BEARING PLATES
To resist a beam reaction, the minimum bearing length N in the direction of the beam span for a bearing plate is deter- mined by equations for prevention of local web yielding and web crippling. A larger N is generally desirable but is limited by the available wall thickness.
When the plate covers the full area of a concrete support, the area, in 2 (mm 2 ), required by the bearing plate is
A 1 = R / 0.35 f ‘ c
Where R = beam reaction, kip (kN), f ‘ c = specified compressive strength of the concrete, ksi (MPa). When the plate covers less than the full area of the concrete support, then, as determined from Table
| Full area of concrete support | 0.30 f 'c |
| Sandstone and limestone | 0.40 |
| Brick in cement mortar | 0.25 |
♣
Units in MPa = 6.895 X ksi
where A 2 = full cross-sectional area of concrete support, in 2 (mm 2 ).
With N established, usually rounded to full inches (millimeters), the minimum width of plate B, in (mm), may be calculated by dividing A 1 by N and then rounded off to full inches (millimeters), so that BN ³ A 1 . Actual bearing pres- sure f p , ksi (MPa), under the plate then is
F p = R / BN
The plate thickness usually is determined with the assumption of cantilever bending of the plate:
t = ( ( 1 / 2) B - k ) ( 3 f p / F b ) ½
where t = minimum plate thickness, in (mm)
k = distance, in (mm), from beam bottom to top of web fillet
F b = allowable bending stress of plate, ksi (MPa)
No comments:
Post a Comment