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SBC: JM HARWOOD, LLC Topic: N10AT033
JM Harwood, LLC, and UAH Propulsion Research Center propose the development of an electronic miniature Direct Fuel Injection (DFI) system for 5-20 hp heavy fuel engines. This highly integrated Very Small Injection Technology (V-SInTech) DFI system will be capable of (a) multiple injections per cycle, (b) variable injection timing, (c) variable spray penetration depth, (d) real-time closed loop mod ...STTR Phase I 2010 Department of DefenseNavy
SBC: N&R ENGNERING MGT SUPPORT SVCS Topic: N10AT010
The Phase I deliverable will be a physic-based model which represents a CMC gas turbine component concomitantly at the material level and the structural level. This model will be probabilistically analyzed to account for the uncertainties in material properties and the uncertainties in the size and impact velocities of possible foreign objects (FOD). A ceramic material must display sufficient capa ...STTR Phase I 2010 Department of DefenseNavy
SBC: Nastec, Inc. Topic: N10AT037
A unique type of air lubricated thrust bearing called a Wave Bearing is proposed to assist a rolling element bearing to carry the thrust load and to improve the bearing’s life when used in a micro gas turbine engine. The Wave Bearing technology will provide improved reliability, safety and life compared to rolling element bearings used alone, as well as to allow simplification of engine design a ...STTR Phase I 2010 Department of DefenseNavy
SBC: SCIENTIFIC FORMING TECHNOLOGIES CORPORATION Topic: N10AT028
While there are established methods available in determining the fatigue life of critical rotating components, there is still room for improvement for better understanding and prediction of life limiting factors. Improved risk assessment of jet engine disk components would require probabilistic modeling capability of the evolution of microstructural features, residual stresses and material anomali ...STTR Phase I 2010 Department of DefenseNavy
SBC: BUSA Engineering Consulting Topic: N10AT002
This proposal is being submitted in response to the solicitation topic N10A-T002 (Development of a Computational Method for Prediction of After Burning Effect) by BUSA Engineering Consulting (Dr. Jianghui Chao) in collaboration with University of Florida (PI: Prof. S. Balachandar). The overall objective of the proposed effort is to contribute to national defense and security by advancing the state ...STTR Phase I 2010 Department of DefenseNavy
Advanced Materials for the Design of Lightweight JP5/JP8/DS2 Fueled Engines for Unmanned Aerial Vehicles (UAVs)SBC: Northwest Uld, Inc. Topic: N10AT001
Northwest UAV Propulsion Systems proposes using our purpose built heavy fuel engine designed and built in the USA for small unmanned aerial systems in the tier 2 & 3 class. We will be adding a lightweight ceramic material set combined with FEA (Finite Element Analysis) and heavy fuel atomizer (IRAD Project) to create a lightweight engine for a SUAS or STUAS class UAVs. The Ceramic material set is ...STTR Phase I 2010 Department of DefenseNavy
SBC: Technosoft, Inc Topic: N13AT009
Although advancements in CFD technology and high performance computing have proven to be effective and reasonably accurate in assessing the hydrodynamic performance of naval vessels, the effort required to develop associated analysis models remains a challenging and time consuming task. Decomposing and manipulating the design geometry for mesh construction, while capturing near-field and far-field ...STTR Phase I 2013 Department of DefenseNavy
Mechanical Property Characterization and Modeling for Structural Mo-Si-B Alloys for High Temperature ApplicationsSBC: Imaging Systems Technology, Inc. Topic: N13AT012
Under this STTR, Imaging Systems Technology (IST) in cooperation with Georgia Institute Technology (GIT) will develop and mature models to predict mechanical properties of refractory alloys with an eye toward tailoring these alloys for specific applications. In particular, this research will focus on addressing core aspects of Integrated Computational Materials Engineering (ICME) as it applies to ...STTR Phase I 2013 Department of DefenseNavy
Mechanical Property Characterization and Modeling for Structural Mo-Si-B Alloys for High Temperature ApplicationsSBC: Deep Springs Technology Topic: N13AT012
The objective of the work described in this proposal is to aid in the advancement of Mo-Si-B alloys for use in high temperature applications such as hot gas stream components in turbine engines. Such alloys are being characterized for their monotonic tensile properties in tension and compression as well for their creep resistance. Likewise, multiphase Mo-Si-B alloys have been studied in terms of m ...STTR Phase I 2013 Department of DefenseNavy
Development of Next-Generation Composite Flywheel Design for Shock and Vibration Tolerant, High Density Rotating Energy StorageSBC: PowerTHRU Topic: N13AT022
PowerTHRU Corporation proposes to meet or exceed the requirements of this STTR by utilizing its extensive experience in carbon fiber based high speed flywheel systems, to design and build a 100K RPM flywheel system. Unlike steel flywheel technologies that are limited by the speed in which they can safely rotate, PowerTHRU has already demonstrated that 50,000 RPM carbon fiber flywheels can be desig ...STTR Phase I 2013 Department of DefenseNavy