The Influence of Light-Cured Repairing on the Stiffness of Composite Material

Xiao Lei Yu; Zhi Min Zhao; Hong Min Yu

doi:10.4028/www.scientific.net/KEM.364-366.1021

Paper Titles

Stress Analysis of Optical Fiber Sensor Embedded Composite Subjected to Tri-Axial Normal Loadings
p.998

A Quasi-Steady-State Thermal Model for Laser-Assisted Cutting of Zirconia Ceramics
p.1003

Investigation of the Chip Types in High Speed Machining of SKD11 Steel
p.1009

The Study of High Speed Turning of the Hardened Mold Steel SKD11 by Ceramic Cutting Tools
p.1015

The Influence of Light-Cured Repairing on the Stiffness of Composite Material
p.1021

Effect of Different Coating Materials on Cutting Performance in High-Speed Machining of Mold Steels
p.1026

Chemical Detoxification of AflatoxinB1 in Rice by Several Solutions through Fluorescence Spectral Experiment
p.1032

Dynamic Design for a Novel Parallel Kinematic Machine with Passive Linkage
p.1037

Rearrangeable Nonblocking 8×8 Matrix Optical Switches Based on Extended Banyan Network
p.1043

HomeKey Engineering MaterialsKey Engineering Materials Vols. 364-366The Influence of Light-Cured Repairing on the...

The Influence of Light-Cured Repairing on the Stiffness of Composite Material

Abstract:

With the wide application of composite materials in aeronautics industry, the repairing technology of the composite materials has become a much discussed research topic in material science. Adopting the laser speckle photography technology, this paper focuses on the influence of light-cured repairing to the stiffness of composite materials, and the feasibility of light-cured repairing technology with experiment has been prove in the paper. The research results show that light-cured repairing technology has no evident influence on the stiffness of composite materials and therefore this technology is applicable to fast-repairing of damaged composite materials. This research is of great significance to the application of future researching of composite materials.

You might also be interested in these eBooks

Optics Design and Precision Manufacturing Technologies

View Preview

Info:

Periodical:

Key Engineering Materials (Volumes 364-366)

Pages:

1021-1025

DOI:

https://doi.org/10.4028/www.scientific.net/KEM.364-366.1021

Citation:

Cite this paper

Online since:

December 2007

Authors:

Xiao Lei Yu, Zhi Min Zhao, Hong Min Yu

Keywords:

Composite Material, Laser Speckle Photography, Light-Cured Repairing, Stiffness

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

References

[1] X. Yu, Z. Zhao, J. Ma, Damage Detection of Composite Material Intelligent Structure with a New Photoelectric System, Journal of Wuhan University of Technology-Materials Science 21(2), pp.80-82 (2006) &SCI061TK &EI063110043959.

DOI: 10.1007/bf02840846

Google Scholar

[2] X. Yu, Z. Zhao, Y. Chen, Accomplishment of Damage Controlling by Using the Technology of Optically Activated Shape Memory Alloy, Chinese Journal of Quantum Electronics 20(2), pp.234-236 (2003).

Google Scholar

[3] Z. Zhao, Study on the Compatibility of SMA and Composite Materials by Holographic Interferometry, Chinese Journal of Laser B9(6), pp.545-550 (2000) & EIp01396665676.

Google Scholar

[4] S. Dehm, D. Wurzel, Fast, In-Situ Repair of Aircraft Panel Components, Journal of Aircraft 26(5), pp.476-481 (1998).

DOI: 10.2514/3.45788

Google Scholar

[5] S.C. Rogers, Visible light Curing Provides Low Shrinkage and Good Depth, Adhesives Age 1988(4), pp.20-21 (1988).

Google Scholar

[6] S. Huang, Smart Structure-An Impending Revolution in Engineering, Piezoelectrics & Acoustooptivs 15(1), pp.13-15 (1993).

Google Scholar

[7] L. Wang, Z. Zhao, L. Shi, etal, The Choose and Research on Light Repair Wavelength of the Injuring on Multiple Material, Physical and Chemical Verification-Physic Fascicule 38(1), pp.10-13 (2002).

Google Scholar

[8] L. Guo, Z. Zhao, M. Gao, Study on the Compatibility between Light Repairing Material and Composite Materials by Holographic Interferometry, Optical Engineering 44(10), Art. No. 105602 (2005) &SCI001EW &EI8667306.

DOI: 10.1117/1.2083347

Google Scholar

[9] Z. Zhao, Y. Chen, X. Yu, The Parameters selection of SMA optically activated and its application, Journal of Wuhan University of Technology-Materials Science 17(4), pp.1-4 (2002) &SCI656FU.

Google Scholar

[10] Z. Zhao, Y. Chen, X. Yu, The New Technology of Composite Materials Repairing by Light Wave, Journal of Wuhan University of Technology-Materials Science 19(2), pp.41-43 (2004) &SCI835VY.

DOI: 10.1007/bf03000165

Google Scholar

[11] L. Guo, Z. Zhao, M. Gao, Novel Photoelectric System for Optical Intelligent Structure Health Monitoring, Opto-Electronic Engineering 33(3), pp.133-136 (2006).

Google Scholar

[12] L. Guo, Z. Zhao, M. Gao, etal, Study on Influence of Vibration Behavior of Composite Material Damage by Holography Proc, SPIE Vol. 6027 Art. No. 60272E (2006).

Google Scholar

[13] L. Wang, Z. Zhao, Influence of Light-repair on Composite Material Vibration Behavior, Appiled Laser 25(4), pp.248-250 (2005).

Google Scholar

[14] Z. Zhao, H. Yu, Y. Lin, New multiplex speckle photography and its application, ACTA OPTICA SINICA 17(3), pp.304-307 (1997) &EI1997: 35(7).

Google Scholar