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Online since: June 2017
Authors: Vojtěch Kostiha, František Girgle, Petr Štěpánek, Petra Rozehnalova, Anna Matusikova
FAST-S-16-3385 Computational modelling of high temperature behaviour of advanced structural materials and constructions (in Czech).
Hurst, Coupled Heat and Mass Transport Phenomena in Siliceous Aggregate Concrete Slabs Subjeted to Fire, Fire and Materials. 21 (1997) 161-168
Part 1: Physical Phenomena and Mathematical Model, International Journal of Solids and Structures. 48 (2011) 1927-1944
Tenchev, An Engineering Model for Coupled Heat and Mass Transfer Analysis in Heated Concrete, in: Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, February, 2002, pp. 213-222
Johannesson, Concrete Technology, Study Materials, Lecture 8, Technical University of Denmark, 2009
Hurst, Coupled Heat and Mass Transport Phenomena in Siliceous Aggregate Concrete Slabs Subjeted to Fire, Fire and Materials. 21 (1997) 161-168
Part 1: Physical Phenomena and Mathematical Model, International Journal of Solids and Structures. 48 (2011) 1927-1944
Tenchev, An Engineering Model for Coupled Heat and Mass Transfer Analysis in Heated Concrete, in: Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, February, 2002, pp. 213-222
Johannesson, Concrete Technology, Study Materials, Lecture 8, Technical University of Denmark, 2009
Online since: June 2011
Authors: Setsuo Takaki, Toshihiro Tsuchiyama, Nobuo Nakada, Hidetoshi Ito, Yoshikazu Matsuoka
Lee, Materials and Manufacturing Processes, 19 (2004), 51
Desplanques, Materials Science and Engineering A, 234–236 (1997), 463
Suzuki, Materials Science and Engineering A, 415 (2006), 104
Sato, Journal of Materials Science Letters, 22 (2003), 423
Edmonds, Materials Science and Engineering, A-273-275 (1999), 430
Desplanques, Materials Science and Engineering A, 234–236 (1997), 463
Suzuki, Materials Science and Engineering A, 415 (2006), 104
Sato, Journal of Materials Science Letters, 22 (2003), 423
Edmonds, Materials Science and Engineering, A-273-275 (1999), 430
Online since: September 2011
Authors: Mariatti Jaafar, Ismail Noor Mazni, Aziz Azizan
Experimental Details
3.1 Raw Materials.
[3] Harris P.J.F.: Carbon nanotube composites, International Materials Reviews 49 (1) (2004), p.31-43
Winey: Coagulation Method For Preparing SWNT-PMMA Composites And Their Modulus, Electrical Conductivity And Thermal Stability, Journal of Polymer Science Part B: Polymer Physics. 41 (2003), p.3333-3338
[7] Masahiro Toyoda, Ryotaro, Kohara, Tomoki Tsumura, Hiroyuki Mutoh, Mototsugu Sakai: Study of novel carbon fiber composite used exfoliated carbon fibers, Materials Science and Enginering B. 161 (2009), p.202-204
Xu: Response of mode II interlaminar fracture toughness of composite laminates with carbon nanotubes interlayer, International conference of Smart Materials and Technology in engineering.
[3] Harris P.J.F.: Carbon nanotube composites, International Materials Reviews 49 (1) (2004), p.31-43
Winey: Coagulation Method For Preparing SWNT-PMMA Composites And Their Modulus, Electrical Conductivity And Thermal Stability, Journal of Polymer Science Part B: Polymer Physics. 41 (2003), p.3333-3338
[7] Masahiro Toyoda, Ryotaro, Kohara, Tomoki Tsumura, Hiroyuki Mutoh, Mototsugu Sakai: Study of novel carbon fiber composite used exfoliated carbon fibers, Materials Science and Enginering B. 161 (2009), p.202-204
Xu: Response of mode II interlaminar fracture toughness of composite laminates with carbon nanotubes interlayer, International conference of Smart Materials and Technology in engineering.
Online since: November 2014
Authors: Run Ping Jia, Li Dai, Xin Yao He, Mao Song Huang
Materials
CNTs from catalytic vapor deposition (diameter: 10 nm ~20 nm, length: 50 nm~1 μm) were purchased from Nanotechport Co.
Preparation of materials 2.1 Preparation of plasma grafted CNTs.
Acknowledgement In this paper, the research was sponsored by National Science Foundation (21106083), Shanghai Leading Academic Discipline Project (J51504) and Composite Materials from Shanghai Institute of Technology (10210Q140001).
Science, 1994, 265(5176), 1212
European Polymer Journal, 2009, 45(2), 530–536.
Preparation of materials 2.1 Preparation of plasma grafted CNTs.
Acknowledgement In this paper, the research was sponsored by National Science Foundation (21106083), Shanghai Leading Academic Discipline Project (J51504) and Composite Materials from Shanghai Institute of Technology (10210Q140001).
Science, 1994, 265(5176), 1212
European Polymer Journal, 2009, 45(2), 530–536.
Online since: December 2011
Authors: Di Xin Yang, Yuan Fang Sun
Thermal Simulation Study of 900MPa Grade High-Strength Low Alloy Steel in Welding Procedures
Yang Dixin1, a, Sun Yuanfang2,b
1 Institute of Material Science and Engineering ,Henan University of Science and Technology,Luoyang 471003, China
2 Design and Research Institute,Zhengzhou Coal Mining Machinery Group Co.
How to save weight on the premise of guaranteeing strength ,this is a problem that calls for immediate solution in the design of support .How to save weight of support on the premise of guaranteeing strength,the most effective way is to adopt high strength steel.The structural steel in making international advanced hydraulic support mainly adopts high strength welding steel that tensile strength is more than 700~1000MPa. upgrading process of materials has won initial success in recent years, production, processing and welding of high strength steel sheet have been basically solved,and that find broad application and is effective in the design of support.
But the weldability of materials need continued study , optimize welding process, increase comprehensive properties and bearing capacity of welding joint, to meet the high reliability demand in support design.
S´anchez-Cabrera: Materials Science and Engineering Vol.
Zhong: Journal of Xihua University·Natural Science Vol. 26(2007), p. 33-35 [8] Information on http://www.docin.com/p-4462880.html
How to save weight on the premise of guaranteeing strength ,this is a problem that calls for immediate solution in the design of support .How to save weight of support on the premise of guaranteeing strength,the most effective way is to adopt high strength steel.The structural steel in making international advanced hydraulic support mainly adopts high strength welding steel that tensile strength is more than 700~1000MPa. upgrading process of materials has won initial success in recent years, production, processing and welding of high strength steel sheet have been basically solved,and that find broad application and is effective in the design of support.
But the weldability of materials need continued study , optimize welding process, increase comprehensive properties and bearing capacity of welding joint, to meet the high reliability demand in support design.
S´anchez-Cabrera: Materials Science and Engineering Vol.
Zhong: Journal of Xihua University·Natural Science Vol. 26(2007), p. 33-35 [8] Information on http://www.docin.com/p-4462880.html
Online since: March 2011
Authors: Fa Rong Huang, Lei Du, Yan Bing Liu, Hui Min Qi, Kang Kang Guo
Synthesis, Characterization and Oxidation Behavior of a novel curable liquid Polysilane precursors for C/C-SiC Composite
Kangkang Guo, Yanbing Liu, Huimin Qi*, Farong Huang and Lei Du
(Key Laboratory of Specially Functional Polymeric Materials and Related Technology of the Ministry of Education, School of Materials Science and Engineering, East China University of
Science and Technology, Shanghai 200237, China)
*qihm@ecust.edu.cn
Key words: polysilane, β-SiC, C/C-SiC Composite
Abstract.
Experimental section Raw Materials.
Acknowledgements The authors gratefully acknowledge the support of the National Science Foundation of China (Grant No.90816021).
[10] Li Jin-hui, Chen Lai: Silicone Material Vol.21 (2007), p. 129 [11] Koe, Julian: Polymer International Vol.58 (2009), p. 255 [12] Zhou Bo, Lin Qian, Cheng Ming, Huang Shiqiang: Guangdong Chemical Industry Vol.36 (2009), p. 77 [13] Liu Yanbing, Guo Kangkang, Qi Huimin, Huang Farong, Du Lei: New Chemical Materials Vol.38 (2010), p. 84 [14] Norbert Auner, Sven Holl, Christian Bauch, Gerd Lippold, Rumen Deltschew, U.S.
Domrachev: Journal of Applied Chemistry Vol.83 (2010), p. 115
Experimental section Raw Materials.
Acknowledgements The authors gratefully acknowledge the support of the National Science Foundation of China (Grant No.90816021).
[10] Li Jin-hui, Chen Lai: Silicone Material Vol.21 (2007), p. 129 [11] Koe, Julian: Polymer International Vol.58 (2009), p. 255 [12] Zhou Bo, Lin Qian, Cheng Ming, Huang Shiqiang: Guangdong Chemical Industry Vol.36 (2009), p. 77 [13] Liu Yanbing, Guo Kangkang, Qi Huimin, Huang Farong, Du Lei: New Chemical Materials Vol.38 (2010), p. 84 [14] Norbert Auner, Sven Holl, Christian Bauch, Gerd Lippold, Rumen Deltschew, U.S.
Domrachev: Journal of Applied Chemistry Vol.83 (2010), p. 115
Online since: May 2011
Authors: Yuan Bo Huang, Hui Pan, Zhi Feng Zheng, Hao Feng
However, the raw materials for preparing traditional phenolic foams, based on phenol and formaldehyde, are obtained from fossil resources.
Lignocellulosic biomass, such as lignin, cashew nut shell oil and wood, as natural polymer contains more than one phenolic functional group in the molecular chains, and can be used as phenol for preparing phenolic resin materials.
Experimental Materials.
We are also grateful for the supports of Key Discipline on Wood Science & Technology in Yunnan Province, Program for Innovative Research Team (in Science and Technology) in University of Yunnan Province, and Biomass Materials Engineering Research Center in University of Yunnan Province, China.
Wang: Journal of Southwest Forestry College, Vol.26 (2006), p. 33.
Lignocellulosic biomass, such as lignin, cashew nut shell oil and wood, as natural polymer contains more than one phenolic functional group in the molecular chains, and can be used as phenol for preparing phenolic resin materials.
Experimental Materials.
We are also grateful for the supports of Key Discipline on Wood Science & Technology in Yunnan Province, Program for Innovative Research Team (in Science and Technology) in University of Yunnan Province, and Biomass Materials Engineering Research Center in University of Yunnan Province, China.
Wang: Journal of Southwest Forestry College, Vol.26 (2006), p. 33.
Online since: June 2014
Authors: Odd Sture Hopperstad, Trond Furu, Ketill Olav Pedersen, Tore Børvik, Ida Westermann
The rolled material exhibits the highest strength and the most extensive work-hardening, while the extruded material work-hardens less at large strains than the other two materials.
Another factor here is the heat treatment that was not identical for the three materials.
The extruded and rolled materials have markedly higher ductility than the cast and homogenized material, which is attributed to the broken-up and more homogeneously distributed particles in the two former materials.
Pedersen, The influence of grain structure and texture on formability and toughness of extruded aluminium alloys, Materials Science Forum, 519-521 (2006) 1421-1428 [3] LS-DYNA, 2013. http://www.lstc.com/ [cited: 24.11.13]
Journal of Light Metals 1 (2001) 133–149.
Another factor here is the heat treatment that was not identical for the three materials.
The extruded and rolled materials have markedly higher ductility than the cast and homogenized material, which is attributed to the broken-up and more homogeneously distributed particles in the two former materials.
Pedersen, The influence of grain structure and texture on formability and toughness of extruded aluminium alloys, Materials Science Forum, 519-521 (2006) 1421-1428 [3] LS-DYNA, 2013. http://www.lstc.com/ [cited: 24.11.13]
Journal of Light Metals 1 (2001) 133–149.
Online since: July 2021
Authors: Ihor Khmyrov, Alexandr Soshinskiy, Nina Rashkevich, Roman Shevchenko
Journal of Testing and Evaluation. 32. 6 (2004). 438–449
Karim Use of Geosynthetic materials in solid waste landfill design: A review of geosynthetic related stability issues.
Advanced Materials Research. 599 (2012). 640–646
Polish Journal of Environmental Studies. 27 (2018). 2425
In Materials Science Forum.
Karim Use of Geosynthetic materials in solid waste landfill design: A review of geosynthetic related stability issues.
Advanced Materials Research. 599 (2012). 640–646
Polish Journal of Environmental Studies. 27 (2018). 2425
In Materials Science Forum.
Online since: January 2023
Authors: Le Phuong Quynh, Le Nhat Quang, Nguyen Kim Minh Tam, Long Quang Nguyen
As a consequence, the recent researches studying on antibacterial activity of chitosan and chitosan based polymer have become potential materials to deal with such issues [2, 3].
Polymers are commonly used as film material as they have good modification ability and cost-effective material.
Moreover, zeolite was not the main cause of CFU reduction of materials but the presence of zeolite resulted in the decline of chitosan component that thus, lowering the rate.
Gilson, Zeolite for Cleaner Technology, Catalytic Science Series: Vol. 3, p.1-28. (2002) [8] Long, N.
Materials, 8(8), 4895–4911. (2015)
Polymers are commonly used as film material as they have good modification ability and cost-effective material.
Moreover, zeolite was not the main cause of CFU reduction of materials but the presence of zeolite resulted in the decline of chitosan component that thus, lowering the rate.
Gilson, Zeolite for Cleaner Technology, Catalytic Science Series: Vol. 3, p.1-28. (2002) [8] Long, N.
Materials, 8(8), 4895–4911. (2015)