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Online since: June 2012
Authors: Guang Yin Wang
Investigation Progress on Microelectronic Materials:Carbon
Nanotube and Graphene
GuangYin Wang
Department of Chemistry, Dezhou University, Dezhou 253023, China
Email: wgy_sddz@163.com
Keywords: Microelectronic materials; Carbon nanotube; graphene
Abstract: In this paper, the structures and electrical properties of carbon nanotube and graphene were introduced, which have advantage in making microelectronic materials.
Besides, graphene may be used to make composite material, cell, super capacitance, hydrogen storage material, field emission material and ultra sensitive sensor. 1.4.
References [1] Ming Tian: Semiconductor Technology Vol. 30 (2005), p.5-7 [2] R.M.Westervelt : Science Vol. 320 (2008), p. 324-325 [3] Su Xunwen.
Journal of Nanjing Institute of Industry Technology Vol. 5 (2005), p. 88-91 [4] Jiao L Y,Zhang L,Wang X R: Nature Vol. 458 (2009), p. 877-880 [5] Zhao Zhiwei,Zhang Chongcai: Journal of Sichuan University of Science and Technology Vol. 23 (2004), p. 243-245 [6] Huang Guirong, Chen Jian: Carbon Techniques Vol. 28 (2009), p. 35-39 [7] Ang Zheng,Shi Yi,Gu Shulin: Research & Progress of Solid State Electronics Vol. 22(2002), p. 131-136 [8] Chen Z,Tong L M,Wu Z Y: Applied Physics Letters Vol. 92(2008), p. 103116-103119 [9] Kosynkin D.
L.and Sinitskii A: Nature Vol. 458 (2009), p. 872-876 [10] Li X L,Zhang L and Wang X R: Journal of the American Chemical Society Vol. 129 (2007), p. 4890-4891
Besides, graphene may be used to make composite material, cell, super capacitance, hydrogen storage material, field emission material and ultra sensitive sensor. 1.4.
References [1] Ming Tian: Semiconductor Technology Vol. 30 (2005), p.5-7 [2] R.M.Westervelt : Science Vol. 320 (2008), p. 324-325 [3] Su Xunwen.
Journal of Nanjing Institute of Industry Technology Vol. 5 (2005), p. 88-91 [4] Jiao L Y,Zhang L,Wang X R: Nature Vol. 458 (2009), p. 877-880 [5] Zhao Zhiwei,Zhang Chongcai: Journal of Sichuan University of Science and Technology Vol. 23 (2004), p. 243-245 [6] Huang Guirong, Chen Jian: Carbon Techniques Vol. 28 (2009), p. 35-39 [7] Ang Zheng,Shi Yi,Gu Shulin: Research & Progress of Solid State Electronics Vol. 22(2002), p. 131-136 [8] Chen Z,Tong L M,Wu Z Y: Applied Physics Letters Vol. 92(2008), p. 103116-103119 [9] Kosynkin D.
L.and Sinitskii A: Nature Vol. 458 (2009), p. 872-876 [10] Li X L,Zhang L and Wang X R: Journal of the American Chemical Society Vol. 129 (2007), p. 4890-4891
Online since: October 2010
Authors: Li Hua Zhan, Daniel S. Balint, Jian Guo Lin
Sciences, Vol. 44 (2002), p. 987-1002
Foroudastan: Journal of Materials Processing Technology, Vol. 28 (1991), p. 211-219 [8] K.Idem, J.Peddieson: Journal of Manufacturing Science and Engineering, Vol. 127 (2005), p. 165-172
Materials: Design and Applications (2005), p. 17-24
Dean: Journal of Materials Processing Technology, Vol. 153–154 (2004), p. 122–127
Dean: International Journal of Mechanical Sciences, Vol. 48 (2006), p. 621–629 [16] S.
Foroudastan: Journal of Materials Processing Technology, Vol. 28 (1991), p. 211-219 [8] K.Idem, J.Peddieson: Journal of Manufacturing Science and Engineering, Vol. 127 (2005), p. 165-172
Materials: Design and Applications (2005), p. 17-24
Dean: Journal of Materials Processing Technology, Vol. 153–154 (2004), p. 122–127
Dean: International Journal of Mechanical Sciences, Vol. 48 (2006), p. 621–629 [16] S.
Online since: July 2011
Authors: Ivan A. Bataev, Vjacheslav I. Mali, Evgeniy Golovin, Vladimir Burov, Aleksandr Smirnov, Elena A. Prikhodko, Anatoliy A. Bataev
In experiments carried out in the current research number of cycles to failure of multilayer materials was higher than those for bulk materials.
Introduction The increase of the structural materials' mechanical properties is one of the classical problems of materials science.
Materials and methods Low carbon steel was used as a material for research.
Tomoshige: Journal of materials processing technology Vol. 195 (2008), pp. 232-240 [3] H.H.
Zimmerly: Journal of Materials Science 33 (1998) pp. 5327 – 5338 [5] I.
Introduction The increase of the structural materials' mechanical properties is one of the classical problems of materials science.
Materials and methods Low carbon steel was used as a material for research.
Tomoshige: Journal of materials processing technology Vol. 195 (2008), pp. 232-240 [3] H.H.
Zimmerly: Journal of Materials Science 33 (1998) pp. 5327 – 5338 [5] I.
Online since: August 2013
Authors: Maurizio Mor
State of the Art of Shape Memory Materials and Their Applications
Maurizio Mor
Polibrixia Srl, via Branze 45, 25123 - Brescia (BS) - Italy
maurizio.mor@polibrixia.it
Keywords: Shape memory materials, Shape memory actuators, Shape memory applications
Abstract.
State of the art on materials An interesting field of research is on the constitutive model of materials.
Summary The research on shape memory materials and their applications is gaining new important results.
New materials show the possibility of combination of different materials (polymeric and metallic) to realize a multifunctional smart material system.
International Journal of Smart and Nano Materials. 2(3): p. 101-119. (2011) [2] Pellegrini N.: A thermo-dynamical constitutive model based on kinetic approach for shape memory materials. p. 42-48. (2013) [3] Ghosh P., Rao A., and Srinivasa A.R.: Multifunctional Smart Material System (MSMS) using Shape memory alloys and Shape Memory Polymers. (2012) [4] Zhu Y., Zhang Y., and Zhao D.: Micromechanical constitutive model for phase transformation of NiTi polycrystal SMA.
State of the art on materials An interesting field of research is on the constitutive model of materials.
Summary The research on shape memory materials and their applications is gaining new important results.
New materials show the possibility of combination of different materials (polymeric and metallic) to realize a multifunctional smart material system.
International Journal of Smart and Nano Materials. 2(3): p. 101-119. (2011) [2] Pellegrini N.: A thermo-dynamical constitutive model based on kinetic approach for shape memory materials. p. 42-48. (2013) [3] Ghosh P., Rao A., and Srinivasa A.R.: Multifunctional Smart Material System (MSMS) using Shape memory alloys and Shape Memory Polymers. (2012) [4] Zhu Y., Zhang Y., and Zhao D.: Micromechanical constitutive model for phase transformation of NiTi polycrystal SMA.
Online since: October 2014
Authors: S.V. Klishin, Alexander F. Revuzhenko, Anton A. Kazantsev
Introduction
Loose materials stand between rocks and liquids.
Soil anchors – the methods and machines for their installation // Journal of Mining Science, 2007, Volume 43, Issue 6, pp. 640–645
Part I: Etiology and evolution of the Patomsky crater // Journal of Mining Science, 2011, Volume 47, Issue 4, pp. 413–426
Janssen's problem // Journal of Mining Science, 1981, Volume 17, Issue 3, pp. 189–198
A bonded-particle model for rock // International Journal of Rock Mechanics & Mining Sciences, 2004, Volume 41, pp. 1329–1364
Soil anchors – the methods and machines for their installation // Journal of Mining Science, 2007, Volume 43, Issue 6, pp. 640–645
Part I: Etiology and evolution of the Patomsky crater // Journal of Mining Science, 2011, Volume 47, Issue 4, pp. 413–426
Janssen's problem // Journal of Mining Science, 1981, Volume 17, Issue 3, pp. 189–198
A bonded-particle model for rock // International Journal of Rock Mechanics & Mining Sciences, 2004, Volume 41, pp. 1329–1364
Online since: March 2012
Authors: Guang Fu Yin, Ke Chen, Yi Zheng, Jiang Li Lin
Shear Mechanical Properties Characterization of Material via
Ultrasound Vibrometry
Ke Chen1,a, Jiangli Lin1,b, Guangfu Yin1,c and Yi Zheng2,d
1College of Materials Science and Engineering, Sichuan University, China
2Department of Electrical and Computer Engineering, St.
Measurement of mechanical properties is very important in material science research area.
Introduction How to measure mechanical properties of materials and biological tissue noninvasively is an important issue in material science, non-destructive test, and medical diagnosis.
A usual approach for noninvasive measurement is to quantify responses of materials stressed by external force.
Oestreicher: Journal of Acoustical Society of America, Vol. 23(1951), p. 707-714
Measurement of mechanical properties is very important in material science research area.
Introduction How to measure mechanical properties of materials and biological tissue noninvasively is an important issue in material science, non-destructive test, and medical diagnosis.
A usual approach for noninvasive measurement is to quantify responses of materials stressed by external force.
Oestreicher: Journal of Acoustical Society of America, Vol. 23(1951), p. 707-714
Online since: September 2020
Edited by: Dumitru Nedelcu
The 37th volume of the journal "Advanced Engineering Forum" includes peer-reviewed manuscripts presenting the engineering solutions and research results dealing with contemporary problems in applied materials science, mechanical engineering, building engineering, applied mechanics, power engineering and engineering management.
Online since: July 2011
Authors: Jing Lan Deng, Bing Feng
Absorbing Properties of Composite Material Plates of Multi-layer Absorbing Structure
Jinglan Deng1,a Bing Feng 2,b
1,2School of Science, Wuhan University of Technology,
Wuhan 430070, China
ajldeng@whut.edu.cn, bfb031314105@163.com mail,
Keywords: Absorbing materials, Graphite powder, Manganese dioxide, Absorption peak
Abstract: Microwave absorbing material is currently being more and more widely applied in the world.
Functional Materials and Devices Vol. 8(3)( 2002), 8 P.213-217 [4] Guo-zhu Shen, XU Zheng, Ruiqi Cai: Journal of Tongji University (Natural Science Edition).
Functional Materials Vol. 37(2)( 2006), p.197-199
Patent 6,231,666. (2001) [7] Peng CH, Hwang CC, Wan J, Materials Science and Engineering B.
Radio Science .Vol. 24(6),(2009)p.1104-1107 [10] Liying Xing:Stealth Material (Chemical Industry Press, China 2004)
Functional Materials and Devices Vol. 8(3)( 2002), 8 P.213-217 [4] Guo-zhu Shen, XU Zheng, Ruiqi Cai: Journal of Tongji University (Natural Science Edition).
Functional Materials Vol. 37(2)( 2006), p.197-199
Patent 6,231,666. (2001) [7] Peng CH, Hwang CC, Wan J, Materials Science and Engineering B.
Radio Science .Vol. 24(6),(2009)p.1104-1107 [10] Liying Xing:Stealth Material (Chemical Industry Press, China 2004)
Online since: January 2009
Authors: Yu Zhang, Jing Liang Xu, Zhen Hong Yuan
Stimuli-responsive Materials Applied as Carriers of
Immobilized Enzymes
Yu ZHANG
1,2,a,Jingliang XU
1,b,and Zhenhong YUAN
1,c
1.
Most widely used temperature-responsive materials were NIPA (N-isopropylacrylamide) derivatives.
Woodward: Journal of biotechnology Vol. 11(1989), p. 14
Khare: World Journal of Microbiology & Biotechnology Vol. 21(2005), p.6
Huang: Biochemical Engineering Journal Vol. 39(2008), p. 7
Most widely used temperature-responsive materials were NIPA (N-isopropylacrylamide) derivatives.
Woodward: Journal of biotechnology Vol. 11(1989), p. 14
Khare: World Journal of Microbiology & Biotechnology Vol. 21(2005), p.6
Huang: Biochemical Engineering Journal Vol. 39(2008), p. 7