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Online since: August 2018
Authors: Zhong Zhou Yi, Feng Rui Zhai, Lei Gao, Ke Shan, Nan Li
Temperature Field Simulation of TC4/SiC Bilayer in Laser Forming
Nan Li1,a, Lei Gao2,b, Zhongzhou Yi1,c*, Fengrui Zhai1,d, Ke Shan1,c
1College of science, Honghe University, Mengzi 661199, PR China
2Faculty of Materials Science and Engineering, Kunming University of Science and Technology, Kunming 650093, PR China
alinan19850226@126.com, bglkust2013@hotmail.com, cyizhongzhou@tsinghua.org.cn, dzhaifr0873@126.com, eshankekeshan@163.com
Keywords: FEM; laser forming; metal/ceramic bilayer material
Abstract.
Laser forming, an advanced technology widely used for the shaping and adjustment of metallic and non-metallic materials, can also be used to process metal/ceramic materials.
Introduction Metal/ceramics bilayer materials are materials of great interest that are commonly used in helmets, personal body armors [1, 2] and for aerospace.
Zhang, Reaction-composite brazing of carbon fiber reinforced SiC composite and TC4 alloy using Ag–Cu–Ti–(Ti+C) mixed powder, Materials Science and Engineering: A, 562 (2013) 203-210
Hu, Numerical analysis of metal/ceramic bilayer materials systems in laser forming, Computational Materials Science, 45 (2009) 439-442
Laser forming, an advanced technology widely used for the shaping and adjustment of metallic and non-metallic materials, can also be used to process metal/ceramic materials.
Introduction Metal/ceramics bilayer materials are materials of great interest that are commonly used in helmets, personal body armors [1, 2] and for aerospace.
Zhang, Reaction-composite brazing of carbon fiber reinforced SiC composite and TC4 alloy using Ag–Cu–Ti–(Ti+C) mixed powder, Materials Science and Engineering: A, 562 (2013) 203-210
Hu, Numerical analysis of metal/ceramic bilayer materials systems in laser forming, Computational Materials Science, 45 (2009) 439-442
Innovative Sustainable Materials – Structural Stability Check of Various Waste Mix Concrete Material
Online since: October 2015
Authors: Abhinandan R. Gupta, S.K. Deshmukh
Innovative Sustainable Materials –
Structural Stability Check of Various Waste Mix Concrete Material
Abhinandan R.Gupta 1, Dr.
Materials like cement, steel, bricks are highly energy intensive materials.
· Out of various such waste materials some of them are selected as percentage replacement materials for concrete
Implication By carrying out strength check for various waste mix concrete materials, the basic properties of such materials are discovered.
Science, Vol1, Issue 3, pp 259-267
Materials like cement, steel, bricks are highly energy intensive materials.
· Out of various such waste materials some of them are selected as percentage replacement materials for concrete
Implication By carrying out strength check for various waste mix concrete materials, the basic properties of such materials are discovered.
Science, Vol1, Issue 3, pp 259-267
Online since: July 2013
Authors: Jun Xiao Wang
Study on Sculpture based on New Materials
Junxiao Wang
Nanyang Institute of Technology, Nanyang, Henan, China 473000
Keywords: New Materials; Sculpture; Application; Research
Abstract.
New Materials Metallic Material.
Stainless steel material is the product of the development of science and technology, silver gray, very bright metal luster and albedo function.
The organic polymer materials are the last century has produced a new type of material.
The use of a wide range of contemporary sculpture materials, In addition to the above new materials, there are a lot of special materials, such as: language, text, photos, charts, sound, light, electricity, and even "people" as sculptural material.
New Materials Metallic Material.
Stainless steel material is the product of the development of science and technology, silver gray, very bright metal luster and albedo function.
The organic polymer materials are the last century has produced a new type of material.
The use of a wide range of contemporary sculpture materials, In addition to the above new materials, there are a lot of special materials, such as: language, text, photos, charts, sound, light, electricity, and even "people" as sculptural material.
Online since: February 2013
Authors: Fu Ding Mei, Jiao Jiao Hou, Zhi Heng Mei
When cement in the cementing materials meeting the water, C3A reacts immediately, C3S and C4AF hydrate quickly, and C2S does slower.
In the fig.5, the plate-shaped and the sheet materials were CaO and Ca(OH)2, and the flocculent material is the silicate hydrate gum body C-S-H, and the rods materials were calcium alum stone AFt.
New Building Materials, 2009, 8(03) :6-9; [2] Liao Guoyan, Li Xibing, Zhao Guoyan.
Selection and Optimization of Activators for Cementitious Materials Filled with Yellow Phosphorus Slag[J].
Journal of Chinese Electron Microscopy Society, 2011,30(3):200-205; [4] LI Xiang, YAN Peiyu, Aruhan.
In the fig.5, the plate-shaped and the sheet materials were CaO and Ca(OH)2, and the flocculent material is the silicate hydrate gum body C-S-H, and the rods materials were calcium alum stone AFt.
New Building Materials, 2009, 8(03) :6-9; [2] Liao Guoyan, Li Xibing, Zhao Guoyan.
Selection and Optimization of Activators for Cementitious Materials Filled with Yellow Phosphorus Slag[J].
Journal of Chinese Electron Microscopy Society, 2011,30(3):200-205; [4] LI Xiang, YAN Peiyu, Aruhan.
Online since: June 2014
Authors: Muhd Ridzuan Mansor, Edi Syam Zainudin, S.M. Sapuan, A.A. Nuraini, Arep Ariff
Khairul: Journal of Composite Material, 47 (2012) 979
[2] H.M.
Sarasini, Material Science and Engineering, 527 (2010) 2942
Hambali, Materials and Design, 51 (2013) 484–492 [4] A.
Mustapha, Materials and Design, 31 (2010) 696
Houston, Journal of the Minerals, metals, and Materials Society, 58 (2006) 80
Sarasini, Material Science and Engineering, 527 (2010) 2942
Hambali, Materials and Design, 51 (2013) 484–492 [4] A.
Mustapha, Materials and Design, 31 (2010) 696
Houston, Journal of the Minerals, metals, and Materials Society, 58 (2006) 80
Online since: June 2014
Authors: Shang Kun Ren, Feng Guo
When stresses are imposed on ferromagnetic materials, magnetic field energy of the material equals the piezomagnetic energy per unit volume
References [1] Daosheng Dai, Kunming Qian, Ferromagnetics, Science Press, Beijing, 2000(In Chinese) [2] H.
[3] Sheliang WANG, Wei WANG, Sanqing SU, Shaofeng ZHANG: Journal of Xi’an University of Science and Technology, Vol. 25(2005), p. 288(In Chinese) [4] I.
Perevertov: Journal of Magnetism and Magnetic Materials, Vol. 304(2006), p. 168 [5] Shangkun Ren, Zhenhan Xu: Acta Aeronautica et Astronautica Sinica, Vol. 25(2014)(In Chinese) [6] Perevertov O., Stupakov O., Tomáš I., Skrbek B: NDT&E International, Vol. 44 (2011), p. 490 [7] I.
Tomáš: Magnetism and Magnetic Materials, Vol. 268(2004), p. 178
References [1] Daosheng Dai, Kunming Qian, Ferromagnetics, Science Press, Beijing, 2000(In Chinese) [2] H.
[3] Sheliang WANG, Wei WANG, Sanqing SU, Shaofeng ZHANG: Journal of Xi’an University of Science and Technology, Vol. 25(2005), p. 288(In Chinese) [4] I.
Perevertov: Journal of Magnetism and Magnetic Materials, Vol. 304(2006), p. 168 [5] Shangkun Ren, Zhenhan Xu: Acta Aeronautica et Astronautica Sinica, Vol. 25(2014)(In Chinese) [6] Perevertov O., Stupakov O., Tomáš I., Skrbek B: NDT&E International, Vol. 44 (2011), p. 490 [7] I.
Tomáš: Magnetism and Magnetic Materials, Vol. 268(2004), p. 178
Online since: July 2014
Authors: Chao Chen, Dian Wei Qi, Ye Zhang
Bansal, NK and Buddhi, D [13] developed a thermal analysis for a collector cum system for quasi-steady-state conditions using phase change materials.
Different sensible heat and latent heat storage materials were studied.
Acknowledgements This work was financially supported by the byXinjiang Youth Science Found 2010211B03and Xinjiang KJZJ Science found 201091115 Reference [1] J.
Bedecarrats, Second law analysis of latent thermal storage for solar system, Solar energy materials and solar cells, 91 (2007) 1275-1281
Buddhi, Performance equations of a collector cum storage system using phase change materials, Solar Energy, 48 (1992) 185-194
Different sensible heat and latent heat storage materials were studied.
Acknowledgements This work was financially supported by the byXinjiang Youth Science Found 2010211B03and Xinjiang KJZJ Science found 201091115 Reference [1] J.
Bedecarrats, Second law analysis of latent thermal storage for solar system, Solar energy materials and solar cells, 91 (2007) 1275-1281
Buddhi, Performance equations of a collector cum storage system using phase change materials, Solar Energy, 48 (1992) 185-194
Online since: November 2011
Authors: Meng Hou, Martin Veidt, Michael T. Heitzmann, Luigi Jules Vandi, Rowan Paton
Introduction
Adhesive interfaces between two materials are generally perceived as having well defined borders.
Materials HexPly M18/1 supplied by Hexcel was used in this study.
Schubert, "Interfaces between incompatible polymers," Annual Review of Materials Science, vol. 25, pp. 325-356, 1995
Régnier, "Study of epoxy and epoxy-cyanate networks thermal degradation to predict materials lifetime in use conditions," Journal of Applied Polymer Science, vol. 77, pp. 3142-3153, 2000
Eibl, "Observing inhomogeneity of plastic components in carbon fiber reinforced polymer materials by ATR-FTIR spectroscopy in the micrometer Scale," Journal of Composite Materials, vol. 42, pp. 1231-1246, 2008.
Materials HexPly M18/1 supplied by Hexcel was used in this study.
Schubert, "Interfaces between incompatible polymers," Annual Review of Materials Science, vol. 25, pp. 325-356, 1995
Régnier, "Study of epoxy and epoxy-cyanate networks thermal degradation to predict materials lifetime in use conditions," Journal of Applied Polymer Science, vol. 77, pp. 3142-3153, 2000
Eibl, "Observing inhomogeneity of plastic components in carbon fiber reinforced polymer materials by ATR-FTIR spectroscopy in the micrometer Scale," Journal of Composite Materials, vol. 42, pp. 1231-1246, 2008.
Online since: September 2016
Authors: E.A. Yatsenko, V.A. Smoliy, B.M. Goltsman
Development of Resource-Saving Cellular Glass Technology and Materials Based on it
E.A.
Méar, Characterization of lead, barium and strontium leachability from foam glasses elaborated using waste cathode ray-tube glasses, Journal of Hazardous Materials. 185 (2011) 236-241
Lu, Preparation of sintered foam materials by alkali-activated coal fly ash, Journal of Hazardous Materials. 174 (2010) 108-112
Smolii, Foamed glass based on slag wastes, Journal of International Scientific Publications: Materials, Methods and Technologies. 8 (2014) 54-61
Yatsenko, Investigation of the Raw Materials' Composition and Ratio Influence on the Structure and Properties of the Foamed Slag Glass, Materials Science Forum. 843 (2016) 183-188.
Méar, Characterization of lead, barium and strontium leachability from foam glasses elaborated using waste cathode ray-tube glasses, Journal of Hazardous Materials. 185 (2011) 236-241
Lu, Preparation of sintered foam materials by alkali-activated coal fly ash, Journal of Hazardous Materials. 174 (2010) 108-112
Smolii, Foamed glass based on slag wastes, Journal of International Scientific Publications: Materials, Methods and Technologies. 8 (2014) 54-61
Yatsenko, Investigation of the Raw Materials' Composition and Ratio Influence on the Structure and Properties of the Foamed Slag Glass, Materials Science Forum. 843 (2016) 183-188.
Online since: September 2013
Authors: Jeng Jong Lin
Theoretical analysis of fabric behaviour often becomes very complex, and experimental verification of theoretical predictions is more critical than the other materials [1].
Acknowledgement The author thanks the National Science Council for the financial aid to this study.
Ganesh, Prediction of On-axes Elastic Properties of Plain Weave Fabric Composites, Composite Science and Technology, Vol. 45 (1992), p.135-152
Carnaby, Continuum Mechanics of the Fiber Bundle, Textile Research Journal, vol. 55 (1985), p.334-344
Peirce, The Geometry of Cloth Structure, Journal of Textile Institute, vol. 28 (1937), T45-96.
Acknowledgement The author thanks the National Science Council for the financial aid to this study.
Ganesh, Prediction of On-axes Elastic Properties of Plain Weave Fabric Composites, Composite Science and Technology, Vol. 45 (1992), p.135-152
Carnaby, Continuum Mechanics of the Fiber Bundle, Textile Research Journal, vol. 55 (1985), p.334-344
Peirce, The Geometry of Cloth Structure, Journal of Textile Institute, vol. 28 (1937), T45-96.