Missile materials—Current status and challenges
Identifieur interne : 000038 ( Main/Exploration ); précédent : 000037; suivant : 000039Missile materials—Current status and challenges
Auteurs : RBID : ISTEX:12034_1996_Article_BF02744635.pdfEnglish descriptors
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Abstract
Missile Development Programme has provided focal thrust to indigenous materials and components. Materials have been selected on the basis of their high strength to weight ratio, good corrosion resistance, high fracture toughness, easy fabricability and reliable quality. Alloys of magnesium, aluminium, titanium and maraging steel are extensively used for airframe and propulsion systems. Polymer materials and carbon-carbon composites are major nonmetallic materials. Development of high purity electronic materials like silicon, indium, phosphorus, Cu clad materials, photo resists and epoxies are very important for the programme. The paper covers the requirements and challenge areas of research, and calls for consortium approach involving academic institutions. R and D laboratories and industries to ensure self reliance.
DOI: 10.1007/BF02744635
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Materials have been selected on the basis of their high strength to weight ratio, good corrosion resistance, high fracture toughness, easy fabricability and reliable quality. Alloys of magnesium, aluminium, titanium and maraging steel are extensively used for airframe and propulsion systems. Polymer materials and carbon-carbon composites are major nonmetallic materials. Development of high purity electronic materials like silicon, indium, phosphorus, Cu clad materials, photo resists and epoxies are very important for the programme. The paper covers the requirements and challenge areas of research, and calls for consortium approach involving academic institutions. 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Sci.</title></titleInfo><titleInfo><title>Bulletin of Materials Science</title><partNumber>Year: 1996</partNumber><partNumber>Volume: 19</partNumber><partNumber>Number: 6</partNumber></titleInfo><genre>Archive Journal</genre><originInfo><dateIssued encoding="w3cdtf">1996-12-01</dateIssued><copyrightDate encoding="w3cdtf">1996</copyrightDate></originInfo><subject usage="primary"><topic>Chemistry</topic><topic>Materials Science</topic><topic>Engineering, general</topic></subject><identifier type="issn">0250-4707</identifier><identifier type="issn">Electronic: 0973-7669</identifier><identifier type="matrixNumber">12034</identifier><identifier type="local">IssueArticleCount: 31</identifier><recordInfo><recordOrigin>The Indian Academy of Sciences, 1996</recordOrigin></recordInfo></relatedItem><identifier type="doi">10.1007/BF02744635</identifier><identifier type="matrixNumber">Art15</identifier><identifier type="local">BF02744635</identifier><accessCondition type="use and reproduction">MetadataGrant: OpenAccess</accessCondition><accessCondition type="use and reproduction">AbstractGrant: OpenAccess</accessCondition><accessCondition type="restriction on access">BodyPDFGrant: Restricted</accessCondition><accessCondition type="restriction on access">BodyHTMLGrant: Restricted</accessCondition><accessCondition type="restriction on access">BibliographyGrant: Restricted</accessCondition><accessCondition type="restriction on access">ESMGrant: Restricted</accessCondition><part><extent unit="pages"><start>1025</start><end>1029</end></extent></part><recordInfo><recordOrigin>the Indian Academy of Sciences, 1996</recordOrigin><recordIdentifier>12034_1996_Article_BF02744635.pdf</recordIdentifier></recordInfo></mods></record>Pour manipuler ce document sous Unix (Dilib)
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