Design Basis for Resistance to Shock and Vibration*

Year
1989
Author(s)
R. E. Glass - Sandia National Laboratories, USA
K. W. Gwinn - Sandia National Laboratories, USA
File Attachment
953.PDF1.87 MB
Abstract
Sandia National Laboratories, in conjunction with its participation in the American National Standards Institute (ANSI) writing groups, has undertaken to provide an experimental and analytical basis for the design of components of radioactive materials packages to resist normal transport shock and vibration loads. Previous efforts have resulted in an overly conservative shock spectra description of the loads in the tie-downs and cask attachment points anticipated during normal shipment. The present effort is aimed at predicting the actual loads so that the design basis can be accurately determined. This goal is being accomplished with road simulator and over-the-road tests and the development of an analytical model. This model is used to parametrically evaluate and envelop the transportation systems' responses. The parameters to be varied include damping, stiffness, geometxy, and cargo mass.