Hypervelocity impact damage assessment for Space StationTo inhibit damage and limit the probability of penetration of the Space Station pressure wall by micrometeoroids and orbital debris, a shield placed away from the wall is used to form a double wall. To determine shield effectiveness and assess impact damage, existing test data were reviewed and additional testing was performed for Space Station double wall designs. Empirical spallation and penetration functions derived from the data show that shield thickness and impact angle affect the damage to the wall. Thick shields reduce wall damage for low angle impacts but increase damage for oblique impacts. Multilayer insulation between the shield and wall reduces impact damage to the wall. A relationship between impact velocity and spall damage to the wall is demonstrated. Preliminary test results on Li-Al shield material indicate possible improved effectiveness over Al shields.
Document ID
19880044161
Acquisition Source
Legacy CDMS
Document Type
Conference Paper
Authors
Coronado, Alex R. (Boeing Aerospace Co. Seattle, WA, United States)
Gibbins, Martin N. (Boeing Aerospace Co. Seattle, WA, United States)
Stern, Paul H. (Boeing Aerospace Co. Seattle, WA, United States)