![]() ![]() Designs shearwalls with or without hold-downs.Generates shear, bending moment and deflection diagramsĭesigns for bearing, notches, and Simpson Strong-Tie beam and joist hangersĪutomatically generates wind loads as per NBC Static Procedure or Low Buildings ProcedureĪutomatically generates seismic loads following the NBC Equivalent Static Force Procedureĭistributes lateral loads to shear lines according to flexible and rigid diaphragm analysesĭistributes lateral loads within shear lines based on shearwall stiffness or capacity Designs W-shaped steel beams and HSS steel columns using CSA S16.Structural members are transferable to the Beam or Column Mode for detailed analysisĭesign Structural Members – Beam and Column Modeĭesigns structural members including single or multi-span, cantilevered, and inclined beams and joists, wall studs, columns, beam-columns and CLT panels Designs light-frame floor systems using Sizer in Autodesk Revit ® through MWF Pro Wood extension.Ĭonfigure and design wood structures up to 6 storeys for gravity loads.Includes editable database to add or modify custom wood materials Optimizes structural member sizes using material database and generates a material list for design By understanding the table and taking all the required factors into account, contractors can ensure that their projects are safe, up to code, and completed to the highest standards.Specify dead, live, snow, wind, seismic, and other load types distributed as point, line, area, triangular and trapezoidal loads for up to 100 loads per memberĪnalyzes all load combinations as per the National Building Code of Canada (NBC), including pattern loading and concentrated live loadsĭesigns for all critical load combinations for shear, bending, deflection, vibration, and bearing as per the CSA O86 Standard Overall, the Lvl Beam Span Table is an essential part of the Ontario Building Code and a key factor in any successful building project. This helps to ensure that the project is completed safely and to the highest standards. Using the table, a contractor can determine the maximum span their beam can safely support. This table provides the maximum allowable span for each species of lumber, as well as the size and load of the beam. Once all of these factors have been taken into consideration, the Lvl Beam Span Table can be consulted. ![]() For example, if the project is located in an area prone to seismic activity, the tables may be adjusted accordingly. Additionally, the span tables can vary depending on the location of the project and the type of construction being done. This means that the span tables can change over time, so it’s important to stay up to date with the latest version of the Code. ![]() It’s also important to note that the span tables are based on the National Building Code of Canada, which is updated every five years. All of these factors should be taken into account when determining the maximum span for a beam. For example, a beam supporting a roof or floor is going to be under much more stress than one supporting a wall. Additionally, the size of the beam and its use also affect its ability to span. Different species of wood have different strengths, so the span tables are adjusted accordingly. ![]() The first is the species of lumber being used. When looking through the Lvl Beam Span Table, there are several important factors to consider. Understanding the Lvl Beam Span Table is a key part of any successful building project and will help to ensure the safety of everyone involved. One of the most important aspects of the Code is the Lvl Beam Span Table, which establishes the maximum length that a beam can span and still support the structure. The Ontario Building Code is an essential part of staying safe when working on construction projects in the province. ![]()
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