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Company Information:

Company Name: ADTECH SYSTEMS RESEARCH, INC.
City: Beavercreek
State: OH
Zip+4: 45432
Woman-Owned: Yes
Minority-Owned: Yes
HUBZone-Owned: No
Website URL: N/A
Phone: (937) 426-3329

Award Totals:

Program/Phase Award Amount ($) Number of Awards
SBIR Phase I $1,033,970.00 9
SBIR Phase II $3,011,878.00 6
STTR Phase I $298,700.00 3
STTR Phase II $500,000.00 1

Award List:

FAILURE MECHANISMS IN COMPOSITE TURBINE BLADES

Award Year / Program / Phase: 1986 / SBIR / Phase I
Agency / Branch: DOD / USAF
Principal Investigator: Som R Soni
Award Amount: $49,981.00

FAILURE MECHANISMS IN COMPOSITE TURBINE BLADES

Award Year / Program / Phase: 1987 / SBIR / Phase II
Agency / Branch: DOD / USAF
Principal Investigator: Som R Soni
Award Amount: $200,000.00
Abstract:
Because of the complexity of geometry, loads and material systems of turbine blades, the stress and strength characteristics can not be accurately predicted by existing methods. the composite turbine blade strength capabilities are very much dependent upon the constituent material properties, ply… More

THEORETICAL AND EXPERIMENTAL CHARACTERIZATION OF FIBER-MATRIX INTERFACE IN SIC REINFORCED GLASS CERAMICS

Award Year / Program / Phase: 1989 / SBIR / Phase I
Agency / Branch: DOD / USAF
Principal Investigator: Drs G Tandon/a Chatterjee
Award Amount: $49,978.00
Abstract:
Although the use of ceramic composites in aerospace systems is monotonically increasing, there are not many analytical and experimental studies revealing the unique characteristics these materials can provide. it is believed that these materials have great promise for high temperature structural… More

ENHANCED CHROMOPHORE POLYMERIC NLO MATERIALS

Award Year / Program / Phase: 1992 / SBIR / Phase I
Agency / Branch: DOD / USAF
Principal Investigator: Som R. Soni
Award Amount: $409,200.00

ENHANCED CHROMOPHORE POLYMERIC NLO MATERIALS

Award Year / Program / Phase: 1993 / SBIR / Phase II
Agency / Branch: DOD / USAF
Principal Investigator: Som R. Soni
Award Amount: $409,200.00
Abstract:
Nonlinear optical materials are required for a variety of potential air force applications including optical signal processing (switches, modulators, and guided wave devices), and new laser sources (optical parametric oscillators and harmonic generators). however, presently available materials are… More

A MODEL FOR PREDICTING MMC RESPONSE UNDER MULTIAXIAL LOADING

Award Year / Program / Phase: 1993 / SBIR / Phase I
Agency / Branch: DOD / USAF
Principal Investigator: Jalees Ahmad
Award Amount: $54,099.00

Fracture Mechanics Based Life Prediction of High Temperature Composite Joints

Award Year / Program / Phase: 1993 / SBIR / Phase I
Agency / Branch: DOD / USAF
Principal Investigator: Jalees Ahmad
Award Amount: $73,795.00

A MODEL FOR PREDICTING MMC RESPONSE UNDER MULTIAXIAL LOADING

Award Year / Program / Phase: 1994 / SBIR / Phase II
Agency / Branch: DOD / USAF
Principal Investigator: Jalees Ahmad
Award Amount: $200,000.00
Abstract:
This proposal addresses the immediate need for models for accurate description of metal matrix composite (MMC) response to multiaxial loadings such as those existing in most turbine engine components. The model is needed for both design and life prediction of engine components. The proposed effort… More

Fracture Mechanics Based Life Prediction of High Temperature Composite Joints

Award Year / Program / Phase: 1995 / SBIR / Phase II
Agency / Branch: DOD / USAF
Principal Investigator: Jalees Ahmad
Award Amount: $723,800.00
Abstract:
An important aspect in the design of aircraft structure and aeropropulsion components made of high temperature composite materials is damage tolerance and life prediction. Many components contain joints between composites and metals. There is a need to develop methods for predicting life of such… More

High Cycle Fatigue Testing of Turbine Blades Under Biaxial Loading

Award Year / Program / Phase: 1997 / SBIR / Phase I
Agency / Branch: DOD / USAF
Principal Investigator: Ming Xie
Award Amount: $98,556.00
Abstract:
Although technologies derived under the Integrated High Performance Turbine Engine Technology (IHPTET) initiative should result in higher performance of gas turbine engines, the durability of engine components continues to be one of the most important design issues which impacts their affordability… More

High Cycle Fatigue Testing of Turbine Blades Under Multiaxial Loading

Award Year / Program / Phase: 1998 / SBIR / Phase II
Agency / Branch: DOD / USAF
Principal Investigator: Ming Xie
Award Amount: $729,154.00
Abstract:
Although technologies derived under the Integrated High Performance Turbine Engine Technology (IHPTET) initiative should result in higher performance of gas turbine engines, the durability of engine components continues to be one of the most important design issues which impacts their affordability… More

Development of a Non destructive Evaluation Techniques for

Award Year / Program / Phase: 1998 / STTR / Phase I
Agency / Branch: DOD / USAF
Research Institution: Polytechnic University
Principal Investigator: Som Soni
Award Amount: $99,944.00
RI Contact: William McShane, Ph.D.
Abstract:
Space structures and high-speed interceptor technology can be significantly enhanced if lighter weight composite structural materials that possess inherently high-strength damage-resistant properties can be developed on a cost-effective basis. A novel laminated sandwich composite concept is proposed… More

NonLinear Optical (NLO) Materials and Device Development

Award Year / Program / Phase: 1998 / STTR / Phase I
Agency / Branch: DOD / USAF
Research Institution: University of Dayton
Principal Investigator: Som Soni
Award Amount: $99,814.00
RI Contact: Robert P. Boehmer
Abstract:
This Phase I effort is to synthesize and develop material processing systems that possess the mechanical properties, and processing characteristic for use in flexible electronic and photonic devices. We will demonstrate the feasibility of fabricating in this effort to optimize the modulator/switch… More

Structural Integrity of Aging Aircraft

Award Year / Program / Phase: 1998 / SBIR / Phase I
Agency / Branch: DOD / USAF
Principal Investigator: Naveen Rastogi
Award Amount: $99,695.00
Abstract:
The stress analysis and fatigue life prediction of the bonded repaired damaged zone of the aircraft structure is a challenging problem for designers. The lack of accurate life prediction methodologies limit the utilization of composite materials to repair the damaged structure. It is proposed to… More

Advanced Stochastic Techniques for Evaluating Reliability and Residual Strength of Damaged Structures

Award Year / Program / Phase: 1999 / SBIR / Phase I
Agency / Branch: DOD / USAF
Principal Investigator: Naveen rastogi
Award Amount: $99,962.00

N/A

Award Year / Program / Phase: 1999 / STTR / Phase II
Agency / Branch: DOD / USAF
Research Institution: University of Dayton
Principal Investigator: Som Soni
Award Amount: $500,000.00
RI Contact: Robert Boehmer

Strain Rate Effects in Ballistic Analyses of Bonded & Co-Cured Composite Structures

Award Year / Program / Phase: 2001 / SBIR / Phase I
Agency / Branch: DOD / USAF
Principal Investigator: Som Soni, Senior Research Scientist
Award Amount: $98,704.00
Abstract:
A program is proposed that will extend (and build upon) the work already started by the Survivability Group of the Composites Affordability Initiative, Pervasive Team in developing methods for analyzing the effects of ballistic and hydrodynamic ram (HRAM)loading and damage in bonded/co-cured… More

Strain Rate Effects in Ballistic Analyses of Bonded & Co-Cured Composite Structures

Award Year / Program / Phase: 2002 / SBIR / Phase II
Agency / Branch: DOD / USAF
Principal Investigator: Som R. Soni, Senior Research Scientist
Award Amount: $749,724.00
Abstract:
"The aim of our Phase II activity is to incorporate the Cohesive Volumetric Plate and Shell (Finite) Elements into LS-DYNA3D, thus enhancing its capabilities in modeling HRAM loading and damage in composite structures. In Phase I, we reported oninterlaminar failure criteria and modes, based on… More

Exploiting Microstructural Evolution for Material and Damage State Sensing

Award Year / Program / Phase: 2006 / STTR / Phase I
Agency / Branch: DOD / USAF
Research Institution: PURDUE UNIV.
Principal Investigator: Mustafa H. Kilic, Research Scientist
Award Amount: $98,942.00
RI Contact: Mark Pearson
Abstract:
The objective of this project is to develop a multi-purpose combination type optical fiber sensor that enables simultaneous sensing of microstructural evolutions in the sensor materials and the environmental conditions such as pressure and temperature. It is very well known that materials subjected… More