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Quality control of quick response products by used of reverse engineering technologies

Quality control of quick response products by used of reverse engineering technologies
Quality control of quick response products by used of reverse engineering technologies
Error comparisons of fabricated parts and original CAD design is often a difficult yet important issue in product quality control. In this study, an integrated technique of 3D scanning with reverse engineering and rapid prototyping technologies proposed. This will be applied to the entire quality control phase of quick response products during the manufacturing process. For evaluation of presented approach, an automotive test model was made using the layered manufacturing process RP fabricator, a 3D Printing RP system. Then non-contact laser 3D scanner with RE software employed to evaluate dimensional deviations of manufactured RP model. Regarding to the result of inspection, maximum deviation was ?0.306 mm. So, with the virtue of the 3D laser scanning system and RE software, the proposed method could be used during the entire quality control phase of the manufacturing process.
1812-5654
2424-2430
Vaezi, Mohammad
828e14c1-3236-4153-8f69-3837233f48ed
Soleimani, Masoud
47cce97c-aafe-42ef-83ce-f83b32e2eae2
Vaezi, Mohammad
828e14c1-3236-4153-8f69-3837233f48ed
Soleimani, Masoud
47cce97c-aafe-42ef-83ce-f83b32e2eae2

Vaezi, Mohammad and Soleimani, Masoud (2009) Quality control of quick response products by used of reverse engineering technologies. Journal of Applied Sciences, 9 (13), 2424-2430. (doi:10.3923/jas.2009.2424.2430).

Record type: Article

Abstract

Error comparisons of fabricated parts and original CAD design is often a difficult yet important issue in product quality control. In this study, an integrated technique of 3D scanning with reverse engineering and rapid prototyping technologies proposed. This will be applied to the entire quality control phase of quick response products during the manufacturing process. For evaluation of presented approach, an automotive test model was made using the layered manufacturing process RP fabricator, a 3D Printing RP system. Then non-contact laser 3D scanner with RE software employed to evaluate dimensional deviations of manufactured RP model. Regarding to the result of inspection, maximum deviation was ?0.306 mm. So, with the virtue of the 3D laser scanning system and RE software, the proposed method could be used during the entire quality control phase of the manufacturing process.

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More information

Published date: 15 July 2009
Organisations: Engineering Science Unit

Identifiers

Local EPrints ID: 348240
URI: http://eprints.soton.ac.uk/id/eprint/348240
DOI: doi:10.3923/jas.2009.2424.2430
ISSN: 1812-5654
PURE UUID: 718b90f9-e388-4c36-84fe-487c1011a15e

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Date deposited: 11 Feb 2013 10:30
Last modified: 14 Mar 2024 12:56

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Contributors

Author: Mohammad Vaezi
Author: Masoud Soleimani

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