Pipe Shields

   Manufacturers of insulated pipe supports, hot shoes and cold shoes since 1971

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Polyurethane Technical Information

Polyurethane foam is one of the major components of pre-insulated pipe supports manufactured at Piping Technology & Products. Polyurethane is different from most plastic materials in that it can be tailored to meet various load requirements of varying applications. Polyurethane foams are produced by reacting an equal ratio of di- or polyisocyanurates with polyols, in the presence of water, which acts as the blowing agent. Polyisocyanurates are formed when a higher ratio of di- or polyisocyanate are mixed with the polyol. All rigid foams made from polyisocyanrate systems have some form of polyurethane in them and can be called polyurethane foam. The physical properties differ very little at high densities. Polyisocyanurate foams are used in applications where dimensional stability over 200 deg F is required. However, for cryogenic applications, where your pipeline insulation is not exposed to high temperatures, PUF is an acceptable substitution.

A common method used to obtain a change in load capacity is a change in density.  At Piping Technology and Products, we offer 10 lbs. / ft3, 14 lbs. / ft3, and 20 lbs. / ft3 densities.

Density varies when the amount of blowing agent (water content) changes.  The density of polyurethane decreases with increase in water content (See Fig. 1).  This relationship can be shown as follows:

W = 3.706 / D1.126

Where: W = % of water content
           D = Density of foam (lbs./ft3.)

In addition to density, the strength of a rigid urethane foam is also influenced by many factors such as catalyst, surfactant, type of mixing, the type of foaming system: base polyol and isosyanate, and the influence of each of these on the foam cell structure.
Rigid urethane foams generally have an elastic region in which stress is nearly proportional to strain. They do not exactly follow Hooke's Law (stress is proportional to strain) because the curve is very slightly "S" shaped. Fig. 2 shows this in detail.

Polyurethane is a thermosetting material; however, it does soften slightly with increased temperature and hardens somewhat at very low temperatures. Softening at high temperatures affects the polyurethane in two ways: (a) loss of strength properties and (b) change in foam dimensions (particularly low-density foams). Low temperatures generally have very little effect on polyurethane properties other than to make them a little harder and more brittle. See Fig. 4 for these effects.
Polyurethane is anisotropic, or polyurethane is stronger in the direction of foam rise. At Piping Technology and Products, the anisotropic character or directional properties of our polyurethane is reduced by overloading the mold used to form the polyurethane. By overloading the mold, we can control the cell structure and provide uniform physical properties.  A relationship between compressive strength and the density of the foam is given in Fig. 3.

The relationships of foam's density with its Elastic Modules in Compression, Tensile Strength, Elastic Modules in Tension, and Shear Strength are given in Figs. 6 through 9 respectively. Please see the following for the respective curves.

Piping Technology & Products has a complete manufacturing facility for production of polyurethane required for pipe supports. We invite our customers to visit our facility and observe the fabrication of insulated pipe supports of all types.


Rigid polyurethane foams have a relatively large amount of cross-linking as the foam expands. Our suppliers of the raw chemicals control the degree of cross-linking by functionality (higher functionality produces more cross-links) and molecular weight of the components in the blend. The rigid cells provide the poured foam with strength and the interior space provides low thermal conductivity.  Water is used as the blowing agent for foam in this 10 to 40 lb. density range.

The relationship between temperature, thermal conductivity and the density of polyurethane foam is shown in Fig. 5.

FLEXURAL STRENGTH (flatwise with gran) (psi)
TENSILE STRENGTH (with grain) (psi)
SHEAR (flatwise 1/8" thk. Psi)
DENSITY (lb/in^3)
PUF (10pci) 200.00 400.00 300.00 6,000.00 95.00 -300.00 0.08 0.1600 180.00 0.1157 0.22
PUF (14pci) 300.00 600.00 500.00 11,000.00 95.00 -300.00 0.12 0.2000 200.00 0.1736 0.18
PUF (20pci) 500.00 1,100.00 600.00 20,000.00 95.00 -300.00 0.14 0.2500 400.00 0.2893 0.13



Parent Company: Piping Technology: Pipe Supports, Pipe Clamps, & Pipe Hardware
Fellow Subsidiaries
U.S. Bellows: Metallic & Fabric Expansion Joints, Bellows
Sweco Fab: ASME Vessels, Pig Launchers, Spectacle Blinds

Pipe Shields: Pre-Insulated Pipe Supports, Slides, Guides & Anchors
Fronek Anchor/Darling
: Snubbers, Sway Struts & Sway Braces
Contact Us: 707-447-5014 Toll Free1-800-538-7007. info@pipeshields.com

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