Wood-Based Paneling as Thermal Barriers,

Abstract

Fire penetration tests were conducted to examine how the thermal protection afforded insulation in fire-exposed wall assemblies is influenced by wood-based panel type and thickness. Small-scale specimens (20-by 20-in.) were fabricated reflecting 1/4- to 3/4-inch plywood over 1-inch slabs of foam plastics; 5/8-inch plywood panels with no backup material, over a 3-1/2-inch loose-fill cellulosic insulation, 3-1/2-inch air gap, 1/2-inch foam plastic, or 3-1/2-inch glass-fiber insulation; and 5/8-inch particle board, 5/8-inch hardboard composite, 5/8-inch solid wood, 5/8-inch fire-retardant-treated plywood or 1/2-inch gypsum wallboard over 1-inch slabs of foam plastic. These specimens were then subjected to the time-temperature fire exposure given in ANSI/ASTM Standard E 119. Because this research was conducted only to characterize material response and not to define the more complex performance of full-scale assemblies according to all the requirements of ANSI/ASTM Standard E 119, the information is not directly applicable to establishing the finish rating for a given panel type. However, the results do increase our understanding of what panel characteristics influence finish rating in assemblies. (Author)

Document Details

Document Type

Technical Report

Publication Date

Jun 01, 1982

Accession Number

ADA120154

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