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Online since: July 2015
Authors: Masoud Farzaneh, Yu Mei Han
Journal of Materials Engineering and Performance, 2013. 22(1): p. 176-183
Ceramics International, 2013. 39(7): p. 8493-8498
Journal of Materials Science, 2005. 40(2): p. 263-283
Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2002. 206(1–3): p. 41-46
Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2008. 313–314(0): p. 193-196
Ceramics International, 2013. 39(7): p. 8493-8498
Journal of Materials Science, 2005. 40(2): p. 263-283
Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2002. 206(1–3): p. 41-46
Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2008. 313–314(0): p. 193-196
Online since: November 2012
Authors: Wei Chen, Xiao Hui Zhang
The results can provide some guidelines for conceptual thermal control for Joule heated ceramic melter technology.
1.
Application of Joule heating in engineering can be found in nuclear waste treatment processing, such as melting glasses in electric glass melters process.
Zhang: Nuclear energy development in China: A study of opportunities and challenges, Energy.35( 2010),p.4282–4288 [3] G.Sugilal,P.K.Wattal and K.Iyer,Convective behaviour of a uniformly Joule-heated liquid pool in a rectangular cavity, International Journal of Thermal Sciences.44(2005),p.915–925 [4] X.
Unsteady numerical computation of combined thermally and electromagnetically driven convection in a rectangular cavity, International Journal of Heat and Mass Transfer, 54 (2011),p.717–721
Application of Joule heating in engineering can be found in nuclear waste treatment processing, such as melting glasses in electric glass melters process.
Zhang: Nuclear energy development in China: A study of opportunities and challenges, Energy.35( 2010),p.4282–4288 [3] G.Sugilal,P.K.Wattal and K.Iyer,Convective behaviour of a uniformly Joule-heated liquid pool in a rectangular cavity, International Journal of Thermal Sciences.44(2005),p.915–925 [4] X.
Unsteady numerical computation of combined thermally and electromagnetically driven convection in a rectangular cavity, International Journal of Heat and Mass Transfer, 54 (2011),p.717–721
Online since: April 2011
Authors: H. Çimenoğlu, E.S. Kayali, Gülçin Albayrak, F. Akmaz, H. Sengel, A. Parlar, L. Sepet, N. Altinsoy, A.B. Tugrul, Nilgun Baydogan
Tsai: Journal of Alloys and Compounds Vol. 495 (2010), p. 126
Bel Hadj Tahar: Journal of the European Ceramic Society Vol. 25 (2005), p. 3301
Xia: Journal of Crystal Growth Vol. 275 (2005), p. 943
Mari: Microelectronics Journal Vol. 39 (2008), p. 1425-1428
Lin: Journal of Applied Physics Vol. 99 (2006), p. 124906
Bel Hadj Tahar: Journal of the European Ceramic Society Vol. 25 (2005), p. 3301
Xia: Journal of Crystal Growth Vol. 275 (2005), p. 943
Mari: Microelectronics Journal Vol. 39 (2008), p. 1425-1428
Lin: Journal of Applied Physics Vol. 99 (2006), p. 124906
Online since: December 2016
Authors: Jiří Pazderka, Eva Hájková
Carse, Performance of permeability-reducing admixtures in marine concrete structures, ACI Materials Journal. 107(3) (2010) 291-296
Robert, Use of Xypex admixture to concrete as an inhibitor to reinforcement steel corrosion, Proceedings of the Materials Engineering Conference. 2 (1996) 1276-1280
Pazderka, Concrete with crystalline admixture for ventilated tunnel against moisture, Key Engineering Materials. 677 (2016) 108-113
Yuers, Chemical waterproofing more than skin deep, Concrete Engineering International, 8(1) (2004) 36-37
Klouda, The Capri South Beach fully protected with crystalline waterproofing-admixture-treated concrete, Concrete Engineering International. 14(4) (2008) 59-60
Robert, Use of Xypex admixture to concrete as an inhibitor to reinforcement steel corrosion, Proceedings of the Materials Engineering Conference. 2 (1996) 1276-1280
Pazderka, Concrete with crystalline admixture for ventilated tunnel against moisture, Key Engineering Materials. 677 (2016) 108-113
Yuers, Chemical waterproofing more than skin deep, Concrete Engineering International, 8(1) (2004) 36-37
Klouda, The Capri South Beach fully protected with crystalline waterproofing-admixture-treated concrete, Concrete Engineering International. 14(4) (2008) 59-60
Online since: March 2023
Authors: Shaima'a J. Kareem, Mohammed Naji Al-Aaraji, Amany Hatem
Kareem1,a, Mohammed Naji Al-Aaraji2,b, Amany Hatem3,c *
1,2,3Department of Ceramic Engineering and Building Materials, College of Materials Engineering, University of Babylon, Al Hilla, Iraq.
Where this examination was conducted at the University of Babylon / Department of Ceramics and Building Materials.
These examinations was conducted at the University of Babylon / Department of Ceramics and Building Materials.
Bindra Narang, 2019 3rd International Conference on Electronics, Materials Engineering & Nano-technology (IEMENTech) (2019) doi: 10.1109/IEMENTech48150.2019.8981054
Chemistry Central Journal, [27] S.
Where this examination was conducted at the University of Babylon / Department of Ceramics and Building Materials.
These examinations was conducted at the University of Babylon / Department of Ceramics and Building Materials.
Bindra Narang, 2019 3rd International Conference on Electronics, Materials Engineering & Nano-technology (IEMENTech) (2019) doi: 10.1109/IEMENTech48150.2019.8981054
Chemistry Central Journal, [27] S.
Online since: October 2015
Authors: Olga I. Sidorova, Sergey Galanov, Vera A. Batyreva
Stolyarevsky, Technology of receiving synthesis gas for hydrogen power, International scientific journal for alternative energy and ecology, №2 (2005) 26-32
Ovesen et al, Natural gas to synthesis gas – catalysts and catalytic processes, Journal of Natural gas science and engineering, 3 (2011) 423-459
Requies et al, Tri-reforming: A new biogas process for synthesis gas and hydrogen production, International journal of hydrogen energy, V.38 (2013) 7623-7631
Joo, Autothermal reforming of methane to syngas with palladium catalysts and an electric metal monolith heater, Korean Journal of Chemical Engineering, V.25, 5 (2008) 1054-1059
Borovinskaya, Historical retrospective of SHS: An autoreview, International Journal of Self-Propagating High-Temperature Synthesis, V.17, 4 (2008) 242-265
Ovesen et al, Natural gas to synthesis gas – catalysts and catalytic processes, Journal of Natural gas science and engineering, 3 (2011) 423-459
Requies et al, Tri-reforming: A new biogas process for synthesis gas and hydrogen production, International journal of hydrogen energy, V.38 (2013) 7623-7631
Joo, Autothermal reforming of methane to syngas with palladium catalysts and an electric metal monolith heater, Korean Journal of Chemical Engineering, V.25, 5 (2008) 1054-1059
Borovinskaya, Historical retrospective of SHS: An autoreview, International Journal of Self-Propagating High-Temperature Synthesis, V.17, 4 (2008) 242-265
Online since: February 2018
Authors: Kari Thangaratnam, Evangeline Kumar, Divya Divya
Integrated Thermal Structural Analysis of Advanced Composite
Plates and Shells
Kari Thangaratnam1,a*, Divya2,b, Evangeline Kumar3,c
1Department of Civil Engineering, DMI College of Engineering, Chennai - 600123, India
2Department of Civil Engineering, Easwari Engineering College, Chennai - 600089, India
3Department of Civil Engineering, Saint Michael's Polytechnic, Chennai - 600062, India
aideskari@gmail.com, bdivyasrinikesh@gmail.com, cevanchrisk@gmail.com
Keywords: Thermo-structural analysis; Composite plates and shells; Semiloof shell element; Temperature; Thermal stress
Abstract.
The results obtained will be useful particularly in nuclear reactor vessels and Thermal Protection System (TPS) in aeronautical engineering.
Sharma, Integrity of Structural and Thermo-Structural Materials for Indian Space Programme, Procedia Engineering 86 (2014) 8-17
Haiyang, Convective Heat Transfer Steady Heat Conduction and Thermal Stress in a Ceramic/FGM/Metal Composite EFBF Plate, Journal of Software 6(2) (2011)
Jatav, Thermal Stress Evaluation of Thin Isotropic Composite Plates using Classical Laminated Plate Theory, International Journal of Science, Engineering, and Technology, 2(6) (2014) 1077-1091
The results obtained will be useful particularly in nuclear reactor vessels and Thermal Protection System (TPS) in aeronautical engineering.
Sharma, Integrity of Structural and Thermo-Structural Materials for Indian Space Programme, Procedia Engineering 86 (2014) 8-17
Haiyang, Convective Heat Transfer Steady Heat Conduction and Thermal Stress in a Ceramic/FGM/Metal Composite EFBF Plate, Journal of Software 6(2) (2011)
Jatav, Thermal Stress Evaluation of Thin Isotropic Composite Plates using Classical Laminated Plate Theory, International Journal of Science, Engineering, and Technology, 2(6) (2014) 1077-1091
Online since: January 2024
Authors: Jeng Haur Horng, P.S. Suvin, Ambesh Singh, Satish V. Kailas, B. Depu Kumar Patro, Vimal Edachery
Kailas5,e, Jeng Haur Horng6,f
1,2,3Department of Mechanical Engineering, National Institute of Technology Karnataka, India
4Department of Mechanical Engineering, Indian Institute of Technology Madras, India
5Department of Mechanical Engineering, Indian Institute of Science Bangalore, India
6Department of Power Mechanical Engineering, National Formosa University
a*suvin@nitk.edu.in, bambeshsingh.202md015@nitk.edu.in, cdkp.217me006@nitk.edu.in, dvimal@iitm.ac.in, esatish.kailas@gmail.com, fjhhorng@gmail.com
Keywords.
Therefore, laser texturing is used to meet engineering requirements in dust adhesion, paint adhesion, and wear performance.
International Journal of Adhesion and Adhesives. 112 (2022)
Colloids and Surfaces A: Physicochemical and Engineering Aspects. 181 (2001)
Journal of Materials Science and Chemical Engineering, 06(07), (2018) 163–168. https://doi.org/10.4236/msce.2018.67017 [12] K.
Therefore, laser texturing is used to meet engineering requirements in dust adhesion, paint adhesion, and wear performance.
International Journal of Adhesion and Adhesives. 112 (2022)
Colloids and Surfaces A: Physicochemical and Engineering Aspects. 181 (2001)
Journal of Materials Science and Chemical Engineering, 06(07), (2018) 163–168. https://doi.org/10.4236/msce.2018.67017 [12] K.
Online since: November 2018
Authors: Felipe Marti-Montava, Ann Opsommer, David Garcia-Sanoguera
Influence of Silica Fume Source on Crystallization of Xonotlite in a New Process Making Medium Density Ca-Silicate Based Products
Felipe Marti-Montava1,2,a*, Ann Opsommer1,b and David Garcia-Sanoguera2,c
1Promat Research and Technology Centre, Etex Building Performance, Tisselt, Belgium
2Institute of Materials Technology (ITM), Universidad Politécnica de Valencia (UPV), Department of Mechanical and Materials Engineering, Alcoy, Spain
afelipe.martimontava@etexgroup.com, bann.opsommer@etexgroup.com, cdagarsa@dimm.upv.es
Keywords: Silica-fume, Crystallization, Particle Size.
Hattori, Influence of starting materials on the hydrothermal formation of xonotlite at 180˚C, Proceedings of 1st International Symposium on Hydrothermal Reactions, Japan 1982
Snell, Review of synthesis and properties of tobermorite, C-S-H (I) and C-S-H gel, Journal of the American Ceramic Society, 58 (2006) 292-295
Stumm, Structure, bonding and morphology of hydrothermally synthesized xonotlite, Advances in Applied Ceramics, 108 (2009) 137-144
Ishida, Phase evolution during autoclaving process of aerated concrete, Journal of American Ceramic Society, 75 (1992) 1858-1863
Hattori, Influence of starting materials on the hydrothermal formation of xonotlite at 180˚C, Proceedings of 1st International Symposium on Hydrothermal Reactions, Japan 1982
Snell, Review of synthesis and properties of tobermorite, C-S-H (I) and C-S-H gel, Journal of the American Ceramic Society, 58 (2006) 292-295
Stumm, Structure, bonding and morphology of hydrothermally synthesized xonotlite, Advances in Applied Ceramics, 108 (2009) 137-144
Ishida, Phase evolution during autoclaving process of aerated concrete, Journal of American Ceramic Society, 75 (1992) 1858-1863
Online since: June 2014
Authors: Chao Yin, Long Wang, Xiao Hou Shao, Jian Qiang Mao, Xin Yu Mao, Zhong Lin Tang, Teng Wang
The main carrier materials include granular activated carbon, zeolite, anthracite, ceramic balls, porous stainless steel or PVC, PE, etc.
While, nano-silica, used as biological carrier materials, has advantages of large surface area, better biocompatibility, and low cost compared with porous stainless steel, ceramics and other porous materials [12].
Water Resource and Environmental Protection (ISWREP), 2011 International Symposium on.
Chinese Journal of Ecology, 2012, 31(007): 1882-1886.
Journal of Anhui Agricultural Science, 2010, 38(5): 2496-2497.
While, nano-silica, used as biological carrier materials, has advantages of large surface area, better biocompatibility, and low cost compared with porous stainless steel, ceramics and other porous materials [12].
Water Resource and Environmental Protection (ISWREP), 2011 International Symposium on.
Chinese Journal of Ecology, 2012, 31(007): 1882-1886.
Journal of Anhui Agricultural Science, 2010, 38(5): 2496-2497.