Read more about the benefits of LVL Timber here. Our professional sales team can guide you towards the best beam for your worksite.Īll Timber completes rigorous testing and meets Australian standard 4357. ![]() We offer 95 x 65 or 150 x 77mm beams in multiple lengths. This new edition of The Span Book includes added tables for deck joists and beams, more lintel options, and recalculates all spans using revised shear properties. Their variety of uses and cost-efficiency make LVL Timber the material of choice.Īustralia Scaffolding & Formwork has two laminated veneer products available on the market. Most LVL products act as headers, beams, rim boards, and other functions requiring strong wood products or heavier loads. Buy LVL Timber that is affordable and sustainable, and can be found on Tier One construction sites across the nation. VERSA-LAM ® cover veneer lumber (LVL) beams or headers eliminate twisting, shrinking and split, and deliver flatter, calmer floors both structures. The calculator’s insights can help users make informed decisions and optimize their projects. By accurately calculating beam spans and sizes, users can ensure structural integrity and compliance with building codes. Manufactured with anti-moisture paint on both ends, LVL is is utilised in formwork bearers, joist soldiers, and walers.Īustralia Scaffolding & Formwork is a leading supplier of LVL products. ENGINEERED WOOD PRODUCTS (EWP) LVL SPAN AND SIZE CHARTS. The LVL beam span calculator is a valuable tool for construction projects. Seeking guidance from a structural engineer is imperative to ascertain the precise size and specifications required to ensure safety and adherence to regulations.Laminated Veneer Lumber (LVL Timber) is a high-quality substitue to solid lumber and steel in formwork. Continuous Span Beams are beams supported at three or more points along their length. Single Span Beams are beams supported at two points only. The dimensions of the beam will vary based on load considerations and the chosen material. Span For the purpose of using these tables, span may be interpreted as the clear distance between supports measured along the beam. To cover a 30-foot span, one can utilize either a multiple-ply 2×12 or opt for engineered wooden beams like LVL. These beams are often custom-manufactured to precisely meet the specific requirements of your project. Total Load deflection is limited to L/240. Live Load deflection is limited to L/480 or L/360 as indicated in the tables above. The shortest span shall not be less than 40 of the longest span. Multiple spans are based on the longest span. ![]() As a general guideline, for a 30-foot span, it is typically recommended to use LVL beams with dimensions of 5-1/4″ × 13 1/2″ or 5-1/4″ × 16″. Multiple span lengths shown require adequate lateral bracing of bottom edge of LVL. All 16, 18 and 24 beam depths are to be used in multiple member units only. The size of LVL beams required for a 30-foot span is contingent on several factors, including the anticipated load and compliance with local building codes. Lateral support of beam is required at bearing locations. Steel beams reign supreme in this domain, offering unmatched load-bearing capacity and durability. When spanning a 40-foot distance, the choice of I beam becomes crucial. So, the longest unsupported span possible using LVL would be 80-feet. Some manufacturers limit their beams to 60’ due to transportation issues, while others have the capability to manufacture beams up to 80’ long. Selecting the Optimal I Beam for a 40-foot Span The distance an LVL beam can span depends on a plethora of factors.
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