Pultrusion Industry Council - pultrusions vs. structural timber

pultrusions vs. structural timber

PULTRUSIONS

VS.

STRUCTURAL TIMBER

Pultruded glass fiber reinforced structural shapes and plate have a number of significant advantages over timber in many structural applications. Pultruded fiberglass will not rot or decay and is not susceptible to insect attack. Unlike wood, fiberglass requires no environmentally unfriendly preservatives or repellants, does not absorb any significant amount of water and is consistent in strength and appearance piece-to-piece (no culling). Pultruded fiberglass is stronger, more rigid and lighter weight than structural timber.

Is pultruded fiberglass a better choice for your application? Consider the point-for-point comparison below.

NOTE: Properties shown for pultruded fiberglass structural shapes, are approximate for typical off-the-shelf structural pultrusions.

*COMPARE!*	Pultruded Fiberglass Structural Shapes	Structural Timber Douglas Fir
CORROSION RESISTANCE	Superior resistance to a broad range of chemicals. Unaffected by moisture or immersion in water if ends are properly sealed. Surfacing veil and UV additives create excellent weatherability.	Can warp, rot and decay from exposure to moisture, water and chemicals. Coatings or preservatives required to increase corrosion or rot resistance can create hazardous waste and/or high maintenance.
INSECT RESISTANCE	Unaffected by insects.	Susceptible to insect attack (marine borers, termites, etc.). Coatings to increase resistance to insects can be environmentally hazardous.
STRENGTH	Pultruded fiberglass is stronger, and has higher flexural strength than timber. Ultimate flexural strength (Fu) LW = 30,000 psi, CW = 10,000 psi. Compression strength is 30,000 psi.	Extreme fiber bending = up to 2800 psi.* Compression parallel to grain = up to 1800 psi.*
STIFFNESS	Pultruded fiberglass is approximately 1-1/2 times as rigid as wood. Modulus of elasticity LW = 2.5 x 10⁶ psi, CW = .8 x 10⁶ psi.	Modulus of elasticity = up to 1.8 x 10⁶ psi.*
ELECTRICAL CONDUCTIVITY	Non-conductive - high dielectric capability.	Timber can be conductive when it is wet.
WEIGHT	Specific gravity = 1.7 Pultruded fiberglass has significantly higher strength-to-weight ratio.	Specific gravity = .51 (oven dried).*
FINISHING AND COLOR	Pigments added to the resin provide color throughout the part. Special colors available. Composite design can be customized for required finishes.	Must be primed and painted for colors. To maintain color, repainting may be required.
COST	Lower maintenance, longer product life often equals lower overall costs.	Lower initial cost.

*Surface dry at 19% max moisture content
Design Values for Wood Construction, National Design Specification for Wood Construction.