Journal of University of Anbar for Pure Science

Current Issue

By Issue

By Author

By Subject

Author Index

Keyword Index

About Journal

Editorial Board

Editorial Staff

Publication Ethics

Peer Review Process

Journal Metrics

Indexing and Abstracting

Related Links

FAQ

News

Use of DOI

Digital Archiving

Journal Funding Sources

Plagiarism

Appeals and complaints

Authorship

Allegations of Misconduct

Copy Right Policies

Self Archiving Policy

Creative Commons License

Open Access Policy

Study the enhancement of the radiation shielding afforded to epoxy /lead composites.

Document Type : Research Paper

Authors

University of Anbar - College of Science

Abstract

At present the research aims to individuate right formulations suitable to realize the “cure” process through ionizing radiations to get shielding with applicative properties similar if not better than that obtained with traditional thermal processes. It is worth noting that material properties, on the same formulation, are strongly dependent also on the choice of the process parameters. Additionally a shield absorbs for radiation is a function for the material it is made of, its thickness, type the material and energy of the radiation it is exposed to. Where , as the energy of the radiation increases, the thickness of the shielding must increase or a material with a higher attenuation coefficient must be used.And the results show that the linear absorption coefficient of lead powder increase with increase thicknessof lead powder . That linear absorption coefficient as a function of different thickness from (0.0 to 2.5cm.) of lead powder and lead shots where complete its test.No significant changes in linear absorption coefficient behavior of lead powder, lead shots and thickness.Although values of linear absorption coefficient of lead shots will slightly increase as in that for value of lead powder.

Keywords

Main Subjects

References
[1] Nasa Space vehicle design criteria (structures). "nuclear and spacer addition effects on materials ".1970.
[2] Markley F., Forster G. A., R. Booth Argonne National Laboratory "Radiation damage studies of zero gradient synci&rotron magnet insulation and  related materials". 1969.
[3] Robley D. Evans, "The Atomic Nucleus", McGraw-Hill New York, Chaps 24, 25, 1955.
 [4] PHYWE series of publications • Laboratory Experiments • Physics •  phywe systeme GMBH • 37070 Göttingen, Germany.
[5] James R. Gaier "Effect of Intercalation in Graphite Epoxy Composites on the Shielding of High Energy Radiation "National Aeronautics and Space Administration.July 1997.
[6] Atam P.Arya "Fundamentals of  nuclear  physics"  Boston,  Toronto  Allyn and Bacon1970.
[7] Khalil I. Arshak, Member, IEEE, and Olga Korostynska "Gamma Radiation Nose System Based on In2O3=SiO Thick-Film Sensors" IEEE sensors journal , Vol. 6, No. 2, April 2006.
[8]  In Jae Lee,1 Ho Wook Choi,1 Young Chang Nho,2 Dong Hack Suh1"Gamma-Ray Irradiation Effect of Polyethylene on Dimaleimides as a Class of New Multifunctional Monomers "2002.
[9] McLaughin and N.W. Holm:"Physical Characteristics of Ionizing Radiation," in Manual on Radiation Sterilization of Medial and Biological Materials: Technical Reports Series No. 149, Chapter 1: 5-12, (1973).
[10] IAEA-TECDOC-1422, Radiation processing of polysaccharides November 2004.
Journal of University of Anbar for Pure Science
Volume 7, Issue 2
August 2013
Page 1-7
Files
History
  • Receive Date: 20 November 2012
  • Revise Date: 21 November 2012
  • Accept Date: 22 November 2012
Share
Export Citation
Statistics