Report on industrial attachment with DSO National Laboratories
Boron (B) has high theoretical gravimetric combustion energy, which indicates its potential as high energy density ingredients in propellants to increase the overall energy content. However, it has been showed that B high theoretical combustion energy is not attainable in desired applications due to...
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2009
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sg-ntu-dr.10356-191392023-03-04T15:32:17Z Report on industrial attachment with DSO National Laboratories Ang, Wei An Hng Huey Hoon School of Materials Science & Engineering Lee Yiew Wang DRNTU::Engineering::Materials Boron (B) has high theoretical gravimetric combustion energy, which indicates its potential as high energy density ingredients in propellants to increase the overall energy content. However, it has been showed that B high theoretical combustion energy is not attainable in desired applications due to incomplete combustion. This project aims to optimize the thermal and kinetics properties of B by synthesizing Boron-Magnesium (B-Mg) energetic materials using two methods namely mechanical alloying (MA) and suspension mixing. Materials synthesized were then investigated by correlating their thermal properties with crystallographic and microstructure properties. An aging study on B-Mg energetic materials was also done to understand its aging behavior and storage conditions. 2009-10-22T04:39:08Z 2009-10-22T04:39:08Z 2008 2008 Industrial Attachment (IA) http://hdl.handle.net/10356/19139 en Nanyang Technological University 2008 101 p. application/pdf |
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DRNTU::Engineering::Materials Ang, Wei An Report on industrial attachment with DSO National Laboratories |
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Boron (B) has high theoretical gravimetric combustion energy, which indicates its potential as high energy density ingredients in propellants to increase the overall energy content. However, it has been showed that B high theoretical combustion energy is not attainable in desired applications due to incomplete combustion. This project aims to optimize the thermal and kinetics properties of B by synthesizing Boron-Magnesium (B-Mg) energetic materials using two methods namely mechanical alloying (MA) and suspension mixing. Materials synthesized were then investigated by correlating their thermal properties with crystallographic and microstructure properties. An aging study on B-Mg energetic materials was also done to understand its aging behavior and storage conditions. |
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Hng Huey Hoon |
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Hng Huey Hoon Ang, Wei An |
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Industrial Attachment (IA) |
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Ang, Wei An |
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Ang, Wei An |
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Report on industrial attachment with DSO National Laboratories |
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Report on industrial attachment with DSO National Laboratories |
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Report on industrial attachment with DSO National Laboratories |
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Report on industrial attachment with DSO National Laboratories |
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Report on industrial attachment with DSO National Laboratories |
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report on industrial attachment with dso national laboratories |
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2009 |
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http://hdl.handle.net/10356/19139 |
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1759855201900036096 |