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Online since: June 2012
Authors: Hai Zhen Ren, Lin Feng Yang, Xiang Hong Ge, Yu Guang Zhang
Optimizing high harmonic generation in hollow core photonic crystal fiber as new optical waveguide materials
Haizhen Rena, Linfeng Yangb, Xianghong Ge and Yuguang Zhang
Department of Physics, College of Science, Zhongyuan University of Technology, Zhengzhou, 450007, China
ahzhren@gmail.com, byanglf@yahoo.com
Keywords: HHG, femtosecond laser, photonic crystal fiber,new optical waveguide materials
Abstract.
We investigated the high harmonic generation (HHG) from the interaction of intense femtosecond laser pulse and rare gas in the hollow core photonic crystal fiber(HCPCF) as new optical waveguide materials.
Knight et.: Science Vol. 285 (1999), p. 1537 [3] A.
Zhang et.: IEEE Journal of Quantum Electronics Vol. 42 (2006), p. 14 [4] E.
Wagner et.: Science Vol. 302 (2003), p. 95 [5] P.
We investigated the high harmonic generation (HHG) from the interaction of intense femtosecond laser pulse and rare gas in the hollow core photonic crystal fiber(HCPCF) as new optical waveguide materials.
Knight et.: Science Vol. 285 (1999), p. 1537 [3] A.
Zhang et.: IEEE Journal of Quantum Electronics Vol. 42 (2006), p. 14 [4] E.
Wagner et.: Science Vol. 302 (2003), p. 95 [5] P.
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: March 2010
Authors: Ming Wang, Kang Min Zhong, Min Wang, Dun Wen Zuo
Giant magnetostrictive materials (GMM) refers to the ternary rare-earth iron compounds which is
discovered firstly by Dr.
In filed of the sonar, micro-displacement, micro-power (thin film materials) and mechanical sensor, GMM has good prospects [3].
Lu: IEC Journal, Vol. 14 (1999), pp.14-17 [4] A.E.
Guo: IEC Journal, Vol. 16 No.5 (2001), pp.55-58
Wang and et al: Journal of Applied Sciences, Vol. 20 No.4 (2002), pp.354-359
In filed of the sonar, micro-displacement, micro-power (thin film materials) and mechanical sensor, GMM has good prospects [3].
Lu: IEC Journal, Vol. 14 (1999), pp.14-17 [4] A.E.
Guo: IEC Journal, Vol. 16 No.5 (2001), pp.55-58
Wang and et al: Journal of Applied Sciences, Vol. 20 No.4 (2002), pp.354-359
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 2015
Authors: Xiao Feng Zhu, Zhan Wu Ning, Jian Hai Sun, Tian Jun Ma, Yan Ni Zhang, Jin Hua Liu
With development of technology, there are more adsorption materials that can be available than before.
In addition to the traditional adsorption materials were widely used as adsorption material, such as Tenax-TA, carbopack X, activated carbon, etc.
Recently some nano materials were developed as adsorption materials, such as carbon nanotubes, molecularly imprinted polymers, nano-particles, etc.
Materials and reagents In this paper, the sample was detected using the proposed mini-GC-PID system.
McGill, et al., IEEE Sensors Journal,6 (5)( 2006)1094-1103
In addition to the traditional adsorption materials were widely used as adsorption material, such as Tenax-TA, carbopack X, activated carbon, etc.
Recently some nano materials were developed as adsorption materials, such as carbon nanotubes, molecularly imprinted polymers, nano-particles, etc.
Materials and reagents In this paper, the sample was detected using the proposed mini-GC-PID system.
McGill, et al., IEEE Sensors Journal,6 (5)( 2006)1094-1103
Online since: June 2019
Authors: Joachim M. Hausmann, Dominic Schommer, Miro Duhovic, Vitali Romanenko, Konrad Steiner, Matti Schneider, Heiko Andrä
These materials have allowed manufacturing parts with much better structural properties than ordinary glass fiber based SMC materials.
The main objective of this work is developing a material model for the accurate description of the compaction and flow behavior and the resulting fiber orientation of compressible SMC materials.
A significant challenge is that the rheological behavior of these types of materials cannot be characterized using standard rheometry equipment.
Material Characterization in a Press Rheometry Test Rheology is the study of flow and deformation of materials under applied forces.
Castro, Sheet Molding Compound Characterization Using Spiral Flow, Journal of Applied Polymer Science, 109 (2008) 2465-2471
The main objective of this work is developing a material model for the accurate description of the compaction and flow behavior and the resulting fiber orientation of compressible SMC materials.
A significant challenge is that the rheological behavior of these types of materials cannot be characterized using standard rheometry equipment.
Material Characterization in a Press Rheometry Test Rheology is the study of flow and deformation of materials under applied forces.
Castro, Sheet Molding Compound Characterization Using Spiral Flow, Journal of Applied Polymer Science, 109 (2008) 2465-2471
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: May 2017
Authors: Margarita Isaenkova, Evgeny Grigoriev, Artem Lunev, Artem Zazolin, Denis Pchelyakov, Yuri Perlovich, Olga Krymskaya
Plasticity of oxide fuel based on uranium dioxide is one of the less-covered topics in nuclear
materials science.
Ching-Tsven, Dry-ADU process for UO2 production, Journal of Nuclear Materials 199,1 (1992) 61-67
Burkhammer, Sintering of high density uranium dioxide bodies, Journal of Nuclear Materials 2, 2 (1960) 176 - 180
Balzari, Hot-pressing of uranium dioxide, Journal of Nuclear Materials 20, 2 (1966) 210 - 214
Contamin, Uranium and oxygen self-diffusion in UO2, Journal of Nuclear Materials 30, 1 (1969) 16-25
Ching-Tsven, Dry-ADU process for UO2 production, Journal of Nuclear Materials 199,1 (1992) 61-67
Burkhammer, Sintering of high density uranium dioxide bodies, Journal of Nuclear Materials 2, 2 (1960) 176 - 180
Balzari, Hot-pressing of uranium dioxide, Journal of Nuclear Materials 20, 2 (1966) 210 - 214
Contamin, Uranium and oxygen self-diffusion in UO2, Journal of Nuclear Materials 30, 1 (1969) 16-25
Online since: August 2016
Authors: Tomasz Sadowski, Daniel Pietras
., Poland
aemail: t.sadowski@pollub.pl, bemail: pietras140t@gmail.com
Keywords: Thermal barrier coatings, ceramic materials, functionally graded materials
Abstract.
In the classical technology as the TBC protection different types of polycrystalline materials were used (e.g. [1-11]).
[4] V.Birman, L.V.Bryd, Modelling and Analysis of Functionally Graded Materials and Structures.
[9] L.A.Gömze, L.N.Gömze, Alumina-based hetero-modulus ceramic composites with extreme dynamic strength – phase transformation of Si3N4 during high speed collision with metallic bodies, Ĕpitöanyag – Journal of Silicate Based and Composite Materials 61 (2009) 38-42
Watanabe, Thermal fracture behavior of metal/ceramic functionally graded materials, Engineering Fracture Mechanics 69 (2002) 1713–1728 [17] T.Sadowski, D.Pietras, I.Ivanov, Estimation of thermal stress intensity factor in a strip with various property gradations subjected to thermal shock, Key Engineering Materials Vol. 601 (2014) 71-75 [18] Z-H.
In the classical technology as the TBC protection different types of polycrystalline materials were used (e.g. [1-11]).
[4] V.Birman, L.V.Bryd, Modelling and Analysis of Functionally Graded Materials and Structures.
[9] L.A.Gömze, L.N.Gömze, Alumina-based hetero-modulus ceramic composites with extreme dynamic strength – phase transformation of Si3N4 during high speed collision with metallic bodies, Ĕpitöanyag – Journal of Silicate Based and Composite Materials 61 (2009) 38-42
Watanabe, Thermal fracture behavior of metal/ceramic functionally graded materials, Engineering Fracture Mechanics 69 (2002) 1713–1728 [17] T.Sadowski, D.Pietras, I.Ivanov, Estimation of thermal stress intensity factor in a strip with various property gradations subjected to thermal shock, Key Engineering Materials Vol. 601 (2014) 71-75 [18] Z-H.
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).