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Online since: January 2016
Authors: Jakrapong Kaewkhao, Noppadon Chamchoi, Wichian Siriprom, K. Teanchai, A. Montree, Narong Sangwaranatee
Comparation trace element and Structural of filler materials
in Chitosan films
N.
Introduction The advances in technology have been developed the properties of new polymeric materials in any fields, like blends, composites, etc [1].
The egg shell fragments were immersed in H2SO4 for remove impurity and interference materials.
Acknowledgements The authors wish to thank Plasma for Surface Sciences Laboratory, Thailand Center of Excellence in Physics (ThEP), PERDO, CHE and the Center of Excellence in Glass Technology and Materials Science (CEGM), Nakhon Pathom Rajabhat University to some analytical equipment.
Physicochemical characterization of chitosan derivatives, Journal of Food. 11 (2013) 190-197
Introduction The advances in technology have been developed the properties of new polymeric materials in any fields, like blends, composites, etc [1].
The egg shell fragments were immersed in H2SO4 for remove impurity and interference materials.
Acknowledgements The authors wish to thank Plasma for Surface Sciences Laboratory, Thailand Center of Excellence in Physics (ThEP), PERDO, CHE and the Center of Excellence in Glass Technology and Materials Science (CEGM), Nakhon Pathom Rajabhat University to some analytical equipment.
Physicochemical characterization of chitosan derivatives, Journal of Food. 11 (2013) 190-197
Online since: July 2014
Authors: Ravi G, Banoth Hima Bindu, Sri Rama R. Devi, Ravi Gugulothu
The experimental results computed in the field of water distillation process using solar energy in the presence of energy storage materials sodium sulphate and sodium acetate are discussed in this paper.
In this experiment, Sodium acetate (C2H3NaO2) and Sodium sulfate (Na2SO410H2O) are used as Phase Change Materials.
Dissolving phase change materials in water, enhances its absorptivity of solar radiation.
Glass cover inside and outside temperatures increased with respect to time with maximum temperatures in the Noon with 350C and 300C respectively in the presence of phase change materials.
[8] Swetha K and Venugopal (2011), “Experimental Investigation of a Single sloped still using PCM”, International Journal of Research in Environmental Science and Technology, 1(4), 30-33, 2011.
In this experiment, Sodium acetate (C2H3NaO2) and Sodium sulfate (Na2SO410H2O) are used as Phase Change Materials.
Dissolving phase change materials in water, enhances its absorptivity of solar radiation.
Glass cover inside and outside temperatures increased with respect to time with maximum temperatures in the Noon with 350C and 300C respectively in the presence of phase change materials.
[8] Swetha K and Venugopal (2011), “Experimental Investigation of a Single sloped still using PCM”, International Journal of Research in Environmental Science and Technology, 1(4), 30-33, 2011.
Online since: January 2013
Authors: Jun Liu, Wen Hui Sun, Xu Ming Wang, Chao Lin
Study on Compatibility of Modified the Cement-based Composite Biomass Materials by Agent
Jun Liu1,a, Chao Lin 2,b , Wenhui Sun1,cand Xuming Wang3,d
1School of Materials Science and Engineering, Shenyang Jianzhu University, Shenyang 110168, China
2Himin Solar Co., Ltd, ShanDong 253000, China
3School of Management, Shenyang Jianzhu University, ShenYang 110168, China
aliujun2699@126.com, bLinc650224@163.com, cswhno.1md001@163.com, dwangxumingfan@163.com
Keywords:Compatibility;The cement-based composite biomass materials;Agent(key words)
Abstract.
So people found the biomass materials and the biomass materials technologies were developed rapidly.
Tu: NEW BUILDING MATERIALS.
[3] W.W and R.C.et al: Forest Products Journal.
[4] Hachmi M, Moslemi A.A, et al,: Wood Science and Technology.
So people found the biomass materials and the biomass materials technologies were developed rapidly.
Tu: NEW BUILDING MATERIALS.
[3] W.W and R.C.et al: Forest Products Journal.
[4] Hachmi M, Moslemi A.A, et al,: Wood Science and Technology.
Online since: October 2013
Authors: Dan Wang, Rui Fan, Jiang Zhen Guo, Wu Yi Chen, Yong Sheng Sun
The experimental results illustrate that the proposed PMTM is capable of performing multiaxial loading tests of materials and thus a suitable candidate for multiaxial material testing machine.
In conclusion, the PMTM is a viable choice for multiaxial mechanical properties test of materials.
Tokuda, "Mechanical evaluation of spinal deformation using 6-axis material testing machine," Journal of Biomechanics, vol. 39, Supplement 1, p.
Hinton, "Adaptive control of materials-testing machines," Automatica, vol. 33, pp. 1119-1131, 1997
Ince, "Fatigue characterization and modeling of 30CrNiMo8HH under multiaxial loading," Materials Science and Engineering A, vol. 528, pp. 2484-2494, 2011
In conclusion, the PMTM is a viable choice for multiaxial mechanical properties test of materials.
Tokuda, "Mechanical evaluation of spinal deformation using 6-axis material testing machine," Journal of Biomechanics, vol. 39, Supplement 1, p.
Hinton, "Adaptive control of materials-testing machines," Automatica, vol. 33, pp. 1119-1131, 1997
Ince, "Fatigue characterization and modeling of 30CrNiMo8HH under multiaxial loading," Materials Science and Engineering A, vol. 528, pp. 2484-2494, 2011
Online since: March 2008
Authors: Hong Tao Zhu, Chuan Zhen Huang, Jun Wang, Cui Lian Che, Quan Lai Li
Two kinds of materials, 96% alumina and glass, were eroded.
Acknowledgement This project is supported by Key Project of Shandong Natural Science Foundation (Z2005F02) and J.
Feng: Key Engineering Materials, Vol.304-305 (2006), pp.560-564
Kovacevic: International Journal of Fracture, Vol.71 (1995) No.1, pp.1-14
Hashish: Journal of Engineering Materials and Technology, Vol.111 (1989), pp.221-228.
Acknowledgement This project is supported by Key Project of Shandong Natural Science Foundation (Z2005F02) and J.
Feng: Key Engineering Materials, Vol.304-305 (2006), pp.560-564
Kovacevic: International Journal of Fracture, Vol.71 (1995) No.1, pp.1-14
Hashish: Journal of Engineering Materials and Technology, Vol.111 (1989), pp.221-228.
Online since: December 2010
Authors: Ying Chun Zhang, Shu Ming Wang, Ze Shuang Wu, Xiu Juan Wan, Yan Hong Liu
Density of Li2TiO3 Solid Tritium Breeding Ceramic Pebbles
Yingchun Zhang1, a, Zeshuang Wu1, Shuming Wang1, XiuJuan Wan2 and Yanhong Liu1
1 School of Materials Science and Engineering, University of Science and Technology Beijing, Beijing 100083, P.R.
Oh, et al.: Journal of Nuclear Materials Vol. 253 (1998), p. 203 [3] K.
Kawamura: Journal of Nuclear Materials Vol. 283-287 (2000), p.1380 [4] K.
Nuclear Materials Vol.345 (2005), p. 239 [5] K.
Jung: Journal of Nuclear Materials Vol. 341 (2005), p.148 [7] S.
Oh, et al.: Journal of Nuclear Materials Vol. 253 (1998), p. 203 [3] K.
Kawamura: Journal of Nuclear Materials Vol. 283-287 (2000), p.1380 [4] K.
Nuclear Materials Vol.345 (2005), p. 239 [5] K.
Jung: Journal of Nuclear Materials Vol. 341 (2005), p.148 [7] S.
Online since: May 2014
Authors: Zhi Gang Wang, Lu Dan Shi, Min Jing, Yong Xu
Procedure and Discussion of Failure Analysis in Iron-steel Materials
Wang Zhigang1,a, Shi Ludan1,b,Jing Min1,c, Xu Yong1,d
1School of Materials Science and Engineering, Shandong Jianzhu University, Fengming Road,Jinan 250101, China
awangzhigang@sdjzu.edu.cn, bshiludan2337927@126.com, cshandajingm@163.com,
dxuyong2612@sdjzu.edu.cn
Key words: H13 steel; Hot-forging mould; Failure analysis; Open experiments
Abstract.
Introduction The demonstration experiments by teachers are the main way in the current experimental teaching of metal materials major[1-3].
Estreicher: Journal ofSouthwest Agricultural University (Social Scial Science Edition).
Estreicher: Transactions of Materials and Heat Treatment.
Estreicher:Journal of Phase Equilibria.
Introduction The demonstration experiments by teachers are the main way in the current experimental teaching of metal materials major[1-3].
Estreicher: Journal ofSouthwest Agricultural University (Social Scial Science Edition).
Estreicher: Transactions of Materials and Heat Treatment.
Estreicher:Journal of Phase Equilibria.
Online since: August 2010
Authors: Bing Lin Li, Ling Ling, Yu Jin Hu, Xue Lin Wang
Soehner: Machining science and technology, Vol. 9(2005), p.
271
Zeren: Journal of Materials Processing Technology, Vol. 153-154(2004), p. 1019
Baker: Journal of Materials Processing Technology, Vol. 167(2005), p. 1
Molinari: International Journal of Mechanical Science, Vol. 39(1997), p. 369-389
Chazal: Machining science and technology, Vol. 9(2005), p. 131-145.
Zeren: Journal of Materials Processing Technology, Vol. 153-154(2004), p. 1019
Baker: Journal of Materials Processing Technology, Vol. 167(2005), p. 1
Molinari: International Journal of Mechanical Science, Vol. 39(1997), p. 369-389
Chazal: Machining science and technology, Vol. 9(2005), p. 131-145.
Online since: November 2006
Authors: Chun An Tang, Yong Bin Zhang, Yu Jun Zuo, Zheng Zhao Liang
Friction in closed flaws is modeled by inserting ideal elasto-plastic materials into
the flaws.
International Journal of Rock Mechanics & Mining Sciences, Vol.38 (2001), p. 909-924 [6] C.A.
Analysis of crack coalescence in rock-like materials containing three flaws--Part II: numerical approach.
International Journal of Rock Mechanics & Mining Sciences, Vol.38 (2001), p. 925-939 [7] Sahouryeh, E, Dyskin, A.V. and Germanovich, L.N.
International Journal of Rock Mechanics & Mining Sciences, Vol.41(3) (2003), p. 419-419. .
International Journal of Rock Mechanics & Mining Sciences, Vol.38 (2001), p. 909-924 [6] C.A.
Analysis of crack coalescence in rock-like materials containing three flaws--Part II: numerical approach.
International Journal of Rock Mechanics & Mining Sciences, Vol.38 (2001), p. 925-939 [7] Sahouryeh, E, Dyskin, A.V. and Germanovich, L.N.
International Journal of Rock Mechanics & Mining Sciences, Vol.41(3) (2003), p. 419-419. .
Online since: August 2017
Authors: Wanichaya Mekprasart, Wisanu Pecharapa, Anucha Wannagon, Thanaphon Kansaard, Weerachon Phoohinkong, Samanya Sanguanpak
Comparison Study of Photocatalytic Activity of Titanium-Rich Materials Derived from Natural Minerals Ores Using Acidic Leaching
Thanaphon Kansaard1,a*, Weerachon Phoohinkong1,b,
Wanichaya Mekprasart1,c, Samanya Sanguanpak2,d, Anucha Wannakon2,e and Wisanu Pecharapa1,f
1College of Nanotechnology, King Mongkut’s Institute of Technology Ladkrabang,
Ladkrabang, Bangkok, 10520 Thailand
2Nation Metal and Materials Technology Center, National Science and Technology
Development Agency, Pathumthani, 12120 Thailand
a*tkansaard@gmail.com, bp_veerachon@hotmail.com, cwani.mek@gmail.com, dsamunys@mtec.or.th, eanuchaw@mtec.or.th and f kpewisan@gmail.com
Keywords: Photocatalyst, Titanium-rich materials, Acid Leaching and Rhodamine B
Abstract.
Over past decades, titanium dioxide-based materials have been recognized as effectively practical photocatalysts for purification of toxicity waste.
Introduction Titanium dioxide (TiO2) is one of promising materials and applied in various industries, for example, white pigment in painting industry, photocatalyst reaction, photovoltaic layer and ceramic coating material [1].
This research is focused on the preparation of titanium rich materials for low cost ilmenite and leucoxene ores using chloride leaching process.
The chemical compositions of all materials were composed of titanium (Ti) iron (Fe) and oxygen (O).
Over past decades, titanium dioxide-based materials have been recognized as effectively practical photocatalysts for purification of toxicity waste.
Introduction Titanium dioxide (TiO2) is one of promising materials and applied in various industries, for example, white pigment in painting industry, photocatalyst reaction, photovoltaic layer and ceramic coating material [1].
This research is focused on the preparation of titanium rich materials for low cost ilmenite and leucoxene ores using chloride leaching process.
The chemical compositions of all materials were composed of titanium (Ti) iron (Fe) and oxygen (O).