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Measurement of the Thermal Conductivity of Polydimethylsiloxane Polymer Using the Three Omega Method
Online since: May 2014
Authors: Nadine Al-Khudary, Pierre Yves Cresson, Yovan Orlic, Philippe Coquet, Philippe Pernod, Tuami Lasri
Numerical simulations of the 3ω method based on the FEM take into account the exact geometry of the heater, the materials underneath the heater and the exact physical properties of these different materials.
Stieglitz, Polymers for Neural Implants, Journal of Polymer Science: Part B: Polymer Physics, Vol. 49, pp. 18-33, 2011
Mania, Application of DLC layers in 3-omega thermal conductivity method, Journal of Achievements in Material and Manufacturing Engineering, Vol. 37, pp. 512-517, 2009
Kline, Thermal conductivity studies of polymers, Journal of Polymer Science, Vol. 50, pp. 441-450, 1961
Nuzzo, Fabrication of stable metallic embedded in Poly(dimethylsiloxane) and model applications in non-planar electronic and lab-on-a-chip device patterning, Advanced Functional Materials, Vol. 15, pp. 557-566, 2005
Stieglitz, Polymers for Neural Implants, Journal of Polymer Science: Part B: Polymer Physics, Vol. 49, pp. 18-33, 2011
Mania, Application of DLC layers in 3-omega thermal conductivity method, Journal of Achievements in Material and Manufacturing Engineering, Vol. 37, pp. 512-517, 2009
Kline, Thermal conductivity studies of polymers, Journal of Polymer Science, Vol. 50, pp. 441-450, 1961
Nuzzo, Fabrication of stable metallic embedded in Poly(dimethylsiloxane) and model applications in non-planar electronic and lab-on-a-chip device patterning, Advanced Functional Materials, Vol. 15, pp. 557-566, 2005
Online since: May 2018
Authors: Mi Wang, Yue Li, Shu Chen Yang, Guo Long Lu
Theoretically, continuous roll forming can be used to form the sheet with materials which can be manufactured by plastic working.
Acknowledgment The authors would like to thank, the financial support from the National Natural Science Foundation of China (Grant No. 51605187, 51605188, 51575231 and 51375204), China Postdoctoral Science Foundation (Grant No. 2016M601382) and Jilin Provincial Science & Technology Department (20170520088JH).
International Journal of Machine Tools & Manufacture. 2010;50:214-8
Journal of Materials Processing Technology. 2012;212:120-7
Journal of Materials Processing Technology. 2014;214:1820-7
Acknowledgment The authors would like to thank, the financial support from the National Natural Science Foundation of China (Grant No. 51605187, 51605188, 51575231 and 51375204), China Postdoctoral Science Foundation (Grant No. 2016M601382) and Jilin Provincial Science & Technology Department (20170520088JH).
International Journal of Machine Tools & Manufacture. 2010;50:214-8
Journal of Materials Processing Technology. 2012;212:120-7
Journal of Materials Processing Technology. 2014;214:1820-7
Influence the Addition of Basalt Powder on the Protective Properties of Epoxy as a Coating for Steel
Online since: October 2025
Authors: Mostafa A. Shohide, Amel Elhabak
Lagashetty, A.Venkataraman, Polymer Nanocomposites Resonance, Journal of Science Education 10 (5) (2005) 49-60
Science of Advanced Materials 3 (2011) 1-25
Ahmed, Influence of Silica Nanoparticles on the Properti of Nanocomposite Based on Epoxy as Concrete Protective Coating, Materials Science Forum 1089 (2023)153-163
Ota, Effect of Silane Coupling Agent Concentration on Interfacial Properties of Basalt Fiber Reinforced Composites, Journal of Materials Science and Engineering A 13(2)
Balasubramanian, investigations on mechanical properties of basalt powder filled vinyl ester composites, IOP Conference Series Materials Science and Engineering (2020) 012094, IOP Publishing
Science of Advanced Materials 3 (2011) 1-25
Ahmed, Influence of Silica Nanoparticles on the Properti of Nanocomposite Based on Epoxy as Concrete Protective Coating, Materials Science Forum 1089 (2023)153-163
Ota, Effect of Silane Coupling Agent Concentration on Interfacial Properties of Basalt Fiber Reinforced Composites, Journal of Materials Science and Engineering A 13(2)
Balasubramanian, investigations on mechanical properties of basalt powder filled vinyl ester composites, IOP Conference Series Materials Science and Engineering (2020) 012094, IOP Publishing
Online since: October 2018
Authors: S. Nallusamy, M. Rajaram Narayanan
The fatigue properties of the different materials used in wind turbines from the steel in the tower to the composites used in blade design was studied [13-15].
SMA materials have been used in vibration control applications and SMA actuators to achieve active control of the first mode of flexible beam [34-36].
International Journal of Performability Engineering, Vol. 12(3) (2016), pp. 229-239 [7] Mevada, Himanshu and Dipal Patel: Experimental determination of structural damping of different materials.
Indian Journal of Science and Technology, Vol. 9(16) (2016), pp. 01-05 [19] Aranake et al: Computational analysis of shrouded wind turbine configurations using a 3-dimensional RANS solver.
Indian Journal of Science and Technology, Vol. 9(35) (2016), pp. 01-06 [29] Peter J.
SMA materials have been used in vibration control applications and SMA actuators to achieve active control of the first mode of flexible beam [34-36].
International Journal of Performability Engineering, Vol. 12(3) (2016), pp. 229-239 [7] Mevada, Himanshu and Dipal Patel: Experimental determination of structural damping of different materials.
Indian Journal of Science and Technology, Vol. 9(16) (2016), pp. 01-05 [19] Aranake et al: Computational analysis of shrouded wind turbine configurations using a 3-dimensional RANS solver.
Indian Journal of Science and Technology, Vol. 9(35) (2016), pp. 01-06 [29] Peter J.
Online since: September 2011
Authors: Hua Meng, Shun Cai Li
Introduction
Dynamics of systems with variable boundaries [1-4] is a new and developing interdisciplinary science, and it is widely used in biological growth, chemical production, building construction and the production of crystal materials.
Journal of Changde Teachers University (Natural Science Edition), 15(2), 12-15(2003) (in Chinese) [2] Naunov, V.
Journal of Engineering Mechanics, 120(2), 207-220(1994) [3] Huang Z.: Continuum model for growth and deformation of materials: equilibrium equations and boundary conditions.
,Huang Z.: Continuum model for growth and deformation of materials constitutive equations based on first-order gradient theory.
Beijing:Science publishing house (1993)
Journal of Changde Teachers University (Natural Science Edition), 15(2), 12-15(2003) (in Chinese) [2] Naunov, V.
Journal of Engineering Mechanics, 120(2), 207-220(1994) [3] Huang Z.: Continuum model for growth and deformation of materials: equilibrium equations and boundary conditions.
,Huang Z.: Continuum model for growth and deformation of materials constitutive equations based on first-order gradient theory.
Beijing:Science publishing house (1993)
Online since: May 2011
Authors: Jiang Miao Yu, Zhi Li, Xiao Ning Zhang
Acknowledgments
The authors would like to acknowledge the National Nature Science Foundation of China (No. 51008132, No.51038004) and The Ministry of Transport of the People's Republic of China for financial support (No. 200831800099) and the Pavement Research Center of University of California at Berkeley for technical support.
Monismith: Transportation Research Record: Journal of the Transportation Research Board Vol. 1417 (1993), p. 38 [2] Button, J.
Burati: Transportation Research Record: Journal of the Transportation Research Board Vol. 1228 (1989), p. 80 [4] Yue, Z.
Morin: Transportation Research Record: Journal of the Transportation Research Board Vol. 1492 (1995), p. 53 [5] Masad E., Muhunthan B., Shashidhar N., Harman T.: Journal of Computing in Civil Engineering Vol.13 (1999), pp. 88 [6] Masad E., Muhunthan B., Shashidhar N., Harman T.: Transportation Research Record: Journal of the Transportation Research Board Vol. 1681 (1999), p. 179 [7] Masad E., Jandhyala V.K., Dasgupta N., Somadevan N., Sashidhar N.: Journal of Materials in Civil Engineering Vol.14, (2002), pp.122 [8] Masad E., Button J. : Transportation Research Record: Journal of the Transportation Research Board Vol. 1891 (2004), p. 212 [9] Saadeh S., Tashman L., Masad E., Mogawer W.: Journal of Testing and EvaluationVol.30 (2002), p. 483 [10] Tashman L., Masad E., Peterson B., Saleh H.: Journal of the Association of Asphalt Paving Technologists Vol.70 (2001), p. 605 [11] Tashman L., Masad E., Angelo J.
D., Bukowski J., Harman T.: International Journal of Pavement Engineering Vol.3 (2002), p. 19 [12] Wang L.B., Paul H.S., Harman T., Angelo J.D.: Journal of the Association of Asphalt Paving Technologists Vol.73 (2004), p. 467 [13] Wang L.B., Frost J.D., Lai J.S.: Journal of Computing in Civil Engineering Vol.18 (2004), p.28
Monismith: Transportation Research Record: Journal of the Transportation Research Board Vol. 1417 (1993), p. 38 [2] Button, J.
Burati: Transportation Research Record: Journal of the Transportation Research Board Vol. 1228 (1989), p. 80 [4] Yue, Z.
Morin: Transportation Research Record: Journal of the Transportation Research Board Vol. 1492 (1995), p. 53 [5] Masad E., Muhunthan B., Shashidhar N., Harman T.: Journal of Computing in Civil Engineering Vol.13 (1999), pp. 88 [6] Masad E., Muhunthan B., Shashidhar N., Harman T.: Transportation Research Record: Journal of the Transportation Research Board Vol. 1681 (1999), p. 179 [7] Masad E., Jandhyala V.K., Dasgupta N., Somadevan N., Sashidhar N.: Journal of Materials in Civil Engineering Vol.14, (2002), pp.122 [8] Masad E., Button J. : Transportation Research Record: Journal of the Transportation Research Board Vol. 1891 (2004), p. 212 [9] Saadeh S., Tashman L., Masad E., Mogawer W.: Journal of Testing and EvaluationVol.30 (2002), p. 483 [10] Tashman L., Masad E., Peterson B., Saleh H.: Journal of the Association of Asphalt Paving Technologists Vol.70 (2001), p. 605 [11] Tashman L., Masad E., Angelo J.
D., Bukowski J., Harman T.: International Journal of Pavement Engineering Vol.3 (2002), p. 19 [12] Wang L.B., Paul H.S., Harman T., Angelo J.D.: Journal of the Association of Asphalt Paving Technologists Vol.73 (2004), p. 467 [13] Wang L.B., Frost J.D., Lai J.S.: Journal of Computing in Civil Engineering Vol.18 (2004), p.28
Online since: April 2021
Authors: Konstantin S. Makarevich, Aleksey V. Zaitsev, Oleg I. Kaminsky
Zaitsevc
Institute of Materials Science of Far Eastern Branch of the Russian Academy of Sciences
(IM FEB RAS), Khabarovsk, Russia
amakarevich7@mail.ru, bkamin_div0@mail.ru, calex-im@mail.ru
Keywords: visible light photo-catalyst, strontium bismuthate, strontium carbonate.
A special place among photocatalysts is occupied by materials obtained on the basis of heterostructured compositions.
Pecharapa, Synthesis and characterization of nitrogen-doped TiO2 and its photo-catalytic activity enhancement under visible light, Proceedings of the Eco-Energy and Materials Science and Engineering Symposium. 9 (2011) 509–510
Mikhailov, Chemistry of bismuth compounds and materials, Novosibirsk: SB RAS. 360 (2001)
Makarevich, On the question of the optimal concentration of benzoquinone when it is used as a radical scavenger, Applied Physics A: Materials Science and Processing. 123(9) (2017) 15
A special place among photocatalysts is occupied by materials obtained on the basis of heterostructured compositions.
Pecharapa, Synthesis and characterization of nitrogen-doped TiO2 and its photo-catalytic activity enhancement under visible light, Proceedings of the Eco-Energy and Materials Science and Engineering Symposium. 9 (2011) 509–510
Mikhailov, Chemistry of bismuth compounds and materials, Novosibirsk: SB RAS. 360 (2001)
Makarevich, On the question of the optimal concentration of benzoquinone when it is used as a radical scavenger, Applied Physics A: Materials Science and Processing. 123(9) (2017) 15
Online since: December 2010
Authors: Zhen Jun Wang, Rui Wang, Yu Bin Cheng
Miltenberger:Journal of Materials in Civil Engineering Vol. 11 (1999), p. 1-5
Pilvin: Materials Science and Engineering A Vol. 308 (2001), p. 233-240
Journal of Materials in Civil Engineering Vol. 22 (2010), p. 223-226
Liang: Journal of Building Materials Vol. 10 (2007), p. 271-281.
Hu: Advanced cement-based composites materials (Science Press, Beijing 2009).
Pilvin: Materials Science and Engineering A Vol. 308 (2001), p. 233-240
Journal of Materials in Civil Engineering Vol. 22 (2010), p. 223-226
Liang: Journal of Building Materials Vol. 10 (2007), p. 271-281.
Hu: Advanced cement-based composites materials (Science Press, Beijing 2009).
Online since: January 2012
Authors: Hédi Hamdi, Sawsen Youssef, O. Calonne, P. Gilles, E. Feulvarch
Bergheau, Residual stresses computation in a grinding process, Journal of Materials Processing Technology, VOL. 147, issue 3, 2004, pp. 277-285
Bergheau, A numerical study of phase transformation during grinding,International Journal for Machining and Machinability of Materials, Vol. 4, Issue 2/3, 2008, pp. 148-157
McCormack, Analysis of the transitional temperature for tensile residual stress in grinding, Journal of Materials Processing Technology, 107:216–221, 2000
Bergheau, Temperature measurement and heat flux characterization in grinding using thermography, Journal of Materials Processing Technology, vol. 201, pp. 590–595, 2008
Malkin, Heat transfer in grinding, Journal of materials processing & manufacturing science – Vol. 1 ; July 1992 ; PP. 16-27
Bergheau, A numerical study of phase transformation during grinding,International Journal for Machining and Machinability of Materials, Vol. 4, Issue 2/3, 2008, pp. 148-157
McCormack, Analysis of the transitional temperature for tensile residual stress in grinding, Journal of Materials Processing Technology, 107:216–221, 2000
Bergheau, Temperature measurement and heat flux characterization in grinding using thermography, Journal of Materials Processing Technology, vol. 201, pp. 590–595, 2008
Malkin, Heat transfer in grinding, Journal of materials processing & manufacturing science – Vol. 1 ; July 1992 ; PP. 16-27
Online since: December 2009
Authors: Qing Fu Zhao, Shi Yuan Sun, Yuan Xue
The core-sheath fiber structure and spinning materials properties make the fiber have a
good heat-bonding performance.
The core-sheath fiber structure and material properties make the fiber have a good heat-bonding performance [1-2].
Spinning and finishing technology 2.1 Spinning raw materials Spinning materials are shown in Table 1: Table 1 Spinning materials Material Melting index [MI] Weight average molecular weight [10,000] Density [g/cm 3] PP 20~25 15 0.901 HDPE 18~25 12.1 0.961 2.2 Spinning equipments Of the spinning equipments for PP/HDPE heat-bondable composite fiber, screw extruder, pre-filter, measuring pump, take-up machine were common spinning assembly.
(2)The core-sheath fiber structure, spinning material properties and especially the thermo-fusing character make the fiber have a good heat-bonding performance.
References [1] Dasheng ZHANG, Rui WANG, Yanhua QIN, Xin LIU, Xinjun ZHU: Synthetic Fiber in China 2006(6):1-2 [2] Yuanhui LI: Journal of Chengdu Textile College 2003, 20(3):9-10 [3] Jianfeng DI: Shanghai Textile Science & Technology 2003, 31(4):52-53 [4] Ling WANG, Wangming HU: Journal of Textile Research 2007, 28(1):85-86 [5]Qinfei KE, Ye ZHANG: Technical Textiles 2002, 20(5):15-17 [6] Binxuan NI, Xiaoning JIAO: Nonwovens 2008, 16(3):23-24 [7] Shuhua LI, Zhaofeng LIU, Panpan HU: Journal of Textile Research 2003, 24(5):118-119 [8] Information on http://www .310052.com/jsyj/44/3826.html [9] Akira Isogai: Journal of the Society of Fiber Science and Technology 2001 (57):1
The core-sheath fiber structure and material properties make the fiber have a good heat-bonding performance [1-2].
Spinning and finishing technology 2.1 Spinning raw materials Spinning materials are shown in Table 1: Table 1 Spinning materials Material Melting index [MI] Weight average molecular weight [10,000] Density [g/cm 3] PP 20~25 15 0.901 HDPE 18~25 12.1 0.961 2.2 Spinning equipments Of the spinning equipments for PP/HDPE heat-bondable composite fiber, screw extruder, pre-filter, measuring pump, take-up machine were common spinning assembly.
(2)The core-sheath fiber structure, spinning material properties and especially the thermo-fusing character make the fiber have a good heat-bonding performance.
References [1] Dasheng ZHANG, Rui WANG, Yanhua QIN, Xin LIU, Xinjun ZHU: Synthetic Fiber in China 2006(6):1-2 [2] Yuanhui LI: Journal of Chengdu Textile College 2003, 20(3):9-10 [3] Jianfeng DI: Shanghai Textile Science & Technology 2003, 31(4):52-53 [4] Ling WANG, Wangming HU: Journal of Textile Research 2007, 28(1):85-86 [5]Qinfei KE, Ye ZHANG: Technical Textiles 2002, 20(5):15-17 [6] Binxuan NI, Xiaoning JIAO: Nonwovens 2008, 16(3):23-24 [7] Shuhua LI, Zhaofeng LIU, Panpan HU: Journal of Textile Research 2003, 24(5):118-119 [8] Information on http://www .310052.com/jsyj/44/3826.html [9] Akira Isogai: Journal of the Society of Fiber Science and Technology 2001 (57):1