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Company Information:

Company Name:
Applied Material Technologies, Inc.
Address:
2302 S. Fairview Street
Santa Ana, CA 92704 0493
Phone:
(714) 545-8825
URL:
N/A
EIN:
330528194
DUNS:
N/A
Number of Employees:
6
Woman-Owned?:
No
Minority-Owned?:
No
HUBZone-Owned?:
No

Commercialization:

Has been acquired/merged with?:
N/A
Has had Spin-off?:
N/A
Has Had IPO?:
N/A
Year of IPO:
N/A
Has Patents?:
N/A
Number of Patents:
N/A
Total Sales to Date $:
$ 0.00
Total Investment to Date $
$ 0.00
POC Title:
N/A
POC Name:
N/A
POC Phone:
N/A
POC Email:
N/A
Narrative:
N/A

Award Totals:

Program/Phase Award Amount ($) Number of Awards
SBIR Phase I $1,287,355.00 17
SBIR Phase II $5,732,566.00 9

Award List:

Carbon-Carbon Heat Sink Components for High Density Electronics Packaging

Award Year / Program / Phase:
1993 / SBIR / Phase I
Award Amount:
$49,239.00
Agency / Branch:
DOD / USAF
Principal Investigator:
William E Davis
Abstract:
N/a

Carbon-Carbon Heat Sink Components for High Density Electronics Packaging

Award Year / Program / Phase:
1994 / SBIR / Phase II
Award Amount:
$375,000.00
Agency / Branch:
DOD / USAF
Principal Investigator:
William E Davis
Abstract:
Carbon-carbon is a unique composite material that achieves the highest in-plane thermal conductivity and also achieves very high young's modulus (40-50 MSI). This research project will demonstrate the feasibility of C-C as an effective heat sink material for electronic packaging. Three to five… More

Ultralightweight High Thermal Conductivity Constraining Cores for Multilayered Printed Wiring Boards

Award Year / Program / Phase:
1994 / SBIR / Phase I
Award Amount:
$59,526.00
Agency / Branch:
DOD / USAF
Principal Investigator:
William E. Davis
Abstract:
The objective of this project is to develop an ultralightweight high thermal conductivity printed wiring board (PWB) constraining core mad of very high thermal conductivity carbon materials to replace currently used material constraining cores, e.g. copper-invar-copper. The objective of Phase I is… More

Noncontaminating Optical-Bench Structures for Small Satellites

Award Year / Program / Phase:
1994 / SBIR / Phase I
Award Amount:
$69,843.00
Agency:
NASA
Principal Investigator:
William E. Davis
Abstract:
The innovation being proposed in this project is the development of an ultra lightweight, noncontaminating dimensionally stable optical bench structural material product for small-sat applications. Candidate materials for the proposed structural material product, a sandwich structure, include:… More

Lightweight Control Moment Gyros for Small Satellites

Award Year / Program / Phase:
1994 / SBIR / Phase I
Award Amount:
$78,659.00
Agency / Branch:
DOD / USAF
Principal Investigator:
William E. Davis
Abstract:
N/a

Lightweight Reaction Wheels with Extended Momentum Capability

Award Year / Program / Phase:
1994 / SBIR / Phase I
Award Amount:
$69,798.00
Agency:
NASA
Principal Investigator:
William E. Davis
Abstract:
N/a

Lightweight Reaction Wheels with Extended Momentum Capability

Award Year / Program / Phase:
1995 / SBIR / Phase II
Award Amount:
$599,203.00
Agency:
NASA
Principal Investigator:
William E. Davis
Abstract:
The proposed innovation is a lightweight reaction wheel (RWA) support structure and housing assembly that is constructed from composite materials and which includes an integral tilt mechanism

Lightweight Control Moment Gyros for Small Satellites

Award Year / Program / Phase:
1995 / SBIR / Phase II
Award Amount:
$733,308.00
Agency / Branch:
DOD / USAF
Principal Investigator:
William E. Davis
Abstract:
Reconnaissance and surveillance missions, using small robust spacecraft, may require that sensors be rapidly positioned to suit the specific mission requirements. These maneuvers are most effectively conducted using a CMG with an output torque of 2-100 ft.-lbs.; however, the smallest CMG currently… More

Multifunctional Structural Electronics Packaging

Award Year / Program / Phase:
1995 / SBIR / Phase I
Award Amount:
$77,471.00
Agency / Branch:
DOD / USAF
Principal Investigator:
William E. Davis
Abstract:
This Phase I project is for the development of a concept that integrates a printed circuit board with a high stiffness, high thermal conductivity composite material structure to achieve a multifunctional structural electronics packaging product for spacecraft application. The project involves… More

Affordable, High Performance Composites

Award Year / Program / Phase:
1995 / SBIR / Phase I
Award Amount:
$75,409.00
Agency / Branch:
DOD / USAF
Principal Investigator:
William E. Davis
Abstract:
N/a

Affordable, High Performance Composites

Award Year / Program / Phase:
1996 / SBIR / Phase II
Award Amount:
$747,795.00
Agency / Branch:
DOD / USAF
Principal Investigator:
William E. Davis
Abstract:
This project will develop a chip package that can be tailored to match the thermal coefficient of expansion (TCE) of semiconductor chips and has an order of magnitude higher thermal conductivity than conventional ceramic packaging materials. The Phase I project will focus on selection and… More

LIGHTWEIGHT, DIMENSIONALLY STABLE PRINTED WIRING BOARDS

Award Year / Program / Phase:
1996 / SBIR / Phase I
Award Amount:
$68,949.00
Agency:
NASA
Principal Investigator:
Rick Bohner , Engineering Manager
Abstract:
N/a

COATING AND PLATING PROCESSES FOR HIGH THERMAL PERFORMACNE COMPOSITES

Award Year / Program / Phase:
1997 / SBIR / Phase I
Award Amount:
$92,125.00
Agency / Branch:
DOD / USAF
Principal Investigator:
Barry E. Carson
Abstract:
This project will identify and develop new low cost high thermal performance coating systems for composite thermal management materials, particularly high conductivity carbon-carbon. Three materials/processes will be investigated including a new type of chemical vapor deposition called combustion… More

LIGHTWEIGHT, DIMENSIONALLY STABLE PRINTED WIRING BOARDS

Award Year / Program / Phase:
1997 / SBIR / Phase II
Award Amount:
$599,813.00
Agency:
NASA
Principal Investigator:
Rick Bohner , Engineering Manager
Abstract:
N/a

High Power Density Lightweight Flywheels

Award Year / Program / Phase:
1997 / SBIR / Phase I
Award Amount:
$69,827.00
Agency:
NASA
Principal Investigator:
William E. Davis , VICE PRESIDENT
Abstract:
N/a

COATING AND PLATING PROCESSES FOR HIGH THERMAL PERFORMACNE COMPOSITES

Award Year / Program / Phase:
1998 / SBIR / Phase II
Award Amount:
$749,243.00
Agency / Branch:
DOD / USAF
Principal Investigator:
Barry E. Carson
Abstract:
This project will identify and develop new low cost high thermal performance coating systems for composite thermal management materials, particularly high conductivity carbon-carbon. Three materials/processes will be investigated including a new type of chemical vapor deposition called combustion… More

Polar Woven Flywheel Resin Film Infiltrated

Award Year / Program / Phase:
1998 / SBIR / Phase I
Award Amount:
$99,085.00
Agency / Branch:
DOD / USAF
Principal Investigator:
Sung S. Suh
Abstract:
This Small Business Innovation Research (SBIR) project will develop a low-cost resin film infusion approach to fabricating a polar woven (hoop and radial direction reinforced), lightweight composite material rotor for flywheel energy storage (FES) systems. The application of this device will be for… More

High Thermal Conductivity, Tailored CTE FCOB Packaging Concept.

Award Year / Program / Phase:
1998 / SBIR / Phase I
Award Amount:
$69,808.00
Agency:
NASA
Principal Investigator:
Abstract:
N/a

Development of Test Procedures and Acceptance/Rejection Criteria for Plastic Encapsulated Microcircuits in Space

Award Year / Program / Phase:
1999 / SBIR / Phase I
Award Amount:
$99,163.00
Agency / Branch:
DOD / USAF
Principal Investigator:
Eyan Lee
Abstract:
N/a

N/A

Award Year / Program / Phase:
1999 / SBIR / Phase II
Award Amount:
$599,608.00
Agency:
NASA
Principal Investigator:
Abstract:
N/a

Development of Test Procedures and Acceptance/Rejection Criteria for Plastic Encapsulated Microcircuits in Space

Award Year / Program / Phase:
2000 / SBIR / Phase II
Award Amount:
$748,427.00
Agency / Branch:
DOD / USAF
Principal Investigator:
William E. Davis
Abstract:
N/a

N/A

Award Year / Program / Phase:
2000 / SBIR / Phase I
Award Amount:
$69,935.00
Agency:
NASA
Principal Investigator:
Eyan Lee, Senior Program Manager
Abstract:
N/a

Novel Diamond Substrates Isothermally Cooled by Evaporative Spray

Award Year / Program / Phase:
2001 / SBIR / Phase I
Award Amount:
$99,875.00
Agency / Branch:
DOD / USAF
Principal Investigator:
William De La Torre, Program Manager
Abstract:
Inserting new high power sensors and electronics on the E-8 aircraft will require highly effective cooling. Diamond substrates cooled by evaporative spray techniques can satisfy requirements for both extraordinary cooling effectiveness and tailorabilityto advanced radar systems. M. S. Sehmbey et… More

Projectile Inertial Navigator from COTS Instruments

Award Year / Program / Phase:
2001 / SBIR / Phase I
Award Amount:
$69,409.00
Agency / Branch:
DOD / NAVY
Principal Investigator:
William Davis, President
Abstract:
This SBIR proposal is for the development of innovative packaging of radiation hardened electronics in support of Strategic Missile Guidance System upgrades for sea launched ballistic missiles (SLBMs). The Navy Strategic Systems Programs has authorizedLife extensions for the Trident Fleet Ballistic… More

MEMS Packaging for Deep Space Environments Using Nano-structured Polymers

Award Year / Program / Phase:
2002 / SBIR / Phase I
Award Amount:
$69,234.00
Agency:
NASA
Principal Investigator:
William E. Davis, Program Manager
Abstract:
This SBIR project investigated feasibility of nanostructured polymers for improving micro-electromechanical systems (MEMS) packaging for deep space harsh environments. MEMS technology enables development of spacecraft devices and subsystems that are small, low-cost, low mass, low volume, and low… More

MEMS Packaging for Deep Space Environments Using Nano-structured Polymers

Award Year / Program / Phase:
2002 / SBIR / Phase II
Award Amount:
$580,169.00
Agency:
NASA
Principal Investigator:
William E. Davis, Program Manager
Abstract:
This SBIR project investigated feasibility of nanostructured polymers for improving micro-electromechanical systems (MEMS) packaging for deep space harsh environments. MEMS technology enables development of spacecraft devices and subsystems that are small, low-cost, low mass, low volume, and low… More