Does your truck bed
have a watertight seal to prevent
dust and corrosion?
Yes
No
Does your truck bed
resist scratches and abrasions?
Yes
No
Is your truck bed insulated
from noise and road vibrations?
Yes
No
Does your truck bed
have a textured, flexible surface to
reduce load slippage?
Yes
No
Will your current truck
bed liner crack, split or warp?
No
Yes
Is your truck bed available
in colors to match or
complement your vehicle?
Yes
No
TUFF STUFF® POLYURETHANE TECHNICAL SPECIFICATIONS
TUFF STUFF® Polyurethane is a two-component; 100% solid (no
VOCs), fast-curing, elastomer polyurethane coating system. It provides
high film build, excellent abrasion resistance, excellent weather
resistance along with good resistance to chemical and process environments.
TUFF STUFF® has high tensile strength, elongation and tear
strength properties.
PROPERTY
ASTM
Method
Results
Hardness
D-2240
90-95 Shore A
Tensile Strength
D-412
2700-2900 psi
Elongation
D-412
375-400%
Water Absorption
D-570
<= 1.6%
General Chemical Resistance
Excellent
Adheres effectively to steel, aluminum, fiberglass, concrete, asphalt,
wood. Rhino Linings' proprietary chemical formula and spray equipment
yield a protective surface unlike any available on the market today.
Definition of PBD Terms
Listed below are definitions and additional information
on the terms and reported numbers found on the product data bulletin.
Shore A Hardness
This test involves the penetration of a specific shaped
point when forced onto the elastomer surface. "Shore A" specifies
the type of durometer. This test permits hardness measurements based
on initial indentation and/or indentation after a specified time period.
The reported value of 95 Shore A is for an initial reading. Tensile
Strength The reported tensile strength is the force required to stretch
the elastomer in one direction. The reported value is 1750 psi at break.
In other words, 1,750 pounds could be suspended from a one-inch-square
rod before failure.
Elongation
This is the distance the material can stretch before failure.
100% elongation implies that a sample can be stretched to twice its
original length before breaking. 200% elongation means the sample can
be stretched to three times its original length before failure occurs.
The higher the elongation, the more elastic the material.
