RESOLUTION IN THE 3D MODELING OF OBJECTS FOR ADDITIVE MANUFACTURING AND REVERSE ENGINEERING – SHUTTER EFFECT

Elvis COUTIÑO-MORENO

elvis.coutino@tesjo.edu.mx
Jocotitlan Institute of Technology for Higher Education (Poland)

Quirino ESTRADA


Autonomous University of Ciudad Juarez, Technology and Engineering Institute (Mexico)

Daniel MALDONADO-ONOFRE


Jocotitlan Institute of Technology for Higher Education, Mexico (Mexico)

Alejandro RODRIGUEZ-MENDEZ


University of California at Berkeley, Mechanical Engineering Department, Berkeley (United States)

Julio GOMEZ-GIRON


National Center for Research and Technological Development, Biomechatronics Engineering, (Mexico)

Abstract

This article presents a proportional relationship between Shutter and the value of the resolution scanning system that allows decision making for modeling 3D parts used in reverse engineering and additive manufacturing. As a first step, the object of interest is treated to dim excessive brightness, then the object is scanned  (by point cloud or mesh) with the use of a Handyscan 700 scanner. The point cloud is processed with the Geomagic software Desing X to generate a CAD image and a “.stl” file for 3D printing.


Keywords:

Reverse Engineering, Additive Manufacturing, Point Cloud, Mesh, Reflectance

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Published
2021-03-30

Cited by

COUTIÑO-MORENO, E., ESTRADA, Q. ., MALDONADO-ONOFRE, D. ., RODRIGUEZ-MENDEZ, A. ., & GOMEZ-GIRON, J. . (2021). RESOLUTION IN THE 3D MODELING OF OBJECTS FOR ADDITIVE MANUFACTURING AND REVERSE ENGINEERING – SHUTTER EFFECT. Applied Computer Science, 17(1), 40–52. https://doi.org/10.23743/acs-2021-04

Authors

Elvis COUTIÑO-MORENO 
elvis.coutino@tesjo.edu.mx
Jocotitlan Institute of Technology for Higher Education Poland

Authors

Quirino ESTRADA 

Autonomous University of Ciudad Juarez, Technology and Engineering Institute Mexico

Authors

Daniel MALDONADO-ONOFRE 

Jocotitlan Institute of Technology for Higher Education, Mexico Mexico

Authors

Alejandro RODRIGUEZ-MENDEZ 

University of California at Berkeley, Mechanical Engineering Department, Berkeley United States

Authors

Julio GOMEZ-GIRON 

National Center for Research and Technological Development, Biomechatronics Engineering, Mexico

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