1/24/2024 0 Comments Lvl strutting beam span table![]() ![]() Information on the above matters can be obtained from AS 1684 Residential timber-framed construction or from a structural engineer experienced in timber construction. Methods of developing lateral restraint and providing adequate support, adequate anchorage against wind uplift, and overall structural stability are outside the scope of this publication, however some limited examples have been reproduced within this document. SmartLVL Design/effective span Continuous spans Rip sawing SmartLVL Double section SmartLVL 15.1 top loaded beams 3.2 side loaded beams 4.3 side load table Steel and timber post fixing Fire resistance Cutting and notching Roof construction detailing Lateral restraint of roof beams Chemical resistance Storage and handling Marking of SmartLVL Durability and exposure to moisture.1 Moisture effects on LVL 7.2 Dimensional change 7.3 Changes in strength 7.4 Design for durability 8.5 SmartGuard treatment 8.6 Fasteners for H3 LVL 8.7 Painting of treated LVL 8.8 Deck bearers and joists SmartLVL 15 Hanger details Designing with SmartLVL Span Tables 2.1 Product specification Limit state design values Strength reduction factor Duration of load Moisture effects Temperature Length and position of bearing Load sharing Stability Size factor Joint group Section properties 12 Index of span tables 13 SCOPE OF THIS PUBLICATION This Design Guide and Load Tables assist in the selection of SmartLVL 15 beams for most of the common structural arrangements met in domestic construction. ![]()
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