You are here
SENTIENT SCIENCE CORPORATION
UEI: KELCA1NLRN88
# of Employees: 32
HUBZone Owned: No
Socially and Economically Disadvantaged: No
Woman Owned: No
Award Charts
Award Listing
-
In-Situ Additive Manufacturing Tracking and Modification with DC-IM
Amount: $1,249,624.00Additive manufacturing (AM) has drawn interest in the US Air Force owing to its high flexibility in fabricating complex geometries for significant component performance improvements, which results in ...
SBIRPhase II2023Department of Defense Air Force -
An Integrated Software Package for Studying Structure-Property-Processing Relationships in Material Systems / Topic 14A
Amount: $199,934.00The identification of structure-property-processing relationships require dynamical models that can access multitude of length spanning nanometers to microns and timescales spanning picoseconds to sec ...
SBIRPhase I2022Department of Energy -
Physics-Based Modeling of Rolling/Sliding Contact Fatigue Life
Amount: $574,552.30Physics based modeling is required for an accurate prediction of bearing life. The key challenge of developing an accurate prediction model is the development of a multi-scale physics model that ac ...
SBIRPhase II2022Department of Defense Army -
Sentient Science- A Multiscale Modeling Suite for Process and Microstructure Prediction in Metal Additive Manufacturing
Amount: $749,602.00In the Phase I period, Sentient upgraded its DigitalClone for Additive Manufacturing (AM) technology and successfully demonstrated and validated its ldquo;Process modelrdquo; and ldquo;Microstructure ...
STTRPhase II2020National Aeronautics and Space Administration -
Fatigue Prediction for Additive Manufactured (AM) Metallic Components
Amount: $139,700.00Sentient proposes to develop a physics-based integrated computational materials engineering (ICME) framework (DigitalClone® Additive) to support the rapid qualification of AM components, including mi ...
STTRPhase I2020Department of Defense Navy -
Rolling/Sliding Contact Fatigue Life Physics and Modeling
Amount: $166,728.38In response to Army topic A19-140, Sentient Science proposes to incorporate its DigitalClone modeling technology to predict the life of high-end precision bearings. For an accurate prediction of life, ...
SBIRPhase I2020Department of Defense Army -
Development of In-Process Monitoring Closed-Loop Feedback for Use in Aluminum Alloy Additive Manufacturing (AM) Applications
Amount: $560,069.10The overall goal of this project is to develop an in-process defect monitoring and correction technique for additive manufacturing (AM) of aluminum alloy to improve repeatability for geometric dimensi ...
SBIRPhase II2019Department of Defense Army -
Innovative Processing Techniques for Additive Manufacture of 7000 Series Aluminum Alloy Components
Amount: $124,940.00To address the needs of Navy to successfully produce 7000 series aluminum alloy components, Sentient proposes to develop a hybrid additive manufacturing (AM) process for this topic. Hybrid AM use a se ...
STTRPhase I2018Department of Defense Navy -
Sentient Science- A Multiscale Modeling Suite for Process and Microstructure Prediction in Metal Additive Manufacturing
Amount: $124,729.00In response to NASA’s topic T12.02 of “Extensible Modeling of Metallurgical Additive Manufacturing Processes”, Sentient proposes to incorporate its DigitalClone technique to develop a multiscale ...
STTRPhase I2018National Aeronautics and Space Administration -
Advanced Manufacturing Technologies
Amount: $996,041.00In response to DLA SBIR Topic DLA152-001 for Advanced Manufacturing Technologies, Sentient Corporation (Sentient) proposes to develop a life cycle cost optimization tool based on our commercial Digita ...
SBIRPhase II2017Department of Defense Defense Logistics Agency