The HDS® Framing System is a high-performance, cost-effective, multipurpose, heavy-duty framing stud for headers, jambs, posts and built-up tube truss chords and webs. The superior strength and carrying capacity of the HDS® Framing System means higher performance with fewer members. It means eliminating box beam headers, nesting track and stud for posts and jambs, and eliminating multi-member built-up truss chords and webs. It also means improved finish quality by eliminating excessive material and screw head buildup around doors and windows.
Unit of Measure
Specifications
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Unperforated Section Properties
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Torsional Properties
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Other Properties
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Unperforated Bending Properties
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Perforated Bending Properties
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Effective Moment of Inertia
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Construction Advantages
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Note
Specifications
Brands |
N/A A-1 Alloys ClarkDietrich® HDS® |
Thickness |
N/A 18 gauge43 mil |
Design Thickness |
N/A 0.0451 in |
Tensile Strength Fy |
N/A 33 ksi |
Depth |
N/A 6 in |
Flange Size |
N/A 3 in |
Return |
N/A 2-1/4 in |
Double Return |
N/A 3/4 in |
Minimum Delivered Thickness |
N/A 0.0428 in |
Unperforated Section Properties
Area |
N/A 0.591 in² |
Weight |
N/A 2.01 lb/ft |
Gross Moment of Inertia About X-Axis (Ix) |
N/A 1.509 in4 |
Gross Section Modulus About X-Axis (Sx) |
N/A 0.754 in³ |
Gross Radius of Gyration About X-Axis (Rx) |
N/A 1.598 in |
Gross Moment of Inertia About Y-Axis (ly) |
N/A 0.838 in4 |
The Distance from the Web Centerline to the Center of Gravity (xbar) |
N/A 1.376 in |
Gross Section Modulus About Y-Axis (Sy) |
N/A 0.523 in³ |
Gross Radius of Gyration About Y-Axis (ry) |
N/A 1.190 in |
Torsional Properties
St. Venant Torsion Constant Torsional Properties (Jx1000) |
N/A 0.400 in4 |
Warping Torsion Constant (Cw) |
N/A 6.425 in6 |
Distance from Shear Center to the Centroid Along the Principal X-Axis (Xo) |
N/A -3.418 in |
Polar Radius of Gyration About the Centroidal Principal Axis (Ro) |
N/A 3.956 in |
Distance from Shear Center to the Centroid Along the Principal X-Axis/Polar Radius of Gyration About the Centroidal Principal Axis 1-(Xo/ro)2 |
N/A 0.254 Beta |
Other Properties
Maximum Unbraced Length to Attain Mxa (Lu) |
N/A 99 in |
Allowable Shear for Bending About X-Axis (Unperforated Vx) |
N/A 1.74 kips |
Allowable Shear for Bending About X-Axis (Perforated Vx) |
N/A 0.81 kips |
Allowable Shear for Bending About Y-Axis (Vy) |
N/A 3.09 kips |
Other Properties (Px)1 | N/A 0.45 kips |
Other Properties (Py)2 | N/A 0.61 kips |
Unperforated Bending Properties
Effective Section Modulus About X-Axis (Sxe) Unperforated Bending Properties |
N/A 0.648 in³ |
Allowable Moment About X-Axis (Mxa) Unperforated Bending Properties |
N/A 12805 in·lb |
Effective Section Modulus About X-Axis (Sye) Unperforated Bending Properties (Web in Ten.) |
N/A 0.523 in³ |
Allowable Moment About Y-Axis (Mya) Unperforated Bending Properties (Web in Ten.) |
N/A 11874 in·lb |
Effective Section Modulus About X-Axis (Sye) Unperforated Bending Properties (Web in Comp.) |
N/A 0.430 in³ |
Allowable Moment About Y-Axis (Mya) Unperforated Bending Properties (Web in Comp.) |
N/A 8490 in·lb |
Perforated Bending Properties
Effective Section Modulus About X-Axis (Sxe) Perforated Bending Properties |
N/A 0.613 in³ |
Allowable Moment About X-Axis (Mxa) Perforated Bending Properties |
N/A 12113 in·lb |
Effective Section Modulus About X-Axis (Sye) Perforated Bending Properties (Web in Ten.) |
N/A 0.440 in³ |
Allowable Moment About Y-Axis (Mya) Perforated Bending Properties (Web in Ten.) |
N/A 9985 in·lb |
Effective Section Modulus About X-Axis (Sye) Perforated Bending Properties (Web in Comp.) |
N/A 0.347 in³ |
Allowable Moment About Y-Axis (Mya) Perforated Bending Properties (Web in Comp.) |
N/A 6866 in·lb |
Effective Moment of Inertia
Effective Moment of Inertia About X-Axis for Deflection Calculations (lxe) |
N/A 1.463 in4 |
Effective Moment of Inertia About Y-Axis for Deflection Calculations (Web in Ten. (lye)) |
N/A 0.838 in4 |
Effective Moment of Inertia About Y-Axis for Deflection Calculations (Web in Comp. (lye)) |
N/A 0.750 in4 |
Construction Advantages
Construction Advantages |
N/A
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- 1 For members having a web depth of less than 8" and also having a thickness less than 97 mil, allowable web crippling per AISI Standard for CFS Wall Stud Design 2004. This value assumes the web resists web crippling and the HDS is nested in track having the same thickness. For other members, allowable end one flange web crippling per AISI NASPEC, 2001 with 2004 supplement. Both calculation procedures use a bearing length of 1-1/4".
- 2 Allowable end one flange web crippling per AISI NASPEC, 2001 w/2004 supplement. This value assumes 2 flanges resist web crippling for a bearing length of 1-1/4".