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Online since: January 2013
Authors: Wen Yan Chen, Gou Sheng Liu, Yue Long Liu
Introduction
There are several ways to give retardation of flammability to polymer materials.
One of the good ways is to aid flame retardants to polymer materials.
Ammonium polyphosphates (APP) are used as materials of flame retardants for organic polymers[1-6].
Journal of Polymer Science, Vol. 16 (1978), p. 95
Journal of Applied Polymer Science.
One of the good ways is to aid flame retardants to polymer materials.
Ammonium polyphosphates (APP) are used as materials of flame retardants for organic polymers[1-6].
Journal of Polymer Science, Vol. 16 (1978), p. 95
Journal of Applied Polymer Science.
Online since: September 2013
Authors: Hui Tang, Shan Shan Hao, Wen Xue Wang
Effect of Anti-Cracking Agent on Cracking Property of SiO2 Optical Fiber Preform by Sol-Gel Method
Shanshan Hao1, Hui Tang 1* and Wenxue Wang1
1College of Material Science& Engineering, Harbin University of Science and Technology,
Harbin, China
haoshanshan198908@163.com
*Corresponding author.
Tang Hui (1960-), professor, female, Harbin University of Science and Technology, School of Material Science and Engineering, Mainly engaged in materials teaching and research work Keywords: sol-gel, SiO2 dry gel, anti-cracking agent, transmittance Abstract.
Journal of Non-Crystalline Solids, vol. 357, pp. 194 –201, 2011
Journal of Materials Science, vol. 29 pp. 5188-5192, 1994
Journal of Materials Chemistry, vol. 13, pp. 696-699, 2003.
Tang Hui (1960-), professor, female, Harbin University of Science and Technology, School of Material Science and Engineering, Mainly engaged in materials teaching and research work Keywords: sol-gel, SiO2 dry gel, anti-cracking agent, transmittance Abstract.
Journal of Non-Crystalline Solids, vol. 357, pp. 194 –201, 2011
Journal of Materials Science, vol. 29 pp. 5188-5192, 1994
Journal of Materials Chemistry, vol. 13, pp. 696-699, 2003.
Online since: April 2019
Authors: Mohd Raihan Taha, Ali Asghar Firoozi, Ali Akbar Firoozi, Tanveer Ahmed Khan, Jamal M.A. Alsharef, Farzad Hejazi
The properties of these materials can be significantly different from the behavior of their parent materials [9].
Nano-copper oxide is a widely used material and is applied as catalyst for superconducting materials, sensing materials, thermoelectric materials, ceramics, glass and others.
Higginson, Elasto-hydrodynamic lubrication: international series on materials science and technology, Elsevier, 2014, vol. 23
Advances in powder metallurgy and particulate materials, The International Journal of Powder Metallurgy, 1993, 4(1): pp. 201-209
Journal of materials science, 1994, 29(19): pp. 5207-5212. https://doi.org/10.1007/BF01151118
Nano-copper oxide is a widely used material and is applied as catalyst for superconducting materials, sensing materials, thermoelectric materials, ceramics, glass and others.
Higginson, Elasto-hydrodynamic lubrication: international series on materials science and technology, Elsevier, 2014, vol. 23
Advances in powder metallurgy and particulate materials, The International Journal of Powder Metallurgy, 1993, 4(1): pp. 201-209
Journal of materials science, 1994, 29(19): pp. 5207-5212. https://doi.org/10.1007/BF01151118
Online since: September 2008
Authors: Younes Messaddeq, Sidney José Lima Ribeiro, Marco Antonio Utrera Martines, Priscila Samara Saran, Hermi Felinto de Brito, Gustavo Rocha de Castro
Introduction
The discovery of mesoporous crystalline materials in 1992 at Mobil Oil Research and
Development [1,2] raise the interest of scientists who working in zeolite area and relating materials,
catalysis, and materials science [3,4].
A great number of potential application of these materials in the catalysis and separation area [5] and advanced materials [6,7] have been developed in a short period of time.
Then, the sample presents a fine distribution of pores size typical of MTS materials.
Sayari: Chemistry of Materials V. 8 (1996) p. 1840 4 J.S.
Vartuli: Current Opinion in Solid State & Material Science V. 1 (1996) p. 76 5 J.A.
A great number of potential application of these materials in the catalysis and separation area [5] and advanced materials [6,7] have been developed in a short period of time.
Then, the sample presents a fine distribution of pores size typical of MTS materials.
Sayari: Chemistry of Materials V. 8 (1996) p. 1840 4 J.S.
Vartuli: Current Opinion in Solid State & Material Science V. 1 (1996) p. 76 5 J.A.
Online since: March 2021
Authors: Li Hua Zhan, Yuan Gao, Hai Long Liao, Xue Ying Chen
Materials Science and Engineering A, 280(1) (2000) 102−107
Journal of Netshape Forming Engineering, 5(6) (2013) 1-6
Materials Science & Engineering A, 257(1) (1998)
[9] Yongqian Xu, Lihua Zhan, Minghui Huang, Chunhui Liu, Xun Wang, Anisotropy in creep-ageing behavior of textured Al-Cu-Mg alloy, International Journal of Lightweight Materials and Manufacture, 1 (2018) 40-46
Rae, Microstructure-sensitive modelling of dislocation creep in polycrystalline FCC alloys: Orowan theory revisited, Materials Science and Engineering: A, 651 (2016) 116-126
Journal of Netshape Forming Engineering, 5(6) (2013) 1-6
Materials Science & Engineering A, 257(1) (1998)
[9] Yongqian Xu, Lihua Zhan, Minghui Huang, Chunhui Liu, Xun Wang, Anisotropy in creep-ageing behavior of textured Al-Cu-Mg alloy, International Journal of Lightweight Materials and Manufacture, 1 (2018) 40-46
Rae, Microstructure-sensitive modelling of dislocation creep in polycrystalline FCC alloys: Orowan theory revisited, Materials Science and Engineering: A, 651 (2016) 116-126
Online since: May 2015
Preface
The 4th International Conference on Materials and Applications for Sensors and
Transducers, Bilbao, Spain, hosted about 130 oral and poster papers and more than
100 participants.
Publishing the conference proceedings in the form of 4-page papers in a compact volume of Key Engineering Materials which has a certain large impact in CPSI, while long versions of complete research articles are subject of publication in Sensor Letters and the Journal of Optoelectronics and Advanced Materials, both ISI Journals IV.
The Conference Chairmen Evangelos Hristoforou National TU of Athens Dimitrios Vlachos University of Peloponnese Conference details 4th International Conference on Materials and Applications for Sensors and Transducers, June 8-11, 2014, Bilbao Spain Chairmen Jon Gutierez, University of the Basque Country José Manuel Barandiarán, BCMAN, Basque Center for Materials, Applications and Nanostructures E.
Vlachos, University of Peloponnese, Department of Computer Science and Technology Scientific Committee Spyridon Diplas, Sintef Oslo, Norway Mihai Popescu, Editor-in-Chief, Journal of Optoelectronics and Advanced Materials Peter Svec, Slovak Academy of Sciences Horia Chiriac, National Institute for R&D in Technical Physics, Iasi, Romania Roberto Germano, Promete, Naples, Italy Ioannis Raptis, NCSR "Demokritos", Athens, Greece Raffaele Battaglia, Novaetech Srl Christophe Dolabdjian, University of CAEN, France Pavel Ripka, Czech Technical University, Czech Republic Saci Messaadi, Université de Batna, Algeria Nico Avdelidis, TWI, UK Faramarz Hossein-Babaei, K.N.
Vladimir Sivakov, Institute of Photonic Technology, Jena, Germany Velonia, K., Department of Materials Science and Technology, University of Crete Dediu, Valentin Alek, ISMN-CNR, Italy Anthopoulos, T., Imperial College London Morent, Rino, Applied Physics - Ghent University Papakonstantinou, P., University of Ulster, School of Engineering, Engineering Research Institute Athouël, Laurence, Dr., IMN-CNRS, University of Nantes, France Gascon, J., Catalysis Engineering / Delft University of Technology C.N.R.
Publishing the conference proceedings in the form of 4-page papers in a compact volume of Key Engineering Materials which has a certain large impact in CPSI, while long versions of complete research articles are subject of publication in Sensor Letters and the Journal of Optoelectronics and Advanced Materials, both ISI Journals IV.
The Conference Chairmen Evangelos Hristoforou National TU of Athens Dimitrios Vlachos University of Peloponnese Conference details 4th International Conference on Materials and Applications for Sensors and Transducers, June 8-11, 2014, Bilbao Spain Chairmen Jon Gutierez, University of the Basque Country José Manuel Barandiarán, BCMAN, Basque Center for Materials, Applications and Nanostructures E.
Vlachos, University of Peloponnese, Department of Computer Science and Technology Scientific Committee Spyridon Diplas, Sintef Oslo, Norway Mihai Popescu, Editor-in-Chief, Journal of Optoelectronics and Advanced Materials Peter Svec, Slovak Academy of Sciences Horia Chiriac, National Institute for R&D in Technical Physics, Iasi, Romania Roberto Germano, Promete, Naples, Italy Ioannis Raptis, NCSR "Demokritos", Athens, Greece Raffaele Battaglia, Novaetech Srl Christophe Dolabdjian, University of CAEN, France Pavel Ripka, Czech Technical University, Czech Republic Saci Messaadi, Université de Batna, Algeria Nico Avdelidis, TWI, UK Faramarz Hossein-Babaei, K.N.
Vladimir Sivakov, Institute of Photonic Technology, Jena, Germany Velonia, K., Department of Materials Science and Technology, University of Crete Dediu, Valentin Alek, ISMN-CNR, Italy Anthopoulos, T., Imperial College London Morent, Rino, Applied Physics - Ghent University Papakonstantinou, P., University of Ulster, School of Engineering, Engineering Research Institute Athouël, Laurence, Dr., IMN-CNRS, University of Nantes, France Gascon, J., Catalysis Engineering / Delft University of Technology C.N.R.
Online since: June 2012
Authors: Jun Long Huo, Yu Qin Tian
Introduction
The innovations in modern technology have been placing ever-increasing demands on advanced composite materials.
In the production industry, non-metal composite materials are used as substitutes for steel and other metals.
Besides, a wider choice of materials and ease of manufacturing make them ideal for engineering applications [1,2].
Fillers, in the form of particulates and fibers, are often added to polymeric materials to improve their stiffness and strength.
Chung: Properties of syndiotactic polystyrene composites with surface modified short Kevlar fiber, Materials Science and Engineering: A, Volume 441, Issues 1-2, 15 December 2006, Pages 206-214 [2] Min-Seok Sohn, Xiao-Zhi Hu: Mode II delamination toughness of carbon-fibre/epoxy composites with chopped Kevlar fibre reinforcement, Composites Science and Technology, Volume 52, Issue 3, 1994, Pages 439-448 [3] M.
In the production industry, non-metal composite materials are used as substitutes for steel and other metals.
Besides, a wider choice of materials and ease of manufacturing make them ideal for engineering applications [1,2].
Fillers, in the form of particulates and fibers, are often added to polymeric materials to improve their stiffness and strength.
Chung: Properties of syndiotactic polystyrene composites with surface modified short Kevlar fiber, Materials Science and Engineering: A, Volume 441, Issues 1-2, 15 December 2006, Pages 206-214 [2] Min-Seok Sohn, Xiao-Zhi Hu: Mode II delamination toughness of carbon-fibre/epoxy composites with chopped Kevlar fibre reinforcement, Composites Science and Technology, Volume 52, Issue 3, 1994, Pages 439-448 [3] M.
Online since: February 2015
Authors: Zoltan Major, Michael Jerabek, Martin Reiter
Both thermoplastic polymers and elastomers were used as matrix materials with combination of fillers made from different materials having different aspect ratio and revealing a wide variation of alignments and arrangements.
The theoretical, material science and computational aspects of these methods are summarized in numerous publications and books [4-6].
PTFE, PA, PEEK) based compounds and composites, particle filled elastomeric materials were also modeled.
International Journal of Plasticity, Vol. 26, pp 219-238, 2010
[26] Reiter, M. and Major, Z., 2011, A combined experimental and simulation approach for modelling the mechanical behaviour of heterogeneous materials using rapid prototyped microcells, Virtual and Physical Prototyping, Volume 6, Issue, http://www.tandfonline.com/doi/abs/10.1080/17452759.2011.586949 [27] Haimin Yao, Huajian Gao, Multi-scale cohesive laws in hierarchical materials, International Journal of Solids and Structures 44 (2007) 8177–8193
The theoretical, material science and computational aspects of these methods are summarized in numerous publications and books [4-6].
PTFE, PA, PEEK) based compounds and composites, particle filled elastomeric materials were also modeled.
International Journal of Plasticity, Vol. 26, pp 219-238, 2010
[26] Reiter, M. and Major, Z., 2011, A combined experimental and simulation approach for modelling the mechanical behaviour of heterogeneous materials using rapid prototyped microcells, Virtual and Physical Prototyping, Volume 6, Issue, http://www.tandfonline.com/doi/abs/10.1080/17452759.2011.586949 [27] Haimin Yao, Huajian Gao, Multi-scale cohesive laws in hierarchical materials, International Journal of Solids and Structures 44 (2007) 8177–8193
Online since: July 2011
Authors: Jing Zhi, Bao Gao, Ze Qiang Fu, Peng Shen
Introduction
At present time, a number of national level and local level coal bases have grown up in China, and drive many other matched industries development, such as power industry, coal chemistry industry and building materials industry.
It has producer—coal mining industries, consumer—power production and coal chemical industries, secondary consumer-- new material industries and decomposer-- building materials industry.
According to different mechanism of materials in the metabolic process, combined with practical situation in energy (coal) and coal chemical industry base, the materials is divided into four types-- resource, product, byproduct and waste.
Journal of Industrial Ecology, 2007 (15) : 1706-1715. ].
DMI measures the amount of materials entering the system to be used or processed, and is the sum of Domestic Extraction (DE) plus Imports.
It has producer—coal mining industries, consumer—power production and coal chemical industries, secondary consumer-- new material industries and decomposer-- building materials industry.
According to different mechanism of materials in the metabolic process, combined with practical situation in energy (coal) and coal chemical industry base, the materials is divided into four types-- resource, product, byproduct and waste.
Journal of Industrial Ecology, 2007 (15) : 1706-1715. ].
DMI measures the amount of materials entering the system to be used or processed, and is the sum of Domestic Extraction (DE) plus Imports.