SBIR-STTR Award

Graded Density Carbon Bonded Carbon Fiber (CBCF) Preforms for Lightweight Ablative Thermal Protection Systems (TPS)
Award last edited on: 1/14/2015

Sponsored Program
SBIR
Awarding Agency
NASA : ARC
Total Award Amount
$849,996
Award Phase
2
Solicitation Topic Code
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Principal Investigator
Steven Violette

Company Information

Fiber Materials Inc (AKA: Energy Materials Testing Lab Inc~FMI, Inc)

5 Morin Street
Biddeford, ME 04005
   (207) 282-5911
   sales@fibermaterialsinc.com
   www.fibermaterialsinc.com
Location: Multiple
Congr. District: 01
County: York

Phase I

Contract Number: ----------
Start Date: ----    Completed: ----
Phase I year
2011
Phase I Amount
$99,996
FMI currently manufactures Phenolic Impregnated Carbon Ablator (PICA) material for Thermal Protection Systems (TPS) systems, such as the Stardust Sample Return Capsule and the Mars Science Laboratory Aeroshell. FMI plans to further develop TPS in support of future sample return missions such as MoonRise and OSIRIS-REx. Development of a PICA TPS with reduced mass, thermal performance enhancements, and optimized single-section near net-shape preforms are enabling technologies for these applications. It is the objective of the proposed program to develop a graded density preform to achieve a reduction in PICA TPS areal mass, to assess the performance of such a TPS, and to develop a plan for manufacturing scale-up.

Phase II

Contract Number: ----------
Start Date: ----    Completed: ----
Phase II year
2012
Phase II Amount
$750,000
FMI has developed graded density CBCF preforms for graded density phenolic impregnated carbon ablator (PICA) material to meet NASA's future exploration mission requirements for higher performance ablative TPS. Graded Preform PICA (GPP) will be achieved by the continued development of lightweight, graded density carbon preforms which will decrease the overall areal mass of the resulting TPS material while enhancing its thermal performance capability. The preform material designed to achieve this goal is comprised of a more mechanically robust, ablating outer layer and a lower weight, lower thermal conductivity inner layer than state-of-the-art PICA material. The ablative outer layer and thermal inner layer will be integrated in a continuously cast, monolithic material with equivalent capability for resin impregnation and conversion to PICA as the baseline existing preform material (FiberForm®). During the proposed Phase II program, FMI will continue to develop its capability to produce graded density preform material to achieve TPS areal mass reductions estimated between 17-25% relative to PICA with the goal of improving ablation performance. The developed preform materials will be converted to GPP and then characterized mechanically, thermally, and tested for ablation performance. In addition to providing a pathway for these enhancements to tile acreage PICA TPS ablator material, FMI will incorporate the developed processing methodology to produce near net-shaped cast PICA TPS material preforms with a reduced density gradient compared to baseline manufacturing techniques.