Redesign of hard disk drive for increased productivity and scrap minimization using design for assembly and variation system analysis
The hard disk drive industry is marked by intense competition and rapid technological change. Opportunities for cost reduction are eagerly sought after by the industry; designing for ease of assembly is one such avenue. Associated with assembly is dis-assembly, the pre-requisite to re-work, a signif...
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sg-ntu-dr.10356-426182023-03-11T16:56:16Z Redesign of hard disk drive for increased productivity and scrap minimization using design for assembly and variation system analysis Rachoti, Matamari School of Mechanical and Production Engineering Stephen Lee DRNTU::Engineering::Mechanical engineering::Machine design and construction The hard disk drive industry is marked by intense competition and rapid technological change. Opportunities for cost reduction are eagerly sought after by the industry; designing for ease of assembly is one such avenue. Associated with assembly is dis-assembly, the pre-requisite to re-work, a significant cost driver in the disk drive industry. Another avenue is the dimensional tolerancing and precision of parts and sub-assemblies, which are not only important by themselves, but because of their impact on the ease of assembly. Master of Science (Computer Integrated Manufacturing) 2011-01-05T08:19:20Z 2011-01-05T08:19:20Z 2000 2000 Thesis http://hdl.handle.net/10356/42618 en 205 p. application/pdf |
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DRNTU::Engineering::Mechanical engineering::Machine design and construction Rachoti, Matamari Redesign of hard disk drive for increased productivity and scrap minimization using design for assembly and variation system analysis |
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The hard disk drive industry is marked by intense competition and rapid technological change. Opportunities for cost reduction are eagerly sought after by the industry; designing for ease of assembly is one such avenue. Associated with assembly is dis-assembly, the pre-requisite to re-work, a significant cost driver in the disk drive industry. Another avenue is the dimensional
tolerancing and precision of parts and sub-assemblies, which are not only important by
themselves, but because of their impact on the ease of assembly. |
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School of Mechanical and Production Engineering |
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School of Mechanical and Production Engineering Rachoti, Matamari |
format |
Theses and Dissertations |
author |
Rachoti, Matamari |
author_sort |
Rachoti, Matamari |
title |
Redesign of hard disk drive for increased productivity and scrap minimization using design for assembly and variation system analysis |
title_short |
Redesign of hard disk drive for increased productivity and scrap minimization using design for assembly and variation system analysis |
title_full |
Redesign of hard disk drive for increased productivity and scrap minimization using design for assembly and variation system analysis |
title_fullStr |
Redesign of hard disk drive for increased productivity and scrap minimization using design for assembly and variation system analysis |
title_full_unstemmed |
Redesign of hard disk drive for increased productivity and scrap minimization using design for assembly and variation system analysis |
title_sort |
redesign of hard disk drive for increased productivity and scrap minimization using design for assembly and variation system analysis |
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2011 |
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http://hdl.handle.net/10356/42618 |
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1761781952674791424 |