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Online since: March 2023
Authors: Maher Chakhari, Nawel Salem, Jamel Neji
Cement construction materials are the most widely used materials in the world.
Materials and Methods 1- Materials Cement: The type of used cement (C) is CEM II – 32.5 (according to NT 47-01) from the West Djebel Cement Plant (Tunisia).
Series: Materials Science and Engineering 640 (2019) 012055 [3] Schneider, M.
Bamaga, Physical and mechanical properties of mortars containing date palm fibers, Journal of Materials Research Express, 9 015 102 (2022) [13] B.
Mondher, The effect of doum palm fibers on the mechanical and thermal properties of gypsum mortar, Journal of Composite Materials, Volume 53, issue 19, pp. 2641-2659 (2019)
Materials and Methods 1- Materials Cement: The type of used cement (C) is CEM II – 32.5 (according to NT 47-01) from the West Djebel Cement Plant (Tunisia).
Series: Materials Science and Engineering 640 (2019) 012055 [3] Schneider, M.
Bamaga, Physical and mechanical properties of mortars containing date palm fibers, Journal of Materials Research Express, 9 015 102 (2022) [13] B.
Mondher, The effect of doum palm fibers on the mechanical and thermal properties of gypsum mortar, Journal of Composite Materials, Volume 53, issue 19, pp. 2641-2659 (2019)
Online since: June 2014
Authors: Rajshree B. Jotania, Hemal Khatri, G. Packiaraj
References
[1] P.Tailhades et al. / Journal of Magnetism and Magnetic Materials 193 (1999) 148-151
Goldman, Handbook of Modern Ferromagnetic Materials, Kulwer Academic Publishers, Boston, USA, 1999
Gul et al. / Journal of Magnetism and Magnetic Materials 320 (2008) 270–275
[14] Maaz et al. / Journal of Magnetism and Magnetic Materials 308 (2007) 289–295
/Journal of Magnetism and Magnetic Materials 324 (2012) 2926–2931
Goldman, Handbook of Modern Ferromagnetic Materials, Kulwer Academic Publishers, Boston, USA, 1999
Gul et al. / Journal of Magnetism and Magnetic Materials 320 (2008) 270–275
[14] Maaz et al. / Journal of Magnetism and Magnetic Materials 308 (2007) 289–295
/Journal of Magnetism and Magnetic Materials 324 (2012) 2926–2931
Online since: July 2015
Authors: Qiong Zhou, Gong Wen Zou, Xu Liu, Chuan Bo Cong, Kun Zhao
As one of key materials in PEMFCs, proton exchange membranes are made of sulfonated polymer.
Experiment Materials.Polyphenyl ether (PPO, 0.57 dL/g), chlorosulfonic acid (CSA) were purchased from commercial sources.
Lee: Chemistry of Materials Vol.24 (2012), p.1443 [3] S.
Knott: ACS Applied Materials and Interfaces Vol.1, No.6 (2009), p.1173 [4] A.
Dutta: Journal of Membrane Science Vol.333 (2009), p.50 [5] H.
Experiment Materials.Polyphenyl ether (PPO, 0.57 dL/g), chlorosulfonic acid (CSA) were purchased from commercial sources.
Lee: Chemistry of Materials Vol.24 (2012), p.1443 [3] S.
Knott: ACS Applied Materials and Interfaces Vol.1, No.6 (2009), p.1173 [4] A.
Dutta: Journal of Membrane Science Vol.333 (2009), p.50 [5] H.
Online since: August 2013
Authors: He Wang, Peng Zhou, De Fang Zhou, Jian Sun, Zi Nan Wang
Therefore, the structures of both connections need to be optimized and their materials must be high strength.
2.
Advanced Materials Research 2012, 482-484: 1257-1260
Simulation Study on Disc Cutter of Full Face Rock Tunnel Boring Machine, Chinese Journal of Shenyang Jianzhu University (nature science) 2010, 26(6): 1209-1213
Research on the Adaptability of TBM Disc Cutter to the Character of Rocks, Chinese Journal of Shenyang Jianzhu University (nature science) 2012, 28(1): 156-161
Kinematics modeling and analysis of TBM disc cutter based on D-H matrix, Advances in Materials Manufacturing Science and Technology 2012, 697-698: 692-696.
Advanced Materials Research 2012, 482-484: 1257-1260
Simulation Study on Disc Cutter of Full Face Rock Tunnel Boring Machine, Chinese Journal of Shenyang Jianzhu University (nature science) 2010, 26(6): 1209-1213
Research on the Adaptability of TBM Disc Cutter to the Character of Rocks, Chinese Journal of Shenyang Jianzhu University (nature science) 2012, 28(1): 156-161
Kinematics modeling and analysis of TBM disc cutter based on D-H matrix, Advances in Materials Manufacturing Science and Technology 2012, 697-698: 692-696.
Online since: September 2014
Authors: Chi Lin Li, Yong Le Liu, Jian Yu, Jing Bin Zhao
Materials and methods
Materials
Gualou seeds were bought from market.
The defatted materials were milled and passed through a 100 mm sieve.
Acknowledgements This research project was funded by the Ministry of Science and Technology Support Program, PR China (Project No. 2012BAD31B08), Natural Science Foundation of China (Project No. 31101214 and 31201427), Science Foundation of Hunan Province, PR China (Project No. 13JJ4054 and 12JJ6028).
Vol. 11 (2010), p. 1 [2] Alina-Violeta Ursua, Alain Marcatic, Thierry Sayd, Véronique Sante-Lhoutellierd: Extraction, fractionation and functional properties of proteinsfrom the microalgae Chlorella vulgaris: Bioresource Technology 157 (2014) , 134-139 [3] Samson Agboola, Darren Ng, Dominic Mills: Characterisation and functional properties of Australian rice protein isolates: Journal of Cereal Science 41 (2005), 283-290 [4] Neide K.K.
Gon@alves: Determination of total proteins in cow milk powder samples: a comparative study between the Kjeldahl method and spectrophotometric methods: Journal of Food Composition and Analysis 16 (2003) , 507-516 [5] Zorica Nikolic,Vuk Ðorpevic, Aleksandra Torbicab, Aleksandar Mikic: Legumes seed storage proteins characterization by SDS-PAGE and Lab-on-a-Chip electrophoresis: Journal of Food Composition and Analysis 28 (2012), 75-80 [6] Tingting Li, Jianrong Li,Wenzhong Hua, Jinru Chen, Hongjun Li: Protein changes in post mortem large yellow croaker (Pseudosciaenacrocea) monitored by SDS-PAGE and proteome analysis: Food Control 41 (2014) , 49-55 [7] Ning Xia, Jinmei Wang, Xiaoquan Yang, Shouwei Yin, et al: Preparation and characterization of protein from heat-stabilized rice bran using hydrothermal cooking combined with amylase pretreatment: Journal of Food Engineering 110 (2012) , 95-101 [8] M.
The defatted materials were milled and passed through a 100 mm sieve.
Acknowledgements This research project was funded by the Ministry of Science and Technology Support Program, PR China (Project No. 2012BAD31B08), Natural Science Foundation of China (Project No. 31101214 and 31201427), Science Foundation of Hunan Province, PR China (Project No. 13JJ4054 and 12JJ6028).
Vol. 11 (2010), p. 1 [2] Alina-Violeta Ursua, Alain Marcatic, Thierry Sayd, Véronique Sante-Lhoutellierd: Extraction, fractionation and functional properties of proteinsfrom the microalgae Chlorella vulgaris: Bioresource Technology 157 (2014) , 134-139 [3] Samson Agboola, Darren Ng, Dominic Mills: Characterisation and functional properties of Australian rice protein isolates: Journal of Cereal Science 41 (2005), 283-290 [4] Neide K.K.
Gon@alves: Determination of total proteins in cow milk powder samples: a comparative study between the Kjeldahl method and spectrophotometric methods: Journal of Food Composition and Analysis 16 (2003) , 507-516 [5] Zorica Nikolic,Vuk Ðorpevic, Aleksandra Torbicab, Aleksandar Mikic: Legumes seed storage proteins characterization by SDS-PAGE and Lab-on-a-Chip electrophoresis: Journal of Food Composition and Analysis 28 (2012), 75-80 [6] Tingting Li, Jianrong Li,Wenzhong Hua, Jinru Chen, Hongjun Li: Protein changes in post mortem large yellow croaker (Pseudosciaenacrocea) monitored by SDS-PAGE and proteome analysis: Food Control 41 (2014) , 49-55 [7] Ning Xia, Jinmei Wang, Xiaoquan Yang, Shouwei Yin, et al: Preparation and characterization of protein from heat-stabilized rice bran using hydrothermal cooking combined with amylase pretreatment: Journal of Food Engineering 110 (2012) , 95-101 [8] M.
Online since: July 2013
Authors: Ying Chen, Wei Hong Bi, Qi Guang Zhu
Study on Tunable Filtering Characteristic of 1-D defect Photonic Crystal Based on Surface Wave Resonance
Ying Chen1, a ,Wei-hong Bi2 and Qi-guang Zhu2
1Institute of Electronical Engineering, Yanshan University, Qinhuangdao, China
2Institute of Information Science and Engineering, Yanshan University, Qinhuangdao, China
achenying@ysu.edu.cn
Keywords: Biosensor, Photonic crystal, Surface wave resonance, Defect, filtering
Abstract.
Introduction Photonic crystals (PC), which was periodic structures of dielectric material in one, two or three-dimension, could exhibit frequency regions in which the propagation of electromagnetic wave is forbidden.
Through designing the periodical structure thickness of the photonic crystal and the material index, the resonant wavelength could be met with the incident wavelength.
Acknowledgements This work was financially supported by the national natural Science Foundation of China(61201112 and 61172044), the major project of science and technology research for ministry of education, PR China (211023), the Natural Science Foundation for Young Scientists of Hebei Province, China (F2013203250 and F2012203169) and China Postdoctoral Science Foundation(2012M510765).
References [1] Tianhua Zhang , Pushparaj Pathak , Sukrut Karandikar , Rebecca Giorno , Long Que : submitted to Journal of Biosensors and Bioelectronics (2011) [2] Y B Guo, J Y Ye, C Divin et al: submitted to Journal of American Chemical Society (2010) [3] Maojinyu,YongWan,et al: submitted to Journal of Optik(2011) [4] J T Heere,S H Kim,B J Leslie et al:submitted to Journal of American Chemical Society (2009) [5] W.Aroua, S.Haxha , F.Abdel Malek: submitted to Journal of Optics Communications (2012)
Introduction Photonic crystals (PC), which was periodic structures of dielectric material in one, two or three-dimension, could exhibit frequency regions in which the propagation of electromagnetic wave is forbidden.
Through designing the periodical structure thickness of the photonic crystal and the material index, the resonant wavelength could be met with the incident wavelength.
Acknowledgements This work was financially supported by the national natural Science Foundation of China(61201112 and 61172044), the major project of science and technology research for ministry of education, PR China (211023), the Natural Science Foundation for Young Scientists of Hebei Province, China (F2013203250 and F2012203169) and China Postdoctoral Science Foundation(2012M510765).
References [1] Tianhua Zhang , Pushparaj Pathak , Sukrut Karandikar , Rebecca Giorno , Long Que : submitted to Journal of Biosensors and Bioelectronics (2011) [2] Y B Guo, J Y Ye, C Divin et al: submitted to Journal of American Chemical Society (2010) [3] Maojinyu,YongWan,et al: submitted to Journal of Optik(2011) [4] J T Heere,S H Kim,B J Leslie et al:submitted to Journal of American Chemical Society (2009) [5] W.Aroua, S.Haxha , F.Abdel Malek: submitted to Journal of Optics Communications (2012)
Online since: August 2013
Authors: Jun Hua Shi, Xiao Lin Wang, Shun Chu Li, Dong Dong Gui
Preliminary Exploration and Prospects of the Similar Structure of Solutions of Differential Equations (in Chinese)[J].Journal of Xihua University (Natural Science Edition),29(2), 223-226(2010)
The similar structure of solutions of a class of boundary value problem for Euler’s Hypergemetric differential equation (in Chinese)[J].Journal of Xihua University(Natural Science Edition). 31(2), 91-93(2012)
Several Important Properties for the Boundary Value Problems of Second-order Linear Homogeneous Differential Equation (in Chinese)[J].Journal of Xihua University (Natural Science Edition), 32(1),23-26(2013)
The Similar Structuring Method for Solving Boundary Value Problem of Hermit Equation (in Chinese)[J].Journal of Xihua University (Natural Science Edition), 32(1), 27-30(2013)
Similar Constructive Method of Solving the Nonlinear Spherical Percolation Media [J].Advanced Materials Research, vols, 265-271(2013): pp265-271
The similar structure of solutions of a class of boundary value problem for Euler’s Hypergemetric differential equation (in Chinese)[J].Journal of Xihua University(Natural Science Edition). 31(2), 91-93(2012)
Several Important Properties for the Boundary Value Problems of Second-order Linear Homogeneous Differential Equation (in Chinese)[J].Journal of Xihua University (Natural Science Edition), 32(1),23-26(2013)
The Similar Structuring Method for Solving Boundary Value Problem of Hermit Equation (in Chinese)[J].Journal of Xihua University (Natural Science Edition), 32(1), 27-30(2013)
Similar Constructive Method of Solving the Nonlinear Spherical Percolation Media [J].Advanced Materials Research, vols, 265-271(2013): pp265-271
Online since: March 2005
Authors: Petr Bezdička, O. Schneeweiss, R. Alexandrescu, I. Morjan, B. David, N. Pizúrová
Eklund, Journal of
Materials Research 8 (1993), p. 1666
Xu, Materials Letters 21 (1994), p. 285
Petridis (Eds.), Mössbauer Spectroscopy in Materials Science, Kluwer Academic Publishers, Dordrecht, 1999, p. 385
O'Handley, Modern Magnetic Materials, Wiley, New York, 2000
Petridis (Eds.), Mössbauer Spectroscopy in Materials Science, Kluwer Academic Publishers, Dordrecht, 1999, p. 243
Xu, Materials Letters 21 (1994), p. 285
Petridis (Eds.), Mössbauer Spectroscopy in Materials Science, Kluwer Academic Publishers, Dordrecht, 1999, p. 385
O'Handley, Modern Magnetic Materials, Wiley, New York, 2000
Petridis (Eds.), Mössbauer Spectroscopy in Materials Science, Kluwer Academic Publishers, Dordrecht, 1999, p. 243
Online since: January 2012
Authors: Peng Qi, Jing Zhang, Zhi Rong Mei, Yue Xiu Wu
Fig.2 shows test materials and instrument.
Test materials and test instrument Table 1.
[4] Consenza, P., Ghoreychi, M., International Journal of Rock Mechanics and Mining Sciences and Geomechanics Abstracts, Vol.36(4), pp.509–526
International Journal of Rock Mechanics and Mining Sciences, Vol.36, pp.527–533
International Journal of Rock Mechanics and Mining Sciences, Vol.34(7), pp.1 055–1 064
Test materials and test instrument Table 1.
[4] Consenza, P., Ghoreychi, M., International Journal of Rock Mechanics and Mining Sciences and Geomechanics Abstracts, Vol.36(4), pp.509–526
International Journal of Rock Mechanics and Mining Sciences, Vol.36, pp.527–533
International Journal of Rock Mechanics and Mining Sciences, Vol.34(7), pp.1 055–1 064