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ADVANCED MATERIALS & DEVICES
UEI: LQ84DY26J8T4
# of Employees: 4
HUBZone Owned: No
Socially and Economically Disadvantaged: No
Woman Owned: No
Award Charts
Award Listing
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A Low-Cost, Modular Blast Acquisition Test System
Amount: $1,100,000.00This Small Business Technology Transfer Phase II effort aims to develop a fully integrated, modular human surrogate, a software suite, and wireless data transmission. The main goals of the Phase II ...
STTRPhase II2023Department of Defense Defense Health Agency -
A Low-Cost, Modular Blast Acquisition Test System
Amount: $250,000.00This Small Business Technology Transfer Phase I effort aims at the feasibility of developing a low-cost, modular human surrogate including a sensory system and organ models with integrated pressure se ...
STTRPhase I2022Department of Defense Defense Health Agency -
A Wearable Underwater Blast Sensor
Amount: $1,100,000.00The goal of the proposed Small Business Technology Transfer (STTR) Sequential Phase II project is to further develop a wearable, three-dimensional (3-D) underwater explosion (UNDEX) blast exposure mon ...
STTRPhase II2022Department of Defense Defense Health Agency -
A Wearable Blast Wave Sensing System for In-Air and Underwater Explosions
Amount: $1,550,000.00Advanced Materials and Devices, Inc. (AMAD), in a 12-month TRL Booster Pilot effort, will move the development and manufacturing of a wearable, wireless, in-air and underwater sensor from TRL 5-6 to a ...
STTRPhase II2021Department of Defense Defense Health Agency -
Characterization of Piezoelectric Fibers for Sensing Shock Waves from Underwater Explosions
Amount: $150,000.00This Small Business Technology Transfer (STTR) Phase I effort will demonstrate the feasibility of using piezoelectric fibers to detect shock waves from underwater explosions (UNDEX) and sensing physio ...
STTRPhase I2018Department of Defense Defense Health Agency -
Adaptive Energy Absorbing Buffer for Reduced Wave Slam Energy
Amount: $130,000.00This Small Business Technology Transfer (STTR) Phase I effort will demonstrate the feasibility of a novel passively adaptive shock and vibration isolating buffer system for the US Navys combatant craf ...
STTRPhase I2017Department of Defense Navy -
Fail-Safe, Controllable Liquid Spring/Damper System for Improved Rover Space Vehicle Mobility
Amount: $125,000.00NASA is planning to return to the moon in 2020 to explore thousands of miles of the moon?s surface with individual missions, lasting six months or longer. Surface mobility is critical to outpost buil ...
SBIRPhase I2016National Aeronautics and Space Administration -
Controllable and Adaptable Lateral Support System
Amount: $492,706.00This SBIR Phase II effort will be aimed towards designing and testing a controllable missile lateral support system (LSS) that reacts automatically to shock and vibration inputs. A sub-scale lateral s ...
SBIRPhase II2015Department of Defense Navy -
A Fail-Safe Reusable Forward Closure System
Amount: $79,969.00This Small Business Innovation Research (SBIR) Phase I effort will demonstrate the feasibility of a fail-safe reusable Forward Closure System (FCS) for use in underwater launch tubes. The proposed FCS ...
SBIRPhase I2014Department of Defense Navy -
Controllable and Adaptable Lateral Support System
Amount: $149,837.00This SBIR Phase I and Phase I Option effort will demonstrate the feasibility of a controllable missile lateral support system that reacts automatically to shock and vibration inputs. The proposed desi ...
SBIRPhase I2014Department of Defense Navy