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Online since: May 2020
Authors: A. Ustinov, Eugene Pitukhin
Improving the Efficiency of Protection of the Forest Fire Machine against Forest Fires with the Help of Composite Materials
A.
Traditional materials of which the cabin railings are made are heated quickly and do not effectively resist such extreme conditions.
Development of Fire-Protective Composite Material Good mechanical strength, fire safety, environmental safety open up prospects for the use of composite materials (CM), which actively entered into life and replaced traditional materials in energy, transport, electronics and other fields of activity [6-13].
Volkova, Thermophysical properties of composite materials with polymer matrix and solid solutions, М.: Science education Publ., 2011, 101 p
Shelestov, Thermal Insulation Properties Research of the Composite Material “Water Glass – Graphite Microparticles”, IOP Conference series: Materials science and engineering. 123 (2016) 012018
Traditional materials of which the cabin railings are made are heated quickly and do not effectively resist such extreme conditions.
Development of Fire-Protective Composite Material Good mechanical strength, fire safety, environmental safety open up prospects for the use of composite materials (CM), which actively entered into life and replaced traditional materials in energy, transport, electronics and other fields of activity [6-13].
Volkova, Thermophysical properties of composite materials with polymer matrix and solid solutions, М.: Science education Publ., 2011, 101 p
Shelestov, Thermal Insulation Properties Research of the Composite Material “Water Glass – Graphite Microparticles”, IOP Conference series: Materials science and engineering. 123 (2016) 012018
Online since: December 2013
Authors: Gang Hua Wang, Ming Xian Kan, Hai Long Zhao
Research on material properties under extreme conditions plays a great role in material science and high energy physics.
Introduction Research on material properties under extreme conditions plays a great role in material science and high energy physics.
Liner implosion calculations and shock pressure estimation To use condensed liners in the study of shock adiabat of materials,it is necessary to attain high energy densities, which, in turn, requires the attainment of velocities of condensed liners of the order of 1 cm/μs or higher.
Reinhart, etc., International Journal of impact Engineering, Vol. 33, issue 1-12,P. 799 [3] J.
Zmushko, et al., Journal of Applied Mechanics and Technical Physics, Vol. 50, No. 3, (2009) , P. 361 [7] A.
Introduction Research on material properties under extreme conditions plays a great role in material science and high energy physics.
Liner implosion calculations and shock pressure estimation To use condensed liners in the study of shock adiabat of materials,it is necessary to attain high energy densities, which, in turn, requires the attainment of velocities of condensed liners of the order of 1 cm/μs or higher.
Reinhart, etc., International Journal of impact Engineering, Vol. 33, issue 1-12,P. 799 [3] J.
Zmushko, et al., Journal of Applied Mechanics and Technical Physics, Vol. 50, No. 3, (2009) , P. 361 [7] A.
Online since: November 2012
Authors: Zhong Yong Xu, Zhi Fang Liu, Li Xiong Gu
is the fracture toughness of the materials.
International Journal of Fatigue 30, 834-849.(2008)
Advanced Materials Research, New and Advanced Materials, v 197-198(2011), p 1452-1459.
ASME Journal of Basic Engineering D85, 528-534.(1963)
Philadelphia: American Society for Testing and Materials, pp.491-504. (1988)
International Journal of Fatigue 30, 834-849.(2008)
Advanced Materials Research, New and Advanced Materials, v 197-198(2011), p 1452-1459.
ASME Journal of Basic Engineering D85, 528-534.(1963)
Philadelphia: American Society for Testing and Materials, pp.491-504. (1988)
Online since: May 2012
Authors: Xin Xie, Chang Tian Liu, Rong Yue Sun, Ying Jie Li
In order to overcome these shortcomings, doping with framework materials is shown as a promising potential solution.
Chen:Chemical Engineering Journal.
Lemonidou: Microporous and Mesoporous Materials.
Zheng: Applied Clay Science.
Zhao: Chemical Engineering Journal.
Chen:Chemical Engineering Journal.
Lemonidou: Microporous and Mesoporous Materials.
Zheng: Applied Clay Science.
Zhao: Chemical Engineering Journal.
Online since: July 2024
Authors: Huma Matloob
New sustainable building materials like recycled plastics, bio-based materials, and green concrete are revolutionizing the construction industry.
Significant potential for reduction through sustainable materials and techniques.
SDRP Journal of Nanotechnology & Material Science, 1(1)
In E3S Web of Conferences, v. 244, (2021), EDP Sciences
In IOP Conference Series: Materials Science and Engineering, IOP Publishing. 713, 1, (2020) p. 012048).
Significant potential for reduction through sustainable materials and techniques.
SDRP Journal of Nanotechnology & Material Science, 1(1)
In E3S Web of Conferences, v. 244, (2021), EDP Sciences
In IOP Conference Series: Materials Science and Engineering, IOP Publishing. 713, 1, (2020) p. 012048).
Online since: February 2012
Authors: Hai Yan Zhang, Xiao Guo Cao
In this paper, the cathode materials of SOEC are reviewed.
The research development of cathode materials is presented in this paper.
Journal of Materials Science. 39(2004) 4405-4439 [7] Martinez-Frias J, Pham AQ, Aceves SM.
Materials Chemistry and Physics. 96(2006) 388-395 [15] Momma A, Kato T, Kaga Y, Nagata S.
Journal of Materials Chemistry. 18(2008) 2349-2354
The research development of cathode materials is presented in this paper.
Journal of Materials Science. 39(2004) 4405-4439 [7] Martinez-Frias J, Pham AQ, Aceves SM.
Materials Chemistry and Physics. 96(2006) 388-395 [15] Momma A, Kato T, Kaga Y, Nagata S.
Journal of Materials Chemistry. 18(2008) 2349-2354
Online since: November 2014
Authors: Genii V. Kuznetsov, Pavel A. Strizhak, Alena O. Zhdanova
Characteristic times of thermal decomposition reaction suppression of forest fuel materials (needles of pine and fir-tree, leaves of birch) were presented for concerned heat transfer models.
Urbas, Effectiveness of pre-applied wetting agents in prevention of wildland urban interface fires, Fire and Materials. 37, 8 (2013) 563-580
Liu, Full-scale experimental study on fire suppression performance of a designed water mist system for rescue station of long railway tunnel, Journal of Fire Sciences. 30, 2 (2012) 138-157
Chew, Influence of moisture on autoignition of woods in cone calorimeter, Journal of Fire Sciences. 30, 2 (2012) 158-169
Zhou, Experimental study of the influences of orientation and altitude on pyrolysis and ignition of wood, Journal of Fire Sciences. 29, 3 (2011) 243-258
Urbas, Effectiveness of pre-applied wetting agents in prevention of wildland urban interface fires, Fire and Materials. 37, 8 (2013) 563-580
Liu, Full-scale experimental study on fire suppression performance of a designed water mist system for rescue station of long railway tunnel, Journal of Fire Sciences. 30, 2 (2012) 138-157
Chew, Influence of moisture on autoignition of woods in cone calorimeter, Journal of Fire Sciences. 30, 2 (2012) 158-169
Zhou, Experimental study of the influences of orientation and altitude on pyrolysis and ignition of wood, Journal of Fire Sciences. 29, 3 (2011) 243-258
Online since: May 2012
Authors: Jie Chen, De Yi Jiang, Song Ren, Song Tao Guo, Tao Deng
Especially, the creep behavior of similar materials can reflect the Jintan salt rock long-term creep with a relatively short time, which supplies reliable similitude model material for energy storage long-term creep test.
The test selected reference rock depth of 1 000 m of rock salt from Table 1 Physico-mechanical theoretical values of Jintan salt rocks and similar materials Lithology Bulk density (kN/m3) Elastic modulus (GPa) Poisson's ratio Compression strength (MPa) Jintan salt rock[16] 23.0 18 0.30 20 similar materials 23.0 0.36 0.30 0.4 Table 2 The creep-characteristic theoretical values of Jintan salt rocks and similar materials Lithology Load stress /MPa Time /h Initial creep rate /% Steady-state creep rate /% σ3 σ1 Jintan salt rock[8] 0 10 78 0.393 2.0 5 10 76 0.189 0.3 5 15 54 0.198 0.35 similar materials 0 0.2 11 0.393 14.0 0.1 0.2 11 0.189 2.1 0.1 0.3 8 0.198 2.45 Jintan salt mines, Jiangsu province, China.
After extensive groups of similar materials to simulate the salt rock, the similar materials are selected as follows: iron powder: coarse salt particles: fine salt powder: adhesives = 1:0.55:0.2:0.04 The adhesives composite of epoxy resin and ethylenediamine, and the volume ratio is 4:1.
Acknowledgements This research was supported by the Nation Basic Research Program of China(2009CB724606), Chinese Science Foundation (51074198), the Fundamental Research Funds for the Central Universities (CDJXS10240001; CDJXS11241182), Chongqing Natural Science Foundation (No.2010BB6044).
Mechanics of Cohesive-Frictional Materials.1996: 165-197
The test selected reference rock depth of 1 000 m of rock salt from Table 1 Physico-mechanical theoretical values of Jintan salt rocks and similar materials Lithology Bulk density (kN/m3) Elastic modulus (GPa) Poisson's ratio Compression strength (MPa) Jintan salt rock[16] 23.0 18 0.30 20 similar materials 23.0 0.36 0.30 0.4 Table 2 The creep-characteristic theoretical values of Jintan salt rocks and similar materials Lithology Load stress /MPa Time /h Initial creep rate /% Steady-state creep rate /% σ3 σ1 Jintan salt rock[8] 0 10 78 0.393 2.0 5 10 76 0.189 0.3 5 15 54 0.198 0.35 similar materials 0 0.2 11 0.393 14.0 0.1 0.2 11 0.189 2.1 0.1 0.3 8 0.198 2.45 Jintan salt mines, Jiangsu province, China.
After extensive groups of similar materials to simulate the salt rock, the similar materials are selected as follows: iron powder: coarse salt particles: fine salt powder: adhesives = 1:0.55:0.2:0.04 The adhesives composite of epoxy resin and ethylenediamine, and the volume ratio is 4:1.
Acknowledgements This research was supported by the Nation Basic Research Program of China(2009CB724606), Chinese Science Foundation (51074198), the Fundamental Research Funds for the Central Universities (CDJXS10240001; CDJXS11241182), Chongqing Natural Science Foundation (No.2010BB6044).
Mechanics of Cohesive-Frictional Materials.1996: 165-197
Online since: May 2011
Authors: Kai Yue, Lian Cun Zheng, Xin Xin Zhang, Bin Wan
The effective thermal conductivity of composite materials with spherical dispersed phase
Bin Wan 1, a, Kai Yue 1,b , Liancun Zheng 2,c and Xinxin Zhang 1,d
1Department of Thermal Engineering, University of Science and Technology Beijing
Beijing 100083, China
2Department of Mathematics & Mechanics, University of Science and Technology Beijing,
Beijing 100083, China
awanbin225@163.com, byuekai@ustb.edu.cn, cliancunzheng@163.com, dxxzhang@ustb.edu.cn
Keywords: Composite materials, ETC, Radiation, Porosity
Abstract.
Dieska: Metallic Materials, 40(2) (2002), p.74–81
Dieska: Metallic Materials, 41(4) (2003), p.152–161
Cordfunke: Journal of nuclear materials, 223 (1995), p.135-142
Kingery: Journal of American Ceramic Society, 37(1954), p.99-107.
Dieska: Metallic Materials, 40(2) (2002), p.74–81
Dieska: Metallic Materials, 41(4) (2003), p.152–161
Cordfunke: Journal of nuclear materials, 223 (1995), p.135-142
Kingery: Journal of American Ceramic Society, 37(1954), p.99-107.
Online since: December 2011
Authors: Xu Zhang, Shui Yu
Boucher : Journal of Material Science, Vol.11-9, p1734-1750(1976)
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Radjy : Journal of Material Science, Vol.9-5, p744-752(1974) [8] H.W.
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N., DIAMONO S: Journal of Materials, Vol.5-3, p564 (1970) [17] WINSLOW N.
Radjy : Journal of Material Science, Vol.9-5, p744-752(1974) [8] H.W.
Westford Massachusetts: Building Science Press Inc, 293-365 (2005) [11] Li, Kuishan, Zhang, Xu, and Gao, Jun :Journal of BUILDING PHYSICS, Vol. 32- 4 (2005) [12] Menghao Qin, Rafik Belarbi, Abdelkarim Aït-Mokhtar and Lars-Olof Nilsson:Journal of Material Science, Vol.43-10, p 3655-3663(2008) [13] Q.
Y L: Journal of Material Science, Vol.40-4, p 1013-1015(2005) [14] Richards, R.F., Burch, D.M. and Thomasl, W.C.
N., DIAMONO S: Journal of Materials, Vol.5-3, p564 (1970) [17] WINSLOW N.