Type : Contract
SURFACE ENGINEERING COATINGS MANUFACTURING AND REPAIR OF DEPARTMENT OF DEFENSE WEAPON SYSTEM COMPONENTS Solicitation ID/Procurement Identifier: 47QFLA23Q0161 Ultimate Completion Date: Tue Sep 10 17:00:00 GMT 2024
SURFACE ENGINEERING COATINGS MANUFACTURING AND REPAIR OF DEPARTMENT OF DEFENSE WEAPON SYSTEM COMPONENTS Solicitation ID/Procurement Identifier: 47QFLA23Q0161 Ultimate Completion Date: Tue Sep 10 17:00:00 GMT 2024
DEPARTMENT OF DEFENSE (DOD) WEAPON SYSTEM COMPONENTS SURFACE TREATMENTS INDEFINITE-DELIVERY INDEFINITE-QUANTITY (IDIQ) (SBIR PHASE III) Solicitation ID/Procurement Identifier: 47QFLA20R0025 Ultimate Completion Date: Tue Aug 26 17:00:00 GMT 2025
Requests for other forms of solicitation shall be disregarded.The Weapons System Sustainment System Program (WSSP) is exploring the application of emergent technologies and commercial or other innovative business practices to develop new capabilities and improved Defense Logistics Agency (DLA) processes to sustain Department of Defense (DOD) weapon systems.
PURPOSE/DESCRIPTION Current Department of Defense (DoD) weapon systems are highly dependent on HF radios for over the horizon, also known as beyond line of sight communications, specific to global conventional and unconventional mission requirements. The DoD currently uses the ARC-190 radio for these missions on the following aircraft:. B-1, B-2, B-52, C-130, RC-135, C-17, C-5, E-8, F-15E, KC-10, KC-135, HH-60, VC-25.
The size standard for this proposed NAICS is 1,250 employees.Description: 81 ACS/RA has the need to purchase antennas and parts to enhance the Department of Defense’s Weapons System Evaluation Program by providing a cost-effective realistic threat-representative capability.
This project will be managed by a Naval Surface Warfare Center, Crane Division Project Manager.2.2 PROJECT OVERVIEWField Programmable Gate Arrays (FPGA) are utilized in nearly all Department of Defense (DoD) Weapon systems. A significant element of the Trusted and Assured Microelectronics (T&AM) strategy is the ability to ensure trusted FPGA devices.
The purpose of this research is to develop a large-scale non-chemical, non-media removal process for thick, elastomeric coatings and treatments, such as rain erosion materials, sealants, and fuel tank coatings used on Department of Defense (DoD) weapon systems.In response to BAA W912HQ-17-S-0001, the principal investigator (PI), Dr.