Abstract

A preliminary investigation of the effectiveness of new composite materials under development for shielding against neutrons and photons is reported upon. These materials are made from a proper mix of powders of tungsten, titanium or zirconium hydride and boron carbide, all bonded by hydrogenous materials such as polyethylene or silicone based materials. The investigation is carried out with the aid of the shield optimization code SWAN by considering a simplified 40-cm-thick spherical shield with CI-252 source at its center. The shielding ability of the new, so-called polynated and siliconated, materials is found to be highly superior to that of shielding materials in common use. The flexibility in tailoring the mix of inelastic scatterers, elastic scatterers, neutron absorbers, and photon attenuators to one's shielding needs, along with the information on material effectiveness functions which can be calculated with a code such as SWAN, are expected to enable improvements in future shield designs.

References

1.
Heiman
,
D.
, President,
Reactor Experiments, Inc.
, private communication,
1991
.
2.
Greenspan
,
E.
,
Price
,
W. G.
, and
Fishman
,
H.
, “
SWAN-A Code for the Analysis and Optimization of Fusion Reactor Nucleonic Characteristics
,” Report MATT-1008,
Princeton University Plasma Physics Laboratory
, Princeton, N.J.,
1973
.
3.
Greenspan
,
E.
, “
A Method for the Optimization of Fusion Reactor Neutronic Characteristics
,” presented at the
Topical Meeting on Mathematical Models and Computation Techniques for Analysis of Nuclear Systems
,
Ann Arbor, Mich.
,
1973
.
4.
Greenspan
,
E.
, “
Developments in Perturbation Theory
,” in
Advances in Nuclear Science and Technology
, Vol.
9
,
Academic Press
,
New York
,
1976
, pp.
181
-
268
.
5.
Gilai
,
D.
,
Greenspan
,
E.
, and
Levin
,
P.
, “
On Optimal Shields for Fusion Reactors
,” in
Proceedings
,
Sixth International Conference on Radiation Shielding
,
Tokyo, Japan
,
1983
, Vol.
II
, pp.
646
-
654
.
6.
Santoro
,
R. T.
,
Roussin
,
R. W.
, and
Barnes
,
J. M.
, “
FLUNG: Coupled 35-Group Neutron and 21-Group Gamma Ray, P3 Cross Sections for Fusion Applications
,” Report ORNL/TM-7828,
Oak Ridge National Laboratory
, Oak Ridge, Tenn.,
1981
.
This content is only available via PDF.
You do not currently have access to this content.