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Online since: December 2012
Authors: Zhao Wu Shen, Xue Yan Liao, Fu Qiang Shi, Yao Gang Jiang, Zhi Gang Gong
Enhancement of explosion energy and mechanical strength of
energetic material by aluminum fibre
Liao Xue-yan1, a, Shi Fu-qiang1, b, Shen Zhao-wu2, c,
Jiang Yao-gang1 ,Gong Zhi-gang1
1Sichuan Province Academy of Safety Science and Technology, Chengdu, 610045,China
2 Department of Modern Mechanics, University of Science and Technology of China, Hefei 230026,China
astagger@mail.ustc.edu.cn, bsfq@ swjtu.cn, czwshen@ustc.edu.cn
Keywords: energetic material; mechanical strength; output energy; aluminum fibre explosive
Abstract.
“Thermal Char- act erization of Passivated Nanometer Size Aluminum Powders,”, Journal of Thermal Analysis and Calorimetry, Vol. 61, 2000, pp. 805-818
“Modeling spherical explosions with alum- inized energetic materials” Shock Waves.
Chinese journal of energetic materialpropellants.vol.22(1999)3: 29-31
Beijing: Science Press,1987
“Thermal Char- act erization of Passivated Nanometer Size Aluminum Powders,”, Journal of Thermal Analysis and Calorimetry, Vol. 61, 2000, pp. 805-818
“Modeling spherical explosions with alum- inized energetic materials” Shock Waves.
Chinese journal of energetic materialpropellants.vol.22(1999)3: 29-31
Beijing: Science Press,1987
Online since: October 2015
Authors: Xin Qiu, Lin Wu Chen, Xiao Hua Luo, Xin Qing Huang, Jin Hong Wu
Nowadays, there are numerous kinds of road base materials.
Therefore the selection of road base materials becomes one of the most important steps in highway construction.
Therefore, their life cycle cost model was over simplified in term of the decision and selection of the road base materials.
Therefore it was suitable for the selection of the road base materials with multiple influence factors.
Gao: Journal of Highway Traffic Science and Technology Vol. 6(2008), pp: 25-27.
Therefore the selection of road base materials becomes one of the most important steps in highway construction.
Therefore, their life cycle cost model was over simplified in term of the decision and selection of the road base materials.
Therefore it was suitable for the selection of the road base materials with multiple influence factors.
Gao: Journal of Highway Traffic Science and Technology Vol. 6(2008), pp: 25-27.
Online since: March 2012
Authors: Zarina Isnin, Sabarinah Sh. Ahmad
There are limited available datasets on building materials as they are typically not transparent, and research is usually done to individual materials or components.
Unfortunately, construction activities consume as much as 40% of global energy and materials used, emitting about 35% of carbon dioxide [20] using 30% raw materials and 28% of landfill material as construction debris [6].
Although less toxic and safer materials such as sustainable and green building materials are available, they are not widely used.
Journal of Workplace Health Management, (2011) [8] B.
Journal of the Physical Sciences Vol. 5(6), pp. 768-773, (2010) [22] J-J.
Unfortunately, construction activities consume as much as 40% of global energy and materials used, emitting about 35% of carbon dioxide [20] using 30% raw materials and 28% of landfill material as construction debris [6].
Although less toxic and safer materials such as sustainable and green building materials are available, they are not widely used.
Journal of Workplace Health Management, (2011) [8] B.
Journal of the Physical Sciences Vol. 5(6), pp. 768-773, (2010) [22] J-J.
Online since: July 2015
Authors: Beate Langer, Marcus Schoßig, Thomas Illing, Wolfgang Grellmann
References
[1] DIN 50035 (2012-09): Terms and Definitions used on Ageing of Materials – Polymeric Materials
International Journal of Fatigue, 29 (2007) 199–208
Journal of Reinforced Plastics and Composites, 3 (1984) 98–119
Composites Science and Technology, 68 (2008) 2574–2581
Eds.), Deformation and Fracture Behaviour of Polymer Materials.
International Journal of Fatigue, 29 (2007) 199–208
Journal of Reinforced Plastics and Composites, 3 (1984) 98–119
Composites Science and Technology, 68 (2008) 2574–2581
Eds.), Deformation and Fracture Behaviour of Polymer Materials.
Online since: April 2009
Authors: Paul Koltun, Trevor Kearney, Stefan Gulizia, Darryl Jones, Mahnaz Z. Jahedi
Thermal Fatigue Studies Using HF Induction Heating of Die Materials
for Light Metals Casting
S.
Koltun 1,3 1 CAST CRC, UDP No 055, the University of Queensland, Brisbane QLD 4072 Australia 2 CSIRO Materials Science & Engineering, Normanby Road, Clayton, Vic, 3169, Australia 3 CSIRO Sustainable Ecosystems Normanby Road, Clayton, Vic, 3169, Australia a stefan.gulizia@csiro.au Keywords: thermal fatigue, tool materials Abstract In this study a new thermal fatigue test rig has been developed that can apply a net energy input to materials with different physical properties using HF induction heating.
The results show materials with high thermal conductivity such as tungstenbased materials are more resistant to thermal fatigue cracking than conventionally used hot work tool steels for HPDC dies.
The results show die materials with high thermal conductivities containing tungsten are more resistant to thermal fatigue cracking than commonly used ferrous die materials in HPDC conditions.
References [1] Klobear, D., Tusek, J. and Taljat, B. (2008) Thermal fatigue of materials for die casting tooling, Materials Science and Engineering A 472 (2008) 198-207 [2] Sjostrom, J. and Bergstron, J. (2004) Thermal fatigue testing of chromium martensite hot-work tool steel after austenitizing treatments, Journal of Materials Processing Technology 153-154 (2004) 1089-1096 [3] Persson, A., Hogmark, S. and Bergstrom, J. (2004) Simulation and evaluation of thermal fatigue cracking of hot work tool steels, International Journal of Fatigue 26 (2004) 1095-1107 [4] Gulizia, S., Jahedi, M.
Koltun 1,3 1 CAST CRC, UDP No 055, the University of Queensland, Brisbane QLD 4072 Australia 2 CSIRO Materials Science & Engineering, Normanby Road, Clayton, Vic, 3169, Australia 3 CSIRO Sustainable Ecosystems Normanby Road, Clayton, Vic, 3169, Australia a stefan.gulizia@csiro.au Keywords: thermal fatigue, tool materials Abstract In this study a new thermal fatigue test rig has been developed that can apply a net energy input to materials with different physical properties using HF induction heating.
The results show materials with high thermal conductivity such as tungstenbased materials are more resistant to thermal fatigue cracking than conventionally used hot work tool steels for HPDC dies.
The results show die materials with high thermal conductivities containing tungsten are more resistant to thermal fatigue cracking than commonly used ferrous die materials in HPDC conditions.
References [1] Klobear, D., Tusek, J. and Taljat, B. (2008) Thermal fatigue of materials for die casting tooling, Materials Science and Engineering A 472 (2008) 198-207 [2] Sjostrom, J. and Bergstron, J. (2004) Thermal fatigue testing of chromium martensite hot-work tool steel after austenitizing treatments, Journal of Materials Processing Technology 153-154 (2004) 1089-1096 [3] Persson, A., Hogmark, S. and Bergstrom, J. (2004) Simulation and evaluation of thermal fatigue cracking of hot work tool steels, International Journal of Fatigue 26 (2004) 1095-1107 [4] Gulizia, S., Jahedi, M.
Online since: October 2012
Authors: Ye Li, Jing Dong, Yong Bing Huang, Shu Xin Tu, Xian Juan Li, Li Li Wang
The Experiment Materials and Methods
Experiment Materials and Instruments.
Thus, 250°C is suitable for the materials.
Park ,"Adsorption characteristics of As(V) on iron-coated zeolite, " Journal of Hazardous Materials, pp, 804-808, 2009
Liu, "Effects of competition anion on arsenic removal by Fe0in aqueous solution," Journal of Nanhua University Science &Technology Edition, vol. 20, pp, 51-54, 2006, in Chinese
Zhong," Adsorption properties of nanometer-size TiO2 for As(III) and As()," Journal of Analytical Science, vol. 19, pp, 172-174, 2003, in Chinese.
Thus, 250°C is suitable for the materials.
Park ,"Adsorption characteristics of As(V) on iron-coated zeolite, " Journal of Hazardous Materials, pp, 804-808, 2009
Liu, "Effects of competition anion on arsenic removal by Fe0in aqueous solution," Journal of Nanhua University Science &Technology Edition, vol. 20, pp, 51-54, 2006, in Chinese
Zhong," Adsorption properties of nanometer-size TiO2 for As(III) and As()," Journal of Analytical Science, vol. 19, pp, 172-174, 2003, in Chinese.
Online since: July 2015
Authors: Jin Ping Yang, Heng Yong Wei, Jing Wang
Preparation of TZP/glass composites as dental ceramic materials
Jinping Yang1,2,a, Jing Wang1,2,b, Hengyong Wei1,2,c
1Collelge of Materials Science and Engineering, Hebei United University, Tangshan 063009, China
2Key Laboratory of Inorganic material of Hebei Province, Tangshan 063009, China
aimjp_yang@163.com, bwangj2004@heuu.edu.cn, cwhy_why2000@163.com
Keywords: Nano zirconia, Dental ceramic materials, Mechanical performance, Glass frits
Abrstract.
Introduction In recent years, Y-TZP( tetragonal zirconia stabilized by yttrium) ceramic materials have attracted extensive attention in oral medicine as novel dental restoration materials.
Meanwhile the interspaces inside the materials are filled up with glassy phases.
Conclusions Glass phases are introduced in ceramic materials by adding in small amount of frit powders.
Zhang, et al, Research on the sintering processing of the yttria stabilized zirconia nano powders, Journal of Materials Engineering. 2(2009) 38-42
Introduction In recent years, Y-TZP( tetragonal zirconia stabilized by yttrium) ceramic materials have attracted extensive attention in oral medicine as novel dental restoration materials.
Meanwhile the interspaces inside the materials are filled up with glassy phases.
Conclusions Glass phases are introduced in ceramic materials by adding in small amount of frit powders.
Zhang, et al, Research on the sintering processing of the yttria stabilized zirconia nano powders, Journal of Materials Engineering. 2(2009) 38-42
Online since: September 2014
Authors: Rachel Fran Mansa, Stephanie Lau Chai Tying, Coswald Stephen Sipaut, Jedol Dayou
However, bulk silica has a wide band gap of 8.9 eV and its band gap need to be narrowed in order to use it as photoanode materials.
Conclusions Dye Sensitized Solar Cells has been fabricated with fumed silica, synthesized nanosilica and titanium dioxide photoanode materials.
Ramakrishna, Controlled electron injection and transport at materials interfaces in dye sensitized solar cells, Materials Science and Engineering R: Reports 63 (2009) 81-99
Sipaut, Hibiscus flower extract as the natural dye sensitizer for dye-sensitized solar cell, Journal of Physical Science (2013)
Kuang, Dye-sensitized solar cells based on a double layered TiO2 photoanode consisting of hierarchical nanowire arrays and nanoparticles with greatly improved photovoltaic performance, Journal of Materials Chemistry 22 (2012) 18057-18062
Conclusions Dye Sensitized Solar Cells has been fabricated with fumed silica, synthesized nanosilica and titanium dioxide photoanode materials.
Ramakrishna, Controlled electron injection and transport at materials interfaces in dye sensitized solar cells, Materials Science and Engineering R: Reports 63 (2009) 81-99
Sipaut, Hibiscus flower extract as the natural dye sensitizer for dye-sensitized solar cell, Journal of Physical Science (2013)
Kuang, Dye-sensitized solar cells based on a double layered TiO2 photoanode consisting of hierarchical nanowire arrays and nanoparticles with greatly improved photovoltaic performance, Journal of Materials Chemistry 22 (2012) 18057-18062
Assessment on Environmental Friendly Characteristics of Smoked Bamboo Biomass for Building Materials
Online since: January 2011
Authors: Wan Xi Peng, Zhong Feng Zhang, Feng Juan Wu, Qiu Xue, Xu Zhang
Assessment on Environmental Friendly Characteristics of Smoked Bamboo Biomass for Building Materials
PENG Wan-xia, XUE Qiu, WU Feng-juan, ZHANG Xu, ZHANG Zhong-feng
School of Materials Science and Engineering, Central South University of Forestry and Technology, City Changsha, P.R.
Materials and Methods Materials and Methods.
Construction and Building Materials Vol.20(2006), p.648–656 [2] ZH.
Key Engineering Materials Journal,in press
Journal of Agricultural Science Yanbian University, Vol.26(2004), p.50-53 [5] H.
Materials and Methods Materials and Methods.
Construction and Building Materials Vol.20(2006), p.648–656 [2] ZH.
Key Engineering Materials Journal,in press
Journal of Agricultural Science Yanbian University, Vol.26(2004), p.50-53 [5] H.