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Company Information:

Name: AltaSim TechNologies, LLC
Address: 130 East Wilson Bridge Road
Suite 140
Worthington, OH 43085-2527
Located in HUBZone: No
Woman-Owned: No
Minority-Owned: No
Phone: (614) 861-7015

Award Totals:

Program/Phase Award Amount ($) Number of Awards
SBIR Phase I $667,664.00 6
SBIR Phase II $749,513.00 1

Award List:

Ballistic Impact Dynamic Modeling of Fabric for New Protection Systems

Award Year / Program / Phase: 2005 / SBIR / Phase I
Agency / Branch: DOD / ARMY
Principal Investigator: Kyle C. Koppenhoefer, Principal
Award Amount: $69,821.00
Abstract:
Advanced Computation and Engineering Services proposes to develop new and innovative modeling concepts to more accurately define and predict the failure modes of various fabric materials from current and futuristic ballistic impacts, working closely with North Carolina State University and… More

Modeling and Simulation for Robust Ceramic Matrix Composite (CMC) Manufacturing Processes

Award Year / Program / Phase: 2008 / SBIR / Phase I
Agency / Branch: DOD / USAF
Principal Investigator: Kyle Koppenhofer, Principal
Award Amount: $99,650.00
Abstract:
Increasing the power density of current jet aircraft engines requires the replacement of conventional high temperature materials by new materials capable of operating at higher temperatures. Ceramics and ceramic matrix composites (CMCs) represent excellent candidates for increased use in hot engine… More

Digital Analysis Computing Software Solutions for the Supply Chain

Award Year / Program / Phase: 2010 / SBIR / Phase I
Agency / Branch: DOD / DARPA
Principal Investigator: Jeffrey Crompton, Principal
Award Amount: $98,851.00
Abstract:
Electrical circuit designers at Tier 2-4 suppliers to the Department of Defense (DoD) are currently using desktop computing to design their products. To improve the circuit design in the DoD supply chain, designers will need to be able to analyze their circuits with High Performance Computing… More

Modeling and Simulation for Robust Ceramic Matrix Composite (CMC) Manufacturing Processes

Award Year / Program / Phase: 2010 / SBIR / Phase II
Agency / Branch: DOD / USAF
Principal Investigator: Jeffrey S. Crompton, Principal
Award Amount: $749,513.00
Abstract:
Increasing the power density of current jet aircraft engines requires the replacement of conventional high temperature materials by new materials capable of operating at higher temperatures. Ceramics and ceramic matrix composites (CMCs) represent excellent candidates for increased use in hot engine… More

Computational Fluid Dynamics (CFD) Tools for the Management of Bulk Residual Stress

Award Year / Program / Phase: 2011 / SBIR / Phase I
Agency: DOD
Principal Investigator: Jeffrey Crompton, Principal – (614) 861-7015
Award Amount: $99,940.00
Abstract:
ABSTRACT: The quenching of metallic aircraft parts produces residual stresses and distortion that increase subsequent manufacturing costs and reduced component performance. Manufacturers seek to control these residual stresses through design of the quench process. In this proposal, AltaSim… More

CMC Manufacturing Technology

Award Year / Program / Phase: 2012 / SBIR / Phase I
Agency: DOE
Principal Investigator: Jeffrey Crompton, Dr. – 614-861-7015
Award Amount: $149,558.00
Abstract:
Ceramic Matrix Composites (CMCs) can provide excellent high temperature performance in a wide range of applications (e.g., jet engines). However, designing and manufacturing components from CMCs continues to represent a challenge to industry. AltaSim Technologies is currently developing design tools… More

Development of cloud based analysis of additive manufacturing process techNology

Award Year / Program / Phase: 2014 / SBIR / Phase I
Agency: DOE
Principal Investigator: Jeffrey Crompton, Dr.
Award Amount: $149,844.00
Abstract:
Additive manufacturing technology creates objects using a sequential layering process that directly contrasts with the traditional subtractive approaches commonly used to manufacture the majority of fabricated components. The additive manufacturing technology can be used anywhere throughout the… More