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Online since: December 2014
Authors: Mohammed S. Subrati, Sunil P. Lonkar, Ahmed A. Abdala
These hybrids are envisioned as materials with high H2S sorption capacities and hold great promise in natural gas sweetening applications.
Activated Carbon and Carbon Molecular Sieves are the most employed materials in industrial gas separations [5].
Hence, considering such highly amino-functionalized surface, these graphene materials hold high potential in natural gas sweetening with special emphasis on H2S adsorption.
“Natural gas treating by selective adsorption: Material science and chemical engineering interplay”.
“Effect of Exfoliation Temperature on Carbon Dioxide Capture of Graphene Nanoplates”.Journal of Colloid and Interface Science, vol. 386(1), pp. 285-290, Jul. 2012 [7] E.
Activated Carbon and Carbon Molecular Sieves are the most employed materials in industrial gas separations [5].
Hence, considering such highly amino-functionalized surface, these graphene materials hold high potential in natural gas sweetening with special emphasis on H2S adsorption.
“Natural gas treating by selective adsorption: Material science and chemical engineering interplay”.
“Effect of Exfoliation Temperature on Carbon Dioxide Capture of Graphene Nanoplates”.Journal of Colloid and Interface Science, vol. 386(1), pp. 285-290, Jul. 2012 [7] E.
Online since: September 2011
Authors: J. Froitzheim, J.E. Svensson
The coatings have been applied by Sandvik Materials Technology in a proprietary process.
Fig 2 Cr evaporation from various coated and uncoated materials.
Fig 3 is a plot of the mass gain of the coated and uncoated materials over time.
However, after 72h the increase in mass gain is similar to the Ce coated material and lower than the uncoated materials.
Journal of Fuel Cell Science and Technology. 7(1)
Fig 2 Cr evaporation from various coated and uncoated materials.
Fig 3 is a plot of the mass gain of the coated and uncoated materials over time.
However, after 72h the increase in mass gain is similar to the Ce coated material and lower than the uncoated materials.
Journal of Fuel Cell Science and Technology. 7(1)
Online since: January 2014
Authors: Tian Tian, Xi Qing Yue, Jun Rui Wu
Induction
Soybean paste regard soybean as main raw materials, also known as sauce, yellow soybean paste or big sauce [1].
Materials and Methods Sample collection. 21 Sample of soybean paste were collected in Liaoning province Sample analysis.
The changing range of crude protein were 4.37~9.31g, average value was 6.79g, which was because different soybean paste had different materials and different types of microbe, Eventually led to different content of crude protein.
Korean Journal of Food Science Technology, 35, (2003), 1174–1181
Journal of Food Science, 73(5), (2008), 191–198.
Materials and Methods Sample collection. 21 Sample of soybean paste were collected in Liaoning province Sample analysis.
The changing range of crude protein were 4.37~9.31g, average value was 6.79g, which was because different soybean paste had different materials and different types of microbe, Eventually led to different content of crude protein.
Korean Journal of Food Science Technology, 35, (2003), 1174–1181
Journal of Food Science, 73(5), (2008), 191–198.
Online since: September 2019
Authors: Anatoly P. Surzhikov, Alexander S. Bagdasaryan, Alexander I. Yurin, Alexey F. Belyanin, Sergey A. Bagdasaryan
O’Dwyer, Artificial opal photonic crystals and inverse opal structures – fundamentals and applications from optics to energy storage, Journal of materials chemistry C 3(24) (2015) 6109-6143, DOI: 10.1039/c5tc01083g
Kuznetsov, Three-dimensional nanocomposite metal dielectric materials on the basis of opal matrices, Russian journal of general chemistry 83(11) (2013) 2148-2158, DOI: 10.1134/S1070363213110340
Bagdasaryan, Nanostructures carbon materials in emission electronics, Russian Technological Journal 5(3) (2017) 22‒40 (in Russian)
Sanchez-Dehesa, Face centered cubic photonic bandgap materials based on opal-semiconductor composites, Journal of lightwave technology 17(11) (1999) 1975-1981, DOI: 10.1109/50.802983
Osipov, Development of an acoustoelectric method for determining the porosity of dielectric materials, Russian Journal of Nondestructive Testing 43(2) (2007) 95-99, doi: 10.1134/S1061830907020040
Kuznetsov, Three-dimensional nanocomposite metal dielectric materials on the basis of opal matrices, Russian journal of general chemistry 83(11) (2013) 2148-2158, DOI: 10.1134/S1070363213110340
Bagdasaryan, Nanostructures carbon materials in emission electronics, Russian Technological Journal 5(3) (2017) 22‒40 (in Russian)
Sanchez-Dehesa, Face centered cubic photonic bandgap materials based on opal-semiconductor composites, Journal of lightwave technology 17(11) (1999) 1975-1981, DOI: 10.1109/50.802983
Osipov, Development of an acoustoelectric method for determining the porosity of dielectric materials, Russian Journal of Nondestructive Testing 43(2) (2007) 95-99, doi: 10.1134/S1061830907020040
Online since: February 2011
Authors: Yong Xian Liu, Cheng San Yang, Yu Lun Chi, Xue Feng Bi
Journal of materials processing technology Vol. 202 (2008), p. 475
[3] H.
International Journal of Machine Tools and Manufacture Vol. 48 (2008), p. 228 [4] M.G.
Journal of Northeastern University (Natural Science) Vol. 30 (2009), p. 1185 (in Chinese) [6] J.
International Journal of Machine Tools and Manufacture Vol. 43 (2003), p. 103 [7] F.Klocke and H.
Advanced Materials Research Vol. 97-101 (2009), p.1891
International Journal of Machine Tools and Manufacture Vol. 48 (2008), p. 228 [4] M.G.
Journal of Northeastern University (Natural Science) Vol. 30 (2009), p. 1185 (in Chinese) [6] J.
International Journal of Machine Tools and Manufacture Vol. 43 (2003), p. 103 [7] F.Klocke and H.
Advanced Materials Research Vol. 97-101 (2009), p.1891
Online since: October 2011
Authors: Lei Zhang, Wen Tao Zhang, Zhi Yong Wu
This hypothesis is supported by the fact that a wide range of ductile materials, such as pure metals and polymers, have been successfully deposited [9].
Khor: Advanced Engineering Materials Vol. 9(2007), p. 418-423 [2] S.
Liu: Materials Letters Vol. 60(2006), p. 2627-2632 [5] R.C.
Helfritch: Applied Surface Science Vol. 219(2003), p.211-227 [7] T.
Gao: Applied Surface Science Vol. 255(2009), p.7878-7892 [9] T.
Khor: Advanced Engineering Materials Vol. 9(2007), p. 418-423 [2] S.
Liu: Materials Letters Vol. 60(2006), p. 2627-2632 [5] R.C.
Helfritch: Applied Surface Science Vol. 219(2003), p.211-227 [7] T.
Gao: Applied Surface Science Vol. 255(2009), p.7878-7892 [9] T.
Online since: February 2012
Authors: Hai Hong Wu, Yong Feng Cheng, Xing Zhi Sun
Experiments
Materials
The 304 SSF used in the experiments were made by Huitong Advanced Material Company in China.
Journal of Polymer Science, Part B:Polymer Physics 2004;42(11):2161-7
Journal of Polymer Science, Part B: Polymer Physics 2003;41(17):2079-89
Advanced Materials 2005; 17:1186-91
Chemistry of Materials 2007;19:3787-92
Journal of Polymer Science, Part B:Polymer Physics 2004;42(11):2161-7
Journal of Polymer Science, Part B: Polymer Physics 2003;41(17):2079-89
Advanced Materials 2005; 17:1186-91
Chemistry of Materials 2007;19:3787-92
Online since: May 2013
Authors: Feng Sheng Li, Xiao Lan Song, Guo Dong Deng, Wei Jiang, Yi Wang
Experimental
Materials and Instrument.
Zhang: Journal of Functional Materials, Vol. 39 (2008) No.11, p.1900
Jiang: Materials Letters, Vol. 63 (2009) No.2, p.282-284
Guo: Journal of Functional Materials, Vol. 40 (2009) No.11, p.1870
Gong: Journal of Hazardous Materials, Vol. 177 (2010) No.3, p.554
Zhang: Journal of Functional Materials, Vol. 39 (2008) No.11, p.1900
Jiang: Materials Letters, Vol. 63 (2009) No.2, p.282-284
Guo: Journal of Functional Materials, Vol. 40 (2009) No.11, p.1870
Gong: Journal of Hazardous Materials, Vol. 177 (2010) No.3, p.554
Online since: August 2014
Authors: Radomír Sokolař, Lucie Vodová
Acknowledgements
This work was financially supported by the Czech Science Foundation, research project No.
Jinnai: Journal of the European Ceramic Society.
U., Demirkol, N., Capoglu, A.: Journal of the European Ceramic Society.
Sanchez Vilchez: Journal of the European Ceramic Society.
Journal of the European Ceramic Society.
Jinnai: Journal of the European Ceramic Society.
U., Demirkol, N., Capoglu, A.: Journal of the European Ceramic Society.
Sanchez Vilchez: Journal of the European Ceramic Society.
Journal of the European Ceramic Society.
Online since: December 2012
Authors: Yue Hai Wu, Hong Jiang Chen
Application of ANSYS in Grid Structure
Hongjiang Chen1,a, YueHai Wu2,b
1Vocational technical college
in Jiangxi Normal University of science and technology in china
2robotics industry department of shanghai ABB Engineering Co.
Fig.1 Schematic diagram of Link8 unit The material model selection[1].Grid structure of the material model selection but also to the entire simulation engineering accuracy has a major impact, the correct choice of material model, the virtual engineering reliability have major effect, once again we choose low carbon steel Q235 as the grid structure of the material, in order to reduce the computational load, avoid the material nonlinearity nonlinear problems, the Q235 for linear elastic materials, and the definition of its elastic modulus 201Gpa, Poisson's ratio is 0.3, allowable stress 210Mpa.
Compared with the original optimization the design before saving a lot of materials.
References [1] XueJie Ma: Based Ansys Optimization Design of truss, JiaoZuo Univesity Journal, Vol, 4(2004) P.18-24, in Chinese
[2] ChangZhong Ke,HaiBo Suo: Ansys Optimized Techology applied in the Construction Design,The Science and Technology of WuHan Journal,Vol,1(2005) [3] Ansys Company: Nonlinear analysis guide in Ansys [4] JiangHong Wang: Stress Relaxation of the Joint between Bolt and Flange, in: Steam Turbine Technology, 42(1), (2000) [5] Earl M.Smoley: Gasket Materials and Forms [J], in: Machine Design (1969), (6):67-73 [6] ANSYS Element Data-Base ansys10.0 help
Fig.1 Schematic diagram of Link8 unit The material model selection[1].Grid structure of the material model selection but also to the entire simulation engineering accuracy has a major impact, the correct choice of material model, the virtual engineering reliability have major effect, once again we choose low carbon steel Q235 as the grid structure of the material, in order to reduce the computational load, avoid the material nonlinearity nonlinear problems, the Q235 for linear elastic materials, and the definition of its elastic modulus 201Gpa, Poisson's ratio is 0.3, allowable stress 210Mpa.
Compared with the original optimization the design before saving a lot of materials.
References [1] XueJie Ma: Based Ansys Optimization Design of truss, JiaoZuo Univesity Journal, Vol, 4(2004) P.18-24, in Chinese
[2] ChangZhong Ke,HaiBo Suo: Ansys Optimized Techology applied in the Construction Design,The Science and Technology of WuHan Journal,Vol,1(2005) [3] Ansys Company: Nonlinear analysis guide in Ansys [4] JiangHong Wang: Stress Relaxation of the Joint between Bolt and Flange, in: Steam Turbine Technology, 42(1), (2000) [5] Earl M.Smoley: Gasket Materials and Forms [J], in: Machine Design (1969), (6):67-73 [6] ANSYS Element Data-Base ansys10.0 help