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Software And Engineering Associates, Inc.
UEI: JHK6MBP1S834
# of Employees: 8
HUBZone Owned: No
Socially and Economically Disadvantaged: No
Woman Owned: No
Award Charts
Award Listing
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Modeling High-Temperature Erosive Gas Flow to Support Barrel Erosion Reduction Concept Modeling for Fire Support Gun Application
Amount: $749,936.00"New requirements for modern gun systems have greatly increasedthe propellant flame temperature and reactivity of the combustionproducts. As a result, thermochemical erosion can greatlyreduced the se ...
SBIRPhase II2002Department of Defense Navy -
Modeling High-Temperature Erosive Gas Flow to Support Barrel Erosion Reduction Concept Modeling for Fire Support Gun Application
Amount: $99,925.00"New requirements for modern gun systems have greatly increased the propellant flame temperature and reactivity of the combustion products. As a result, thermochemical erosion can greatly reduced the ...
SBIRPhase I2002Department of Defense Navy -
Nonlinear Combustion Stability Prediction of Solid Rocket Motors
Amount: $99,915.00"Software & Engineering Associates, Inc., proposes to develop a new tool to analyze solid rocket motor combustion stability which will predict for an unstable motor the combustion chamber's maximum ov ...
SBIRPhase I2002Department of Defense Navy -
Non-Linear Combustion Stability Prediction of Solid Rocket Motors
Amount: $599,866.00"Solid rocket motors are subject to combustion stability problemswhen the interior combustion processes interact with thecombustion chamber's acoustic modes, resulting in large pressureamplitude fluct ...
SBIRPhase II2002Department of Defense Navy -
Innovative Sensor Technologies for In-Situ Air and Ocean Sampling under Extreme Conditions
Amount: $69,951.00Chemical kinetics based solid propellant combustion predictive capabilities have developed to the point where it is possible to compute combustion properties of solid propellants. Specifically burnin ...
SBIRPhase I2001Department of Defense Navy -
Automated 3-D Acoustic Stability,/ Grain Design Analysis
Amount: $599,948.00The novel approach described in this proposal has the potential to allow designers of solid propellant rocket motors to assess the impact of their design choices on motor stability during the prelimin ...
SBIRPhase II1997Department of Defense Navy -
Automated 3-D Acoustic Stability,/ Grain Design Analysis
Amount: $69,988.00N/A
SBIRPhase I1996Department of Defense Navy