SBIR-STTR Award

Creating Resilient Structures with Polymer Coatings
Award last edited on: 1/12/2018

Sponsored Program
SBIR
Awarding Agency
DOC : NOAA
Total Award Amount
$394,989
Award Phase
2
Solicitation Topic Code
8.1.9S
Principal Investigator
Andrea Barnes

Company Information

Optechnology Inc

5000 Allendale Drive
Huntsville, AL 35811
   (256) 489-2186
   john.gilbert@optechnology.com
   www.optechnology.com
Location: Single
Congr. District: 05
County: Madison

Phase I

Contract Number: ----------
Start Date: ----    Completed: ----
Phase I year
2009
Phase I Amount
$94,995
The first goal of our team is to design and develop highly cement mortar, composites using novel patent applied for technology which has been shown to, produce materials with high energy absorption, decreased modulus, higher, tensile strength, and greater toughness than standard or ultra high performance, concretes or fibercements. These materials will be used to produce NEMA Class, 5 flood resistant building panels which are also capable of withstanding hurricane, forces to comply with Florida and North Carolina State Building Codes, ASTM, 1886E-05 and ultimately to meet FEMA 320/FEMA 361 standards. In order to, achieve our design goals, we may further strengthen the panels by reinforcing, them with interlayers and polymer coatings., We will strive to make our products acceptable to the building community. The, panels will be able to be tapped, sawn, and screwed with standard jobsite power, equipment without the need for diamond blades or water tables., Our second goal is to test the effectiveness of using field applied polymer, coatings to solve issues of roof joist to wall framing attachment and foundationrim, joist wall framing to produce a continuous foundation to roof load pathway, and to supplement standard hurricane and construction ties., SUMMARY OF

Anticipated Results:
, Our work will result in the optimization of mix and panel design for a NEMA Class, 5 structural wall pane, and will provide standard torsion, tension, and shear, testing of polymer strengthened framing ties. Analytical models for panels and, tie strengthening characteristics will be developed

Phase II

Contract Number: ----------
Start Date: ----    Completed: ----
Phase II year
2010
Phase II Amount
$299,994
The first goal of our team is to design and develop highly ductile cement mortar composites using novel patent applied for technology which has been shown to produce materials with high energy absorption, decreased modulus, higher tensile strength, and greater toughness than standard or ultra high performance concretes or fibercements. These materials will be used to produce NEMA Class 5 flood resistant building panels which are also capable of withstanding hurricane forces to comply with Florida and North Carolina State Building Codes, ASTM 1886E-05, and ultimately to meet FEMA 320/FEMA 361 standards. In order to achieve our design goals, we may further strengthen the panels by reinforcing them with interlayers and polymer coatings. Our second goal is to test the effectiveness of using field applied polymer coatings to solve issues of roof joist to wall framing attachment and foundation-rim joist wall framing to produce a continuous foundation to roof load pathway and to supplement standard hurricane and construction ties. SUMMARY OF

Anticipated Results:
Our work will result in the optimization of mix and panel design for a NEMA Class 5 structural wall panel, and will provide standard testing of polymer strengthened framing ties. Analytical and empirical techniques will be developed to quantify the composite behavior and structural performance