Applications of 3D scanning and reverse engineering techniques for quality control of quick response products

Yao, Albert W.L.

doi:10.1007/s00170-004-2116-5

Cited by 79 publications

(35 citation statements)

References 1 publication

Supporting

Mentioning

Contrasting

Unclassified

Order By: Relevance

“…This configuration for inspection tasks has been widely studied [5,6]. In Yao [7] the approach is experimented on fragile and soft materials quick response products. The achieved measurement uncertainty is not comparable with CMMs accuracy, but optical systems are under continuous improvement [8].…”

Section: Research Backgroundmentioning

confidence: 99%

CAD-based environment to bridge the gap between product design and tolerance control

Germani¹,

Mandorli²,

Mengoni³

et al. 2010

Precision Engineering

View full text Add to dashboard Cite

Section: Research Backgroundmentioning

confidence: 99%

CAD-based environment to bridge the gap between product design and tolerance control

Germani¹,

Mandorli²,

Mengoni³

et al. 2010

Precision Engineering

View full text Add to dashboard Cite

“…This function is what simultaneously guarantees the smoothness of the mesh and maintains its structure. (5) where || ||^. is the Frobenius norm.…”

Section: (4)mentioning

confidence: 99%

A Novel Approach for the Inspection of Flexible Parts Without the Use of Special Fixtures

Abenhaim

Tahan

Desrochers

et al. 2011

Journal of Manufacturing Science and Engineering

View full text Add to dashboard Cite

In a free state, flexible parts may have different shapes compared to their computer-aided design (CAD) model. Such parts may likewise undergo large deformations depending on their space orientation. These conditions severely restrict the feasibility of inspecting flexible parts without restricting the deformations of the part and therefore require dedicated and expensive tools such as a conformation jig or a fixture to maintain the integrity of the part. To address these challenges, this paper propo.ies a new in.spection method, the iterative displacement inspection (¡DI) algorithm, that evaluates profile variations without the need for specialized fi.xtures. This study e.xamines 32 models of simulated manufactured parts to show that the IDI algorithm can iteratively deform the meshed CAD model until it resembles the scanned manufactured part, which enables their comparison. The method deforms the mesh in such a manner so as to ensure its smoothness. This way, neither surface defects nor the measurement noise of the scanned parts are concealed during the matching process. As a result, the case studies illustrate that the method's error essentially only represents the scanned part's measurement noise. The inspection results, therefore, .solely reflect the effect of variations from the manufacturing process itself and not the deformation of the part.

show abstract

“…It enhances the flexibility of the scanner in order to get the welded images and also in identifying the corresponding defects. Yao (2005) [3] here the discussion takes place regarding the response time of the quality control of the products. The scanner along with the software like CAD gives the application of reverse engineering concept in order to get the accurate results of the scan.…”

Section: Working Procedures Of Scannermentioning

confidence: 99%

Inspection of Materials by Laser Based 3D Scanning

2019

IJITEE

View full text Add to dashboard Cite

3D Scanning system plays a vital role in the field of engineering as well as for engineering purposes. The 3D Scanner is capable of capturing the real world image and converting it into digitalized form and sends the digitalized form of information to the computer for the further procedures. It aims at the reverse engineering process in a variety of industries like production industry to pertain the existing components for the inspection of quality components and for the simulation engineering to replica the nature from the authentic world. It may also leads to decrease in the manufacturing costs and also it creates much ease for the inspection of the materials. The application of 3D scanning is improved by reducing the cost of 3D scanning device. In this manuscript we dealt with the preparation or making of the 3D scanner system in a compact size with reduced cost in order to be effectively available to everyone and also to amplify the quality of the 3D scanning system.

show abstract

Applications of 3D scanning and reverse engineering techniques for quality control of quick response products

Cited by 79 publications

References 1 publication

CAD-based environment to bridge the gap between product design and tolerance control

CAD-based environment to bridge the gap between product design and tolerance control

A Novel Approach for the Inspection of Flexible Parts Without the Use of Special Fixtures

Inspection of Materials by Laser Based 3D Scanning

Contact Info

Product

Resources

About