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Online since: September 2013
Authors: Hong Juan Geng, Zai Wu Yuan, Meng Hua Qin
Cellulose-based films have been used as semiconductor and optical materials, ultraviolet absorption materials, medical target therapy, and food packing materials.
Ma, et al.: Journal of Materials Chemistry Vol. 22 (2012), p. 22467
Liu: Journal of Cellulose Science and Technology Vol. 2 (2011), p. 12
Li, et al.: Journal of Applied Polymer Science Vol. 111 (2009), p. 2477
Xia: Journal of Polymer Science Part B: Polymer Physics Vol. 42 (2004), p. 367.
Ma, et al.: Journal of Materials Chemistry Vol. 22 (2012), p. 22467
Liu: Journal of Cellulose Science and Technology Vol. 2 (2011), p. 12
Li, et al.: Journal of Applied Polymer Science Vol. 111 (2009), p. 2477
Xia: Journal of Polymer Science Part B: Polymer Physics Vol. 42 (2004), p. 367.
Online since: May 2015
Authors: Giuseppe Lamanna, Raffaele Sepe
Common photo-curing dental restorative materials under different C-factors are considered as case studies.
Materials and Methods Cure Kinetics and Glass Transition Model.
Gillham, Cure kinetics of a thermosetting liquid dicyanate ester monomer/high-Tg polycyanurate material, Journal of Applied Polymer Science 47 (3) (1993) 461-485
DiBenedetto, Prediction of the glass transition temperature of polymers: A model based on the principle of corresponding states, Journal of Applied Polymer and Science Part B Polym.
Basile, Mechanics of soft PSAs (pressure sensitive adhesives) The Open Materials Science Journal 7 (1) (2013) 23-27
Materials and Methods Cure Kinetics and Glass Transition Model.
Gillham, Cure kinetics of a thermosetting liquid dicyanate ester monomer/high-Tg polycyanurate material, Journal of Applied Polymer Science 47 (3) (1993) 461-485
DiBenedetto, Prediction of the glass transition temperature of polymers: A model based on the principle of corresponding states, Journal of Applied Polymer and Science Part B Polym.
Basile, Mechanics of soft PSAs (pressure sensitive adhesives) The Open Materials Science Journal 7 (1) (2013) 23-27
Online since: January 2013
Authors: Kai Liu
At present, the most applications in surface modification of materials is type I collagen, future research will be a variety of surface modification of materials for composite materials, which will play complementary roles, as well as gene therapy and the development of nanometer materials, it will become a hot issue in the field of bone tissue engineering.
Therefore, selecting suitable materials for surface modification, targeted to the matrix scaffold materials for surface modification and surface modification of material surface, improve the cell adhesion and promotes cell proliferation is the scaffold materials for bone tissue engineering research important content.
The importance of bone tissue engineering materials for surface modification The bone tissue can be regarded as a cell of the multiphase composite material from the point of view of material science and engineering.
Ideal surface modification should take into consideration the surface topology, specific identification, hydrophilic and hydrophobic protein adsorption equilibrium, and other aspects of functional new tissues can be.Therefore, surface modification of biomaterials is a complex systems engineering, needs both material science and biological science needs, realize optimization.At present, most applications in surface modification of materials is of type I collagen, future research will be a variety of surface modification of materials for composite materials to play complementary roles, as well as gene therapy and the development of nanometer materials will become a hot issue in the field of bone tissue engineering.
Journal of Orthopaedic Research, Volume 20, Issue 5, September 2002, Pages 1009-1015.
Therefore, selecting suitable materials for surface modification, targeted to the matrix scaffold materials for surface modification and surface modification of material surface, improve the cell adhesion and promotes cell proliferation is the scaffold materials for bone tissue engineering research important content.
The importance of bone tissue engineering materials for surface modification The bone tissue can be regarded as a cell of the multiphase composite material from the point of view of material science and engineering.
Ideal surface modification should take into consideration the surface topology, specific identification, hydrophilic and hydrophobic protein adsorption equilibrium, and other aspects of functional new tissues can be.Therefore, surface modification of biomaterials is a complex systems engineering, needs both material science and biological science needs, realize optimization.At present, most applications in surface modification of materials is of type I collagen, future research will be a variety of surface modification of materials for composite materials to play complementary roles, as well as gene therapy and the development of nanometer materials will become a hot issue in the field of bone tissue engineering.
Journal of Orthopaedic Research, Volume 20, Issue 5, September 2002, Pages 1009-1015.
Online since: May 2012
Authors: Jie Ming Zhou, Wang Ping Wu, Zhao Feng Chen, Xue Yu Cheng, Dan Su, Cheng Dong Li, Zhou Chen
Core Materials of Vacuum Insulation Panels: A Review and Beyond
Chengdong Li1, a, Zhaofeng Chen1,b, Wangping Wu1,c, Zhou Chen1,d,
Jieming Zhou2,e, Xueyu Cheng2,f and Dan Su1, g
1College of Material Science and Technology, Nanjing University of Aeronautics and Astronautics,
Nanjing 210016, P.R.
Song: International Journal of Heat and Mass Transfer Vol. 52 (2009), p. 5525 [4] R.
Chu: International Journal of Heat and Mass Transfer Vol. 52 (2009), p. 3084 [6] S.
Matsuoka: Journal of materials processing technology Vol. 209 (2009), p. 271 [14] L.F.
Lackey: Journal of Cold Regions Engineering Vol. 22 (2008), p. 103
Song: International Journal of Heat and Mass Transfer Vol. 52 (2009), p. 5525 [4] R.
Chu: International Journal of Heat and Mass Transfer Vol. 52 (2009), p. 3084 [6] S.
Matsuoka: Journal of materials processing technology Vol. 209 (2009), p. 271 [14] L.F.
Lackey: Journal of Cold Regions Engineering Vol. 22 (2008), p. 103
Online since: May 2012
Authors: Jinhu Niu, Xiaosu Sun
The sensor materials are the foundation of sensor technology.
Throughout the development of sensor materials and sensor technology, especially the wide application of homogeneous materials promote the development and application of functional gradient materials manufacturing technology film.
Journal of SHAANXI Institute of Technology,2003,19(2):4~7
Journal of Biophysical,2010,26(8):711~725
Chinese Journal of Sensors and Actuators,2009,22(12):1848~1852
Throughout the development of sensor materials and sensor technology, especially the wide application of homogeneous materials promote the development and application of functional gradient materials manufacturing technology film.
Journal of SHAANXI Institute of Technology,2003,19(2):4~7
Journal of Biophysical,2010,26(8):711~725
Chinese Journal of Sensors and Actuators,2009,22(12):1848~1852
Online since: December 2013
Authors: Lin Chao Dai
The relationship between similar material and the raw materials was analyzed.
The results show that choosing different materials can compound different similar materials with different requirements.
Zhang:Journal of Computational Science & Engineering, (2013) No.8, p. 300-304.
Fu, et al: Journal of Computational Science & Engineering, vol. 7 (2013), p. 274-277
Xu and H.X Liu: Journal of Mountain Science, (2012) No. 30, p. 497-501.
The results show that choosing different materials can compound different similar materials with different requirements.
Zhang:Journal of Computational Science & Engineering, (2013) No.8, p. 300-304.
Fu, et al: Journal of Computational Science & Engineering, vol. 7 (2013), p. 274-277
Xu and H.X Liu: Journal of Mountain Science, (2012) No. 30, p. 497-501.
Online since: July 2013
Authors: Xiao Lei Li, Xiao Jing Li, Yan Hui Qie, Jian Bing Sang, Yao Ping Tu, Cheng Bo Zhang
Studying the deformation and fracture properties of soft materials can not only provide insight into the physical mechanisms underlying their superior properties and functions but also benefit the design and fabrication of rubberlike materials.
Increasing applications of rubberlike materials make it important to maintain the reliability and stability of these materials.
Acknowledgment This paper is supported by Hebei Natural Science Foundation (No.
E2011202115) and Tianjin Natural Science Foundation (No. 12JCYBJC19600).
[5] GaoY.C. and Zhou L.M, “Interface crack tip in a kind of rubber materials, International Journal of Solids and Structures,” International Journal of Solids and Structures, Vol.38, 2001, pp. 6227-6240
Increasing applications of rubberlike materials make it important to maintain the reliability and stability of these materials.
Acknowledgment This paper is supported by Hebei Natural Science Foundation (No.
E2011202115) and Tianjin Natural Science Foundation (No. 12JCYBJC19600).
[5] GaoY.C. and Zhou L.M, “Interface crack tip in a kind of rubber materials, International Journal of Solids and Structures,” International Journal of Solids and Structures, Vol.38, 2001, pp. 6227-6240
Online since: July 2021
Authors: K.G. Karapetyan, Olga V. Denisova
Foamed Glassy Phosphate Materials for Biosorbents
K.G.
The paper considers the applications of foamed glassy phosphate materials as carriers of biologically active substances.
One of the advantages of phosphate materials is their ability to effectively support the life of microorganisms.
Rastvorova, Carbon materials for immobilization of biologically active substances, Key Engineering Materials 836 (2020) 52-57
Syrkov, On the priority of Saint-Petersburg Mining University in the field of nanotechnology science and nanomaterials, Journal of Mining Institute 221 (2016) 730-736.
The paper considers the applications of foamed glassy phosphate materials as carriers of biologically active substances.
One of the advantages of phosphate materials is their ability to effectively support the life of microorganisms.
Rastvorova, Carbon materials for immobilization of biologically active substances, Key Engineering Materials 836 (2020) 52-57
Syrkov, On the priority of Saint-Petersburg Mining University in the field of nanotechnology science and nanomaterials, Journal of Mining Institute 221 (2016) 730-736.
Online since: September 2013
Authors: Jian Yao, Shan Wu
Analysis of the application potential of climate adaptive window materials
Shan Wu, Jian Yao*
Faculty of Architectural, Civil Engineering and Environment, Ningbo University, Ningbo, China
email: yaojian@nbu.edu.cn
Keywords: Climate adaptive window materials; building energy; numerical analysis.
This paper gives the numerical analysis method for heat transfer through climate adaptive window materials.
Using the weather data in a typical city in hot summer and cold winter zone, an analysis of the application potential of climate adaptive window materials is given.
Yuan, “Study on Residential Buildings with Energy Saving by 65% in Ningbo,” Journal of Ningbo University (Natural science & engineering edition).vol. 23, pp. 84-87, 2010
[8] Zhou Y. and Zhou D., “Effect of Envelop Insulation for Indoor Thermal Environment in Summer: Tests and Analysis,” Journal of Ningbo University(Natural Science & Engineering Edition), vol. 26, pp. 100-102, 2013.
This paper gives the numerical analysis method for heat transfer through climate adaptive window materials.
Using the weather data in a typical city in hot summer and cold winter zone, an analysis of the application potential of climate adaptive window materials is given.
Yuan, “Study on Residential Buildings with Energy Saving by 65% in Ningbo,” Journal of Ningbo University (Natural science & engineering edition).vol. 23, pp. 84-87, 2010
[8] Zhou Y. and Zhou D., “Effect of Envelop Insulation for Indoor Thermal Environment in Summer: Tests and Analysis,” Journal of Ningbo University(Natural Science & Engineering Edition), vol. 26, pp. 100-102, 2013.