Brown-Campbell has developed this simple tool to help you determine what type of 19W4/19W2 bar grating will suit your needs the best.
To use this calculator, select a Span AND select either a U-Load OR C-Load quantity. The calculator will then recommend the appropriate bar size of 19W4/19W2 bar grating based on your specified criteria.
For example, by selecting a span of 2’ 0” with a U-Load of 533, the recommended bar size would be
3/4” x 3/16” 19W4/19W2.
* Approximate weight Lbs./Sq. Ft. Weight depends on panel width, cross bar selection, mill tolerance, and manufacturing tolerance.
** Recommended maximum span for 1/4’’ deflection under concentrated load at 300# at midspan on 6’ or less. 400# over 6’.
*** Deflection in inches.
¹ Uniform Concentrated Load Lb/Sq. Ft.
² Safe Concentrated Load Lb/Sq. Ft. of grating width, at mid-span.
1/4’’ is recommended as the maximum deflection consistent with pedestrian comfort but can be exceeded for other loading conditions at the discretion of the engineer.
The carrying capacity of a piece of grating subjected to a concentrated load over only a portion of it’s width is determined by the stiffness of both the bearing bars and the cross bars, and therefor differs with the type of grating used. To determine the carrying capacity of gratings subject to such loading the manufacturer’s engineering department should be consulted.
For gratings with other than 1-3/16’’ bearing or spacing or for different design stresses, proportionate conversion factors apply. For information on other types of grating consult the manufacturer.
This bar grating calculator is intended for informational purposes only for pedestrian traffic. It has been developed using load table information supplied by the National Association of Architectural Metal Manufacturers for steel welded bar grating type 19W4/19W2. This information is of a technical nature, and as such is intended only for evaluation by technically skilled persons, with any use thereof to be at their independent discretion and risk. Such information is reliable when evaluated in the proper manner by licensed engineering personnel. Brown-Campbell shall have no responsibility or liability for results obtained or damages resulting from improper evaluation or use.