Design Glulam elements to AS 1720.1. Analyze local Radiata (GL17) and imported Spruce (GL24) grades for strength, stability, and deflection.
Glue Laminated Timber (Glulam) is the workhorse of the Australian mass timber industry. From standard “17C” lintels in residential framing to massive GLT portal frames in aquatic centers, Glulam offers superior dimensional stability and span capabilities compared to sawn timber.
The SPEC Toolbox Glulam Calculator unifies the complex landscape of Australian supply. Whether you are specifying local GL17 Radiata Pine (like Hyne or Wesbeam) or imported GL24/GL28 Spruce (like Binderholz or Hess), this tool provides a single, code-compliant workflow to AS 1720.1.
This tool performs a comprehensive structural analysis of Glulam beams and columns under gravity and wind loads. It verifies:
1. The “Grade Confusion” (GL17 vs. GL24)
Australian engineers often face a choice between local and imported products, which use different grading logic.
Our calculator automatically adjusts the E-values and characteristic strengths based on your selection, ensuring you don’t inadvertently use a “stiff” GL17 modulus for a “flexible” GL24 beam.
2. Beam Stability Factor (k12)
Unlike steel beams which check “LTB,” AS 1720.1 uses the k12 Factor to reduce capacity based on slenderness.
The calculator analyzes your Restraint Conditions (e.g., “Top edge restrained by flooring”) to calculate the effective length (Lay).
3. Column Stability (k12 for Columns)
For columns, the stability factor (k12) accounts for buckling about the x-axis or y-axis.
The tool calculates the Slenderness Coefficient (S3 or S4) based on the effective buckling length (g13 • L) and applies the interaction equation for combined axial and bending loads.
Capacity Factors ($phi$):
We apply the standard AS 1720.1 capacity factors:
Modification Factors:
Bearing Area:
Nd = Φ • k1 • k4 • k6 • k7 • f’p Ap
Yes. You can select Australian Hardwood grades (e.g., GL18, GL21 Vic Ash) which are popular for high-end architectural trusses requiring high strength and stunning appearance.
This module covers “Cold” structural design. For FRLs (e.g., 60/60/60), please use our Char Rate Calculator to determine the residual sacrificial timber section.
This module currently handles straight (prismatic) members. Curved beams require a specialized check for radial tension ($k_{radial}$), which is covered in our advanced geometry module.
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