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Online since: February 2021
Authors: Farhad M. Othman, Alaa A. Abul Hamead, M.H.A. Wahid
Neri, Metal oxide nanostructures for solid state gas sensors: A Recent patent survey, Recent Patents on Materials Science 4 (2011) 146-158
Series: Materials Science and Engineering, 454 (2018) 1-7
Wooldridge ''Nanostructured Tin Dioxide Materials for Gas Sensor Applications' Functional Nanomaterials 30 (2006) 1–24
Schmidt, Self-Assembled On-Chip-Integrated Giant Magneto-Impedance Sensorics, Advanced Materials 27(42) (2015) 6582–6589
Hassen, Metal oxide nanoparticles suspension for optoelectronic devises fabrication, International Journal of Nanoelectronics and Materials 6(2) (2013) 121-128 [29] E.T.
Series: Materials Science and Engineering, 454 (2018) 1-7
Wooldridge ''Nanostructured Tin Dioxide Materials for Gas Sensor Applications' Functional Nanomaterials 30 (2006) 1–24
Schmidt, Self-Assembled On-Chip-Integrated Giant Magneto-Impedance Sensorics, Advanced Materials 27(42) (2015) 6582–6589
Hassen, Metal oxide nanoparticles suspension for optoelectronic devises fabrication, International Journal of Nanoelectronics and Materials 6(2) (2013) 121-128 [29] E.T.
Online since: May 2009
Authors: Cheng Yong Wang, Yue Xian Song, L.D. Wu, D.H. Yu
With the development of surface
engineering technology, new coating materials appear rapidly.
[3] S.Smith,J.Tlusty:Journal of Manufacturing Science and Engineering,Vol.119(1997),pp.664-666 [4] S.Ashley: Mechanical Engineering,Vol.5(1995), pp.56-61
[6] Y.N.Hu,C.Y.Wang,J.L.Wang,Z.Qin:Materials Science Forum,Vols.471-472(2004),pp.374-379
[7] Y.M.Quan,C.Y.Wang,Z.W.He: Materials Science Forum, Vols.471-472(2004), pp. 339-343
[8] Z.Qin,C.Y.Wang,Y.N.Hu and Y.S.Lin:Key Engineering Materials,Vols.291-292(2005),pp. 439-442
[3] S.Smith,J.Tlusty:Journal of Manufacturing Science and Engineering,Vol.119(1997),pp.664-666 [4] S.Ashley: Mechanical Engineering,Vol.5(1995), pp.56-61
[6] Y.N.Hu,C.Y.Wang,J.L.Wang,Z.Qin:Materials Science Forum,Vols.471-472(2004),pp.374-379
[7] Y.M.Quan,C.Y.Wang,Z.W.He: Materials Science Forum, Vols.471-472(2004), pp. 339-343
[8] Z.Qin,C.Y.Wang,Y.N.Hu and Y.S.Lin:Key Engineering Materials,Vols.291-292(2005),pp. 439-442
Online since: December 2011
Authors: Sukangkana Lee, Chawalit Thinvongpituk, Tummasook Mingmuang
Journal of materials processing technology 204(2008)279–283
[2] C.Kohnle , O.Mintchev , D.Brunner , S.Schmauder .
Computational Materials Science 19 (2000) 261-266 [3] C.Kohnle , O.Mintchev , S.Schmauder.
Elastic and plastic fracture energies of metal/ceramic joints .Computational Materials Science 25 (2002) 272–277 [4] A.A.
Journal of Materials Processing Technology, 26 (1991) 133-140 [5] M.N.
Journal of materials processing technology 209(2009) 1644–1653 [7] Anan Promasittiboot, 2004 Development of friction welding for metal.
Computational Materials Science 19 (2000) 261-266 [3] C.Kohnle , O.Mintchev , S.Schmauder.
Elastic and plastic fracture energies of metal/ceramic joints .Computational Materials Science 25 (2002) 272–277 [4] A.A.
Journal of Materials Processing Technology, 26 (1991) 133-140 [5] M.N.
Journal of materials processing technology 209(2009) 1644–1653 [7] Anan Promasittiboot, 2004 Development of friction welding for metal.
The Microstructure and Properties of 304L Stainless Honeycombs Fabricated by Extruding and Sintering
Online since: November 2011
Authors: Yun Zhou, Huang Peng, Meng Xuan, Xiao Qing Zuo
The Microstructure and Properties of 304L Stainless Honeycombs Fabricated by Extruding and Sintering
Yun Zhou a, Huang Peng, Meng Xuan and Xiaoqing Zuo
Faculty of Materials Science and Engineering, Kunming University of Science and Technology, Kunming,Yunnan, 650093,China
azyuncrystal@yahoo.com
Keywords: Metallic honeycomb, Extruded honeycomb, 304L, Catalyst support, Extruding and sintering.
Experimental Procedure 304L powder is main raw materials used in the fabrication of the metal honeycombs.
Sun: Materials Science and Engineering A, Vol. 457 (2007), p.329 [12] Y.Zhou, X.Q.
Sun: Journal of Materials Science & Engineering (in Chinese),Vol.23(2005),p.504 [13] Y.Zhou, X.Q.
Zuo, T.Zhang: 316L Stainless Honeycombs Fabricated by Extruding and Sintering, Advanced Materials Research, Vols.146-147 (2011), p1921
Experimental Procedure 304L powder is main raw materials used in the fabrication of the metal honeycombs.
Sun: Materials Science and Engineering A, Vol. 457 (2007), p.329 [12] Y.Zhou, X.Q.
Sun: Journal of Materials Science & Engineering (in Chinese),Vol.23(2005),p.504 [13] Y.Zhou, X.Q.
Zuo, T.Zhang: 316L Stainless Honeycombs Fabricated by Extruding and Sintering, Advanced Materials Research, Vols.146-147 (2011), p1921
Online since: February 2012
Authors: Peng Fei Yang
Introduction
Polyurethanes (PUs) are a very large and varied family of extraordinarily versatile and useful engineering materials.
The structures of raw materials, i.e., isocyanates or alcohols, are an important factor to affect the urethane reaction kinetics.
Experimental parts Materials and instruments.
Progress in Materials Science Vol. 52 (2007) p. 915 [2] S.G.
European Polymer Journal Vol. 34 (1998) p. 1273 [9] J.H.
The structures of raw materials, i.e., isocyanates or alcohols, are an important factor to affect the urethane reaction kinetics.
Experimental parts Materials and instruments.
Progress in Materials Science Vol. 52 (2007) p. 915 [2] S.G.
European Polymer Journal Vol. 34 (1998) p. 1273 [9] J.H.
Online since: June 2014
Authors: Mei Zhen Ke, Nan Wu, Zhan Hui Yuan, Wei Ming Zhou, Qing Rong Qian, Qing-Hua Chen
An exploration of factors affecting the preparation of
SiO2-coated α-Al2O3 pearlescent pigment
Nan Wu1,a, Qinghua Chen1,b*, Weiming Zhou2,c, Meizhen Ke2,d,
Qingrong Qian1,e*, Zhanhui Yuan1,f
1 College of Environmental Science and Engineering, Fujian Normal University, Fuzhou, China
2 College of Materials Science and Engineering, Fujian Normal University, Fuzhou, China
a 270732913@qq.com, b cqhuar@126.com, c zhouweiming721@126.com, d 757412608@qq.com,
e qrqian@fjnu.edu.cn, f zhanhui.yuan@fzkuncai.com
Keywords: SiO2-coated α-Al2O3; pearlescent pigment; liquid phase deposition
Abstract: The SiO2-coated α-Al2O3 pearlescent pigment was prepared by liquid phase deposition (LPD).
Introduction Pearlescent pigment is one of the color effect materials which composed of a highly reflective platelet-shaped substrate encapsulated with a low index of refraction material [1].
It is widely applied in plastics, printing ink, cosmetic and ceramic materials due to its unique decorative optical color effects and weather-resistance effects [2].
Experimental Raw materials and reagents.
Patent 8,287,636. (2012) [5] Cui Aili, Wang Tingjie, Jin Yong, Xiao Shuaigang, Ge Xudong, Mechanism and Structure Analysis of TiO2 surface coated with SiO2 and Al2O3, Chemical journal of Chinese universities. 19 (1998) 1727-1729.
Introduction Pearlescent pigment is one of the color effect materials which composed of a highly reflective platelet-shaped substrate encapsulated with a low index of refraction material [1].
It is widely applied in plastics, printing ink, cosmetic and ceramic materials due to its unique decorative optical color effects and weather-resistance effects [2].
Experimental Raw materials and reagents.
Patent 8,287,636. (2012) [5] Cui Aili, Wang Tingjie, Jin Yong, Xiao Shuaigang, Ge Xudong, Mechanism and Structure Analysis of TiO2 surface coated with SiO2 and Al2O3, Chemical journal of Chinese universities. 19 (1998) 1727-1729.
Online since: November 2012
Authors: Gui Xiang Liu, Chu La Sa, Mu Lan Wang
Establishment of Virtual campus based on ArcGIS
Chula SA1,2,3,a, Guixiang Liu2,b and Mulan Wang1,c
1 College of Geographical Science Inner Mongolia Normal University, hohhot 010022, China
2 Grassland Research Institute of Chinese Academy of Agricultural Sciences, hohhot 010010, China
3 Inner Mongolia key laboratory of remote sensing and geographic information system, Inner Mongolia Normal University, hohhot 010022, China
asachulan@126.com, bliugx804@163.com, cmulan@imnu.edu.cn
Corresponding author: Guixiang Liu,Email:liugx804@163.com
Keywords: ArcGis, Sketchup, Map, Virtual campus
Abstract.
Materials and methods Study area Inner Mongolia normal university, founded in 1952, is one of the earliest established higher schools after the founding of the new China in the border and minority area by party and state, the school area 3801 mu, and building area of schoolhouse 69.8 million square meters.
Research materials Campus data mainly comes from geographical science institute.
Journal of Donghua College of Science,2004, 27 (2):21-23
Beijing: Science Press,2006,308-316
Materials and methods Study area Inner Mongolia normal university, founded in 1952, is one of the earliest established higher schools after the founding of the new China in the border and minority area by party and state, the school area 3801 mu, and building area of schoolhouse 69.8 million square meters.
Research materials Campus data mainly comes from geographical science institute.
Journal of Donghua College of Science,2004, 27 (2):21-23
Beijing: Science Press,2006,308-316
Online since: October 2014
Authors: Irina Kireeva, Elena Panchenko, Ekaterina Timofeeva, Yuriy Chumlyakov, Irina Kretinina, Olga Kuts, Hans Jürgen Maier, Ibrahim Karaman
Conclusion
The investigations of ferromagnetic FeNiCoAlX (X=Ta, Nb, Ti) and NiFeGaCo single crystals presented above show that precipitation of nanoparticles with different chemical composition, size and volume fraction is a promising approach towards designing a new class of high-strength functional materials with SME and SE.
Kainuma, K Ishida, Martensitic and magnetic transformations of Ni-Ga-Fe-Co ferromagnetic shape memory alloys, Materials Science and Engineering.
Ferrous polucristalline shape memory alloy showing huge superelasticity, Science. 327 (2010) 1488-1490
Panchenko, etc., Shape memory effect in FeNiCoTi single crystals, experiencing γ-α' thermoelastic martensitic transformation, Reports of the Academy of Sciences. 394 (2004) 54-57
Wayman, Shape memory materials, Cambridge University Press, 1998
Kainuma, K Ishida, Martensitic and magnetic transformations of Ni-Ga-Fe-Co ferromagnetic shape memory alloys, Materials Science and Engineering.
Ferrous polucristalline shape memory alloy showing huge superelasticity, Science. 327 (2010) 1488-1490
Panchenko, etc., Shape memory effect in FeNiCoTi single crystals, experiencing γ-α' thermoelastic martensitic transformation, Reports of the Academy of Sciences. 394 (2004) 54-57
Wayman, Shape memory materials, Cambridge University Press, 1998
Online since: January 2010
Authors: Xiu Li Liu, Lin Zhao, She Jiang Liu, Lu Hua You
The application of carbon materials is increased to wastewater treatment[13-18]
.
Referring to activate carbon fiber(ACF),it behaves superior to other activated carbon materials with rich poles, mechanical stability, absorption and compatibility, which have been studied in degradation of phenol wastewater [19-21] .
Materials and Analytical Methods.
The growth of encasulated microbes might depend on the immobilization materials,cell loading and cell type used.
:Chemosphere Vol.38(1998), p.2667 [19]Yin Yan-e, Hu Zhonghua and Li Qiuyu: China water & wastetwater Vol.22 (2006), p.93 [20] Zhou Juanjuan, Hu Zhonghua and Liu Yafei: New Carbon Materials Vol.21 (2006), p.64
Referring to activate carbon fiber(ACF),it behaves superior to other activated carbon materials with rich poles, mechanical stability, absorption and compatibility, which have been studied in degradation of phenol wastewater [19-21] .
Materials and Analytical Methods.
The growth of encasulated microbes might depend on the immobilization materials,cell loading and cell type used.
:Chemosphere Vol.38(1998), p.2667 [19]Yin Yan-e, Hu Zhonghua and Li Qiuyu: China water & wastetwater Vol.22 (2006), p.93 [20] Zhou Juanjuan, Hu Zhonghua and Liu Yafei: New Carbon Materials Vol.21 (2006), p.64
Online since: October 2013
Authors: Xue Kun Li, Yi Ming(Kevin) Rong, Sebastian Wolf, Geng Zhi
Among all abrasive materials, CBN is the second hardest material and has the great abrasion resistance for high grinding speed with minimal tool wear [1,2,3].
References [1] Johnson, G.A.: CBN Wheel Grinding: Journal of Metals – Forum Features.
Vol.09 (1987) , p. 62-63 [2] Chen, X., Rowe, W.B., Cai, R: International Journal of Machine Tools & Manufacture.
Vol.42-2(1993), p.723-732 [4] Jackson, M.J., Davis, C.J., Hitchiner, M.P., Mills: Journal of Materials Processing Technology.
Vol.211 (1997), p.218-225 [6] Balasz, B., Szatkiewicz, T., Krolikowski, T.: Lecture Notes in Computer Science Volume.
References [1] Johnson, G.A.: CBN Wheel Grinding: Journal of Metals – Forum Features.
Vol.09 (1987) , p. 62-63 [2] Chen, X., Rowe, W.B., Cai, R: International Journal of Machine Tools & Manufacture.
Vol.42-2(1993), p.723-732 [4] Jackson, M.J., Davis, C.J., Hitchiner, M.P., Mills: Journal of Materials Processing Technology.
Vol.211 (1997), p.218-225 [6] Balasz, B., Szatkiewicz, T., Krolikowski, T.: Lecture Notes in Computer Science Volume.