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ProSTUD® Drywall Tracks
Unit of Measure
Items ProSTUD® Drywall Tracks
162PDT125-18
ProTRAK® 0.078 Square Inch (in²) Area Drywall Track
ProSTUD® Drywall Tracks
250PDT125-18
ProTRAK® 0.095 Square Inch (in²) Area Drywall Track
ProSTUD® Drywall Tracks
362PDT125-18
ProTRAK® 0.116 Square Inch (in²) Area Drywall Track
ProSTUD® Drywall Tracks
400PDT125-18
ProTRAK® 0.123 Square Inch (in²) Area Drywall Track
ProSTUD® Drywall Tracks
600PDT125-18
ProTRAK® 0.161 Square Inch (in²) Area Drywall Track
Description N/A
Brands N/A A-1 Alloys ClarkDietrich® ProTRAK®
Design Thickness N/A 0.0190 in
Tensile Strength Fy N/A 50 ksi
Area N/A 0.078 in² N/A 0.095 in² N/A 0.116 in² N/A 0.123 in² N/A 0.161 in²
Weight N/A 0.27 lb/ft N/A 0.32 lb/ft N/A 0.40 lb/ft N/A 0.42 lb/ft N/A 0.55 lb/ft
Gross Section Properties (lx) N/A 0.040 in4 N/A 0.102 in4 N/A 0.236 in4 N/A 0.297 in4 N/A 0.778 in4
Gross Section Properties (Rx) N/A 0.718 in N/A 1.038 in N/A 1.426 in N/A 1.550 in N/A 2.195 in
Gross Section Properties (ly) N/A 0.013 in4 N/A 0.015 in4 N/A 0.017 in4 N/A 0.017 in4 N/A 0.019 in4
Gross Section Properties (Ry) N/A 0.411 in N/A 0.400 in N/A 0.380 in N/A 0.374 in N/A 0.342 in
Effective Section Properties at Tensile Strength (Fy) (Ae) N/A 0.028 in² N/A 0.029 in² N/A 0.029 in² N/A 0.029 in² N/A 0.029 in²
Effective Section Properties at Tensile Strength (Fy) (lx) N/A 0.027 in4 N/A 0.073 in4 N/A 0.173 in4 N/A 0.211 in4 N/A 0.469 in4
Effective Section Properties at Tensile Strength (Fy) (Sx) N/A 0.022 in³ N/A 0.034 in³ N/A 0.050 in³ N/A 0.055 in³ N/A 0.083 in³
Effective Section Properties at Tensile Strength (Fy) (Ma) N/A 663 in·lb N/A 1029 in·lb N/A 1497 in·lb N/A 1653 in·lb N/A 2473 in·lb
Effective Section Properties at Tensile Strength (Fy) (Vag) N/A 380 lb N/A 248 lb N/A 170 lb N/A 154 lb N/A 102 lb
Torsional Properties (Jx1000) N/A 0.00943 in4 N/A 0.01143 in4 N/A 0.01400 in4 N/A 0.01486 in4 N/A 0.01943 in4
Torsional Properties (Cw) N/A 0.007 in6 N/A 0.017 in6 N/A 0.041 in6 N/A 0.051 in6 N/A 0.130 in6
Torsional Properties (Xo) N/A -0.879 in N/A -0.770 in N/A -0.666 in N/A -0.638 in N/A -0.523 in
Torsional Properties (Ro) N/A 1.207 in N/A 1.353 in N/A 1.619 in N/A 1.718 in N/A 2.282 in
Torsional Properties (ß) N/A 0.470 Beta N/A 0.676 Beta N/A 0.831 Beta N/A 0.862 Beta N/A 0.947 Beta
Notes for Allowable Screw Design Values N/A
  • Allowable screw connection capacities are based on Section E4 of the AISI S100-12 Specification.
  • When connecting materials of different steel thicknesses or tensile strengths, use the lowest values. Tabulated values assume two sheets of equal thickness are connected.
  • Screw shear and tension capacities were developed using published screw manufacturer data and evaluation reports available at the time of publication.
  • Screw capacities are based on Allowable Strength Design (ASD) and include a safety factor of 3.0.
  • When multiple fasteners are used, screws are assumed to have a center-to-center spacing of at least three times the nominal diameter (d).
  • Screws are assumed to have a center-of-screw to edge-of-steel dimension of at least 1-1/2 times the nominal diameter (d) of the screw.
  • Tension capacity is based on the lesser of pullout capacity in sheet closest to screw tip, or pullover capacity for sheet closest to screw head (using head diameter).
  • Screw capacities are governed by a conservative estimate of screw capacity, not by sheet steel failure.
  • For higher screw capacities, especially for screw strength, use specific screws from specific manufacturer. See manufacturer’s data for specific allowable values and installation instructions.
Construction Advantages N/A
  • High-strength steel combined with low-profile flange stiffening grooves and double offset web planking increases strength and provides greater limiting heights
  • Diamond-embossed web creates stiffness, reducing flange fade and screw spinout during drywall installation
  • Strong, lightweight stud and track cuts and handles easier than conventional flat steel studs
  • Flange grooves provide sight line for drywall alignment and aid in positioning screws at drywall joints to maintain the 3/8" edge requirement
  • Web and leg enhancements in ProTRAK® provide straight and rigid legs, making it the best choice for framing walls, headers, soffits, and bulkheads
Design Advantages N/A
  • Designed to meet the additional strength requirements of today's building codes: IBC 2015, AISI (S100), ICC-ES AC86 (2015)
  • Smart Edge™ Technology is an enhancement for producing easier-to-handle steel that reduces the risk of cuts and scrapes
  • UL Classified and listed in over 50 designs, including U419, V438, and chase wall assemblies
  • Exceptional sound performance in over 30 tested sound assemblies
  • Can contribute LEED® points in LEED v4 or LEED 2009. EPD and HPD verifications also available.
  • National availability
Addition Information N/A ProSTUD®, in fact, is just one example of how ClarkDietrich® can reinforce your efforts to design and build more intelligently. Yes, we're known as a manufacturer of extensively tested, code-compliant steel framing products, but we offer so much more. Our products perform as a system. We support a range of efforts for smarter installation and design.

We provide the expertise of a versatile engineering services team. And we do it all on a nationwide scale.

We've put together an incredible array of resources to help you be successful on any project, regardless of size or complexity. Within this catalog you'll discover the multiple advantages ProSTUD® has to offer, as well as detailed information on the product lineup, limiting heights, sound and fire assemblies, and more.

Ultimately, your choice of ProSTUD® doesn't come down to the integrity of the product alone, or even its ease of use. You're also looking to the strength of the company that stands behind it. Count on the expertise, services and full support of ClarkDietrich® today-and far into the future.
Note N/A
  • Calculated properties are based on AISI S100-12, North American Specification for Design of Cold-Formed Steel Structural Members and AISI S220-15, North American Standard for Cold-Formed Steel Framing-Nonstructural Members.
  • Effective properties incorporate the strength increase from the cold work of forming as applicable per AISI A7.2.
  • Tabulated gross properties, including torsional properties, are based on full-unreduced cross section of the studs, away from punch outs.
  • Tabulated gross properties, including torsional properties, are based on full-unreduced cross section of the tracks.
  • For deflection calculations, use the effective moment of inertia.
  • Allowable moment includes cold work of forming.
  • Allowable moment is taken as the lowest value based on local or distortional buckling. Distortional buckling strength is based on a k-phi = 0.
  • Web depth for track sections is equal to the nominal height plus two times the design thickness plus the bend radius. Hems on nonstructural track sections are ignored.
N/A
  • Calculated properties are based on AISI S100-12, North American Specification for Design of Cold-Formed Steel Structural Members and AISI S220-15, North American Standard for Cold-Formed Steel Framing-Nonstructural Members.
  • Effective properties incorporate the strength increase from the cold work of forming as applicable per AISI A7.2.
  • Tabulated gross properties, including torsional properties, are based on full-unreduced cross section of the studs, away from punch outs.
  • Tabulated gross properties, including torsional properties, are based on full-unreduced cross section of the tracks.
  • For deflection calculations, use the effective moment of inertia.
  • Allowable moment includes cold work of forming.
  • Allowable moment is taken as the lowest value based on local or distortional buckling. Distortional buckling strength is based on a k-phi = 0.
  • Web depth for track sections is equal to the nominal height plus two times the design thickness plus the bend radius. Hems on nonstructural track sections are ignored.
N/A
  • Calculated properties are based on AISI S100-12, North American Specification for Design of Cold-Formed Steel Structural Members and AISI S220-15, North American Standard for Cold-Formed Steel Framing-Nonstructural Members.
  • Effective properties incorporate the strength increase from the cold work of forming as applicable per AISI A7.2.
  • Tabulated gross properties, including torsional properties, are based on full-unreduced cross section of the studs, away from punch outs.
  • Tabulated gross properties, including torsional properties, are based on full-unreduced cross section of the tracks.
  • For deflection calculations, use the effective moment of inertia.
  • Allowable moment includes cold work of forming.
  • Allowable moment is taken as the lowest value based on local or distortional buckling. Distortional buckling strength is based on a k-phi = 0.
  • Web depth for track sections is equal to the nominal height plus two times the design thickness plus the bend radius. Hems on nonstructural track sections are ignored.
N/A
  • Calculated properties are based on AISI S100-12, North American Specification for Design of Cold-Formed Steel Structural Members and AISI S220-15, North American Standard for Cold-Formed Steel Framing-Nonstructural Members.
  • Effective properties incorporate the strength increase from the cold work of forming as applicable per AISI A7.2.
  • Tabulated gross properties, including torsional properties, are based on full-unreduced cross section of the studs, away from punch outs.
  • Tabulated gross properties, including torsional properties, are based on full-unreduced cross section of the tracks.
  • For deflection calculations, use the effective moment of inertia.
  • Allowable moment includes cold work of forming.
  • Allowable moment is taken as the lowest value based on local or distortional buckling. Distortional buckling strength is based on a k-phi = 0.
  • Web depth for track sections is equal to the nominal height plus two times the design thickness plus the bend radius. Hems on nonstructural track sections are ignored.
N/A
  • Calculated properties are based on AISI S100-12, North American Specification for Design of Cold-Formed Steel Structural Members and AISI S220-15, North American Standard for Cold-Formed Steel Framing-Nonstructural Members.
  • Effective properties incorporate the strength increase from the cold work of forming as applicable per AISI A7.2.
  • Tabulated gross properties, including torsional properties, are based on full-unreduced cross section of the studs, away from punch outs.
  • Tabulated gross properties, including torsional properties, are based on full-unreduced cross section of the tracks.
  • For deflection calculations, use the effective moment of inertia.
  • Allowable moment includes cold work of forming.
  • Allowable moment is taken as the lowest value based on local or distortional buckling. Distortional buckling strength is based on a k-phi = 0.
  • Web depth for track sections is equal to the nominal height plus two times the design thickness plus the bend radius. Hems on nonstructural track sections are ignored.
  • Web-height to thickness ratio exceeds 260.