[3] Zhang guodong, Liao weijing, Tao shengxiang, etc, Method of femur forming material properties in finite element analysis[J], Chinese journal of Tissue Engineering and Clinical Rehabilitation. 2009(43):8436-8441
Online since: July 2017
Authors: B. Nandish, K.P. Muthanna, M.B. Kaveriappa
These two materials will be compared in terms of weight, factor of safety, stiffness, deformation, and induced stresses.
Material Properties.
[2] Gaurav Chigal ,Gaurav Saini, Mechanical testing of Al6061/silicon carbide metal matrix composite, International Journal of Research in Engineering & Applied Sciences, Volume 2, Issue 2. (2012)
[9] Pai, The shape optimization of a connecting rod with fatigue life constraint, International Journal of Materials and Product Technology, Vol. 11, No. 5-6, ( 1996), pp. 357-370
Ravishankar, Mechanical Properties of fly ash reinforced aluminium alloy(al 6061)composites, International Journal of Mechanical and Materials Engineering, Vol.6 No.1, (2011),pp 41-45
Material Properties.
[2] Gaurav Chigal ,Gaurav Saini, Mechanical testing of Al6061/silicon carbide metal matrix composite, International Journal of Research in Engineering & Applied Sciences, Volume 2, Issue 2. (2012)
[9] Pai, The shape optimization of a connecting rod with fatigue life constraint, International Journal of Materials and Product Technology, Vol. 11, No. 5-6, ( 1996), pp. 357-370
Ravishankar, Mechanical Properties of fly ash reinforced aluminium alloy(al 6061)composites, International Journal of Mechanical and Materials Engineering, Vol.6 No.1, (2011),pp 41-45
Online since: January 2015
Authors: Li Jiang Huo, Yun Tian Guo
[2] Li Ting, Zhong Zehui: Packaging Journal, 2011 03(2), p. 34-36
[4] Li Xihong, Chen Li: Food Science, 2002 23(2), p.129-132
[5] Zhou Ling: Journal of Food Quality, 2011 34(3), p.171-176
[9] Liu Huiling: Journal of South China Normal University, 2014 46(3), p.71-74
[16] Zheng Lixia: Journal of Zhejiang Institute of Science and Technology, 2013 30(4), p.482-486.
[4] Li Xihong, Chen Li: Food Science, 2002 23(2), p.129-132
[5] Zhou Ling: Journal of Food Quality, 2011 34(3), p.171-176
[9] Liu Huiling: Journal of South China Normal University, 2014 46(3), p.71-74
[16] Zheng Lixia: Journal of Zhejiang Institute of Science and Technology, 2013 30(4), p.482-486.
Online since: October 2008
Authors: Qiao Juan Leng, Jiang Qian, Yi Bin He
Damping energy dissipation coefficients J for
materials are obtained.
Damping of materials and members in structural mechanics.
Journal of Materials Science,1993, 28: 2395-2404 [6] I.
Sichuan Building Science. 2004, 30(2):10-12 [10] Guojun Ke, Changqing Guo.
Journal of Building Materials.2004, 7(1):35-40
Damping of materials and members in structural mechanics.
Journal of Materials Science,1993, 28: 2395-2404 [6] I.
Sichuan Building Science. 2004, 30(2):10-12 [10] Guojun Ke, Changqing Guo.
Journal of Building Materials.2004, 7(1):35-40
Online since: October 2014
Authors: Faheemuddin Patel, Stuart Hampshire, Tahar Laoui, Moath Mohammad Al-Malki, Akolade Idris Bakare, Sadaqat Ali, Raja Muhammad Awais Khan, Abbas Hakeem
Review, Journal of Materials Science, 11 (1976) 1135–1158
Hampshire, Silicon Nitride Ceramics, Materials Science Forum, 606 (2009) 27-41
Jack, Nitrogen ceramics for engine applications, Materials Science Forum, 325-326 (2000) 255-262
Cao, Consolidation/synthesis of materials by electric current activated/assisted sintering, Materials Science Engineering Research 63 (2009) 127-287
Kawahara, Fabrication of silicon-nitride nano-ceramics by spark plasma sintering, Journal of Materials Science Letter, 14 (1995) 1047-1047
Hampshire, Silicon Nitride Ceramics, Materials Science Forum, 606 (2009) 27-41
Jack, Nitrogen ceramics for engine applications, Materials Science Forum, 325-326 (2000) 255-262
Cao, Consolidation/synthesis of materials by electric current activated/assisted sintering, Materials Science Engineering Research 63 (2009) 127-287
Kawahara, Fabrication of silicon-nitride nano-ceramics by spark plasma sintering, Journal of Materials Science Letter, 14 (1995) 1047-1047
Online since: March 2014
Authors: Dionizy Czekaj, Agata Lisińska-Czekaj
Influence of Phase Composition on Dielectric Properties of Bismuth-Based Ceramics with Scheelite-Type Structure
Dionizy Czekaja and Agata Lisińska-Czekajb
University of Silesia, Department of Materials Science, 2, Sniezna St.,41-200 Sosnowiec, Poland
bdionizy.czekaj@us.edu.pl, aagata.lisinska-czekaj@us.edu.pl
Keywords: BiNbO4, micromechatronic materials, impedance spectroscopy, dielectric properties.
Wersing: Current Opinion in Solid State and Materials Science Vol. 1, 5 (1996), p. 715 [3] N.
Li: Materials Research Bulletin Vol. 39 (2004), p. 439 [4] R.
Gupta: Materials Characterization, Vol. 59 (2008), p. 1083 [5] H.
Shan: Journal of Materials Science Vol. 35 (2000), p. 5443 [7] Sang Ki Ko, Kyung Yong Kim, and Byong Ho Kim:, Journal of Materials Science: Materials in Electronics, 9 (1998), p. 351 [8] Ning Wang, Mei-Yu Zhao, Zhi-Wen Yin and Wei Li:, Materials Research Bulletin 39 (2004) p. 439 [9] Eung Soo Kim and Woong Choi:, Journal of the European Ceramic Society, 26 (2006) p. 1761
Wersing: Current Opinion in Solid State and Materials Science Vol. 1, 5 (1996), p. 715 [3] N.
Li: Materials Research Bulletin Vol. 39 (2004), p. 439 [4] R.
Gupta: Materials Characterization, Vol. 59 (2008), p. 1083 [5] H.
Shan: Journal of Materials Science Vol. 35 (2000), p. 5443 [7] Sang Ki Ko, Kyung Yong Kim, and Byong Ho Kim:, Journal of Materials Science: Materials in Electronics, 9 (1998), p. 351 [8] Ning Wang, Mei-Yu Zhao, Zhi-Wen Yin and Wei Li:, Materials Research Bulletin 39 (2004) p. 439 [9] Eung Soo Kim and Woong Choi:, Journal of the European Ceramic Society, 26 (2006) p. 1761
Online since: December 2014
Authors: Xin Yu Wang, Ming Bei Zhu, Rong Zhu, Zong Rui Zhang
Experiments
Materials and Characterization Methods.
Journal of Biomaterials Science: Polymer Edition,Vol. 6 (1994) No.3, p.225
Journal of Biomedical Materials Research,Vol.25 (1991) No.2, p.177
Journal of Biomedical Materials Research Part A, Vol.56 (2001)No.4,p.516
Journal of Biomedical Materials Research Part A, Vol.69(2004)No.3,p.407
Journal of Biomaterials Science: Polymer Edition,Vol. 6 (1994) No.3, p.225
Journal of Biomedical Materials Research,Vol.25 (1991) No.2, p.177
Journal of Biomedical Materials Research Part A, Vol.56 (2001)No.4,p.516
Journal of Biomedical Materials Research Part A, Vol.69(2004)No.3,p.407
Online since: January 2015
Authors: Jian Hua Liu, Hai Bo Liu, Chong Ying Guo, Ke Jiang
Acknowledgements
The authors acknowledge the financial support from National Natural Science Foundation, China (No. 51275047), the National Defense Fundamental Research Foundation, China (No.
Determination of Best Objective Function for Evaluating Geometric Deviations, International Journal of Advanced Manufacturing Technology, 1999 (15) 206-212; [4] Shakarji C.
Flatness error evaluation based on evolutionary strategy [J].Chinese Journal of Scientific Instrument 2007, 28(5) 832-836 [7]LIAO Ping, YU Shouyi.
Mechanical Science and Technology. 2003, 24(3) 181-184 [8]CHEN Ping WANG Guozhao.
A new algorithm of planar point set based on sorted points[J].Bulletin of Science and Technology.2007, 23(6)863-866 [9]ZHANG Fei XIE Buying.
Determination of Best Objective Function for Evaluating Geometric Deviations, International Journal of Advanced Manufacturing Technology, 1999 (15) 206-212; [4] Shakarji C.
Flatness error evaluation based on evolutionary strategy [J].Chinese Journal of Scientific Instrument 2007, 28(5) 832-836 [7]LIAO Ping, YU Shouyi.
Mechanical Science and Technology. 2003, 24(3) 181-184 [8]CHEN Ping WANG Guozhao.
A new algorithm of planar point set based on sorted points[J].Bulletin of Science and Technology.2007, 23(6)863-866 [9]ZHANG Fei XIE Buying.