Specificity of proton effects on polymers

Author

Briskman, B.A.

Author_Institution

Karpov Inst. of Phys. Chem., Obninsk, Russia

Volume

2

fYear

2004

Firstpage

972

Abstract

Protons affect the polymers mainly through scission and crosslinking of macromolecule chains. Ionization processes at proton non-elastic scattering define these effects. One of the most important problems of radiation physics and chemistry of polymers is dependence of radiation effects on polymers on the kind of ionizing radiation or the LET problem. Analysis of such dependence for protons and some other kinds of radiation is presented. A detailed examination of 100 MeV proton collisions in polyethyleneterephtalate (PETP, trade mark Mylar) on the base of the sample heat conductivity behavior revealed an important role of atom displacements resulting from elastic nuclear scattering of low energy ions. Such damage of polymer molecules was not obtained for other examined types of radiation, in particular, for recoil nuclei at reactor neutron irradiation and for ⁶⁰Co-gamma radiation.

Keywords

polymers; proton effects; thermal conductivity; 100 MeV; Co-gamma radiation; PETP; elastic nuclear scattering; heat conductivity; ionization processes; low energy ions; macromolecule chains; polyethyleneterephtalate; polymers molecules; proton collisions; proton effects; proton nonelastic scattering; radiation effects; reactor neutron irradiation; recoil nuclei; Atomic measurements; Chemistry; Conductivity; Ionization; Ionizing radiation; Physics; Polymers; Proton effects; Radiation effects; Scattering;

fLanguage

English

Publisher

ieee

Conference_Titel

Solid Dielectrics, 2004. ICSD 2004. Proceedings of the 2004 IEEE International Conference on

Print_ISBN

0-7803-8348-6

Type

conf

DOI

10.1109/ICSD.2004.1350594

Filename

1350594