Study on Radar Absorbing Properties of Impure Sm2O3/Acrylate Coatings

Hui Min Sun; Ming Xue Zhang; Zhao Zhan Gu

doi:10.4028/www.scientific.net/AMR.849.242

Paper Titles

Materials for Extension Low-Income Housing: The Case of Bang Bua Community in Bangkok, Thailand
p.218

Weibull Analysis of the Effect of Interrupted Aging Treatments on the Fatigue Life of Components Made of Cast Aluminium Alloy 354
p.223

Experimental Testing of the Weathering Steel Road Bridge in Ostrava
p.228

Simulation and Numerical Homogenization of Magneto - Rheological Fluids Using the Molecular Dynamic Technique
p.234

Study on Radar Absorbing Properties of Impure Sm₂O₃/Acrylate Coatings
p.242

Synthesis of Silsesquioxane-Contained Benzoxazine and the Thermal Properties of its High Performance Polymer
p.248

Safe Analysis of Construction Material after Being Sintered
p.253

EDS (Energy Sipersive Spectrometer) Analysis of Sintered Construction Material
p.257

Study on Thermal Stability and Aging Resistance of High Hardness Polyurethane Elastomer via Thermal Analysis
p.261

HomeAdvanced Materials ResearchAdvanced Materials Research Vol. 849Study on Radar Absorbing Properties of Impure...

Study on Radar Absorbing Properties of Impure Sm₂O₃/Acrylate Coatings

Abstract:

The development and application of the stealth material technology are one of the key factors to develop the stealth technology. The painting type of stealth material has the properties of simply process, usableness and easy regulate, so it has been extensive concern. In the paper the impure Sm₂O₃/acrylate coatings were prepared using Sm₂O₃and carbon nanotubes powder and their microstructure was studied by SEM. Furthermore it was studied on radar absorption properties in 1-18GHz and mechanics properties of the coatings. It is proved that the absorption effect of the coatings is the best when the thickness coating is 1.2mm and its solid dosage is 50wt%. Meanwhile mechanics properties of the films are very good.

You might also be interested in these eBooks

View Preview

Info:

Periodical:

Advanced Materials Research (Volume 849)

Pages:

242-247

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.849.242

Citation:

Cite this paper

Online since:

November 2013

Authors:

Hui Min Sun*, Ming Xue Zhang, Zhao Zhan Gu

Keywords:

Carbon Nanotube (CN), Coating, Radar Absorbing Properties

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

* - Corresponding Author

References

[1] X. G. Li: The principle of automatic control(National Defense Industry Publishing House, Beijing 1991).

Google Scholar

[2] X.G. Wu, H.Q. Che: Microwave absorbing materials(National Defense Industry Publishing House, Changsha1992).

Google Scholar

[3] K. D. Thomas, D. R. Playa, H. H. Norman, et al: U.S. Patent 5, 381, 149(1995).

Google Scholar

[4] Pusch: Broad Band Camouflage Screen Having a Frequently Dependent Attenuation. U.S. Patent4, 743, 478(1998).

Google Scholar

[5] B. F. Fu, L. Wang: Materials Exploitation and Application. 14(2000), pp.38-41.

Google Scholar

[6] C. S. Gong, K. L. Zhang: New functional materials(Chemical Industry Publishing House, Beijing2001).

Google Scholar

[7] Czaja; Stan. Electromagnetic Radiation Absorber And Method For The Production. U.S. Patent 5, 561, 428(1996).

Google Scholar

[8] Saito. Electromagnetic wave Shielding And Light Transmitting Plate And Panel Laminated Plate. U.S. Patent 6, 469, 440(2002).

Google Scholar

[9] Y. J. Zhou: Materials Engineering. 4(2006), pp.152-159.

Google Scholar

[10] B. Yu, L. Qi: Infrared Technology. 25(2002), pp.134-137.

Google Scholar

[11] L. J. Xiao, Y. B. Sun, G. M. Qiu, et al: J. Journal of Rare Earths. 23(2002), p.46249.

Google Scholar

[12] M. K. Tu, Y. Liu, D. C. Zhu: Journal of Sichuan University. 34(2002), p.124.

Google Scholar

[13] M. M. J. Treacy: Nature. (1996), p.381.

Google Scholar

[14] F. Luo, W. C. Zhou, H. Jiao, et al: Journal of Inorganic Materials. 18(2003), pp.578-584.

Google Scholar

[15] G. W. Lou, X. G. Li: Infrared and Millim Waves. 17(1998), pp.241-246.

Google Scholar

[16] D. L. Zhao, Z. M. Shen: Journal of Inorganic Materials. 20(2005), pp.138-142.

Google Scholar