Firehole Technologies, Inc.

In this Phase I SBIR, Firehole Technologies will develop proof-of-concept modeling framework for a multiscale physics-based modeling tool for predicting foreign object damage in ceramic matrix composi ...

In the proposed program, Firehole Technologies, Inc. will adapt Helius:MCT™, its industry-leading software product for composite failure-progression analysis of large structures, to the specific pro ...

The objective of this project is to develop extensions to Multicontinuum Technology (MCT) that enable accurate and efficient analysis of textile composite structures. In addition, probabilistic analy ...

The opportunity identified here is to expand the capabilities of Multicontinuum Technology (MCT) for prediction of failure initiation in complex (hybrid) composites. A successful Phase 1 project will ...

The extreme operating environment and high performance requirements of space vehicles and structures necessitate designs that simultaneously optimize mass efficiency and reliability. These criteria a ...

Programs such as Airborne Laser and Space-Based Laser require highly mass efficient structures. Because of their high specific strength and stiffness this naturally leads to graphite fiber reinforced ...

Programs such as Airborne Laser and Space-Based Laser require highly mass efficient structures. Because of their high specific strength and stiffness this naturally leads to graphite fiber reinforced ...

Programs such as Airborne Laser and Space-Based Laser are in need of highly mass efficient structural materials to achieve system performance targets. This naturally leads to graphite fiber reinforce ...

"A drastic reduction in structural weight is an indispensable prerequisite to realize future Theater High Altitude Area Defense (THAAD) systems. Boost Defense segments of the program such as the Airb ...