Texas Research Institute, Austin, Inc. SBIR Phase I Award, July 2022

Space habitat inflatable structures require complex material configurations and manufacturing processes. There is a need to develop a standardized accelerated creep test methodology with analysis capability to compute the master creep curves for high strength aramid webbing/cord. Texas Research Institute Austin, Inc. (TRI Austin) in Phase I proposes to refine our in-house developed Step-Isothermal Method (SIM) and Accelerated Life Testing hardware and analysis capability on Kevlar fiber reinforced composites, leveraging the extensive research and development effort of NASA Langley and Ames Research centers. During Phase I we will develop an accelerated creep test methodology to compute baseline master creep curves for selected high strength aramid webbing/cord or other NASA directed structural materials. In Phase II, we will extend the accelerated creep test methodology and analysis capability to compute master creep curves for NASA-specified high strength aramid webbing and/or cord to include larger scale coupon testing. TRI currently offers conventional Creep/Stress Rupture and Stepped Isothermal (SIM) to support the geosynthetic/geotextile industries. TRI Austin is partnering with ILC Dover who is currently developing prototype space habitats for NASA. ILC Dover will supply materials and bring years of experience in selection, optimization, and evaluation of structural materials for current state of the art space habitats to thisnbsp;effort.nbsp;nbsp;