Roof Truss Deflection Limits

If that same joist had gypsum ceiling l 240 the allowable deflection is 0 6.

Roof truss deflection limits.

Generally for roof trusses the deflection in inches due to live load cannot exceed the span in inches divided by 240 l 240 and due to total load l 180. On the 70 ft. See the table below. Truss that would allow 2 5 16 total load deflection and 1 live load deflection.

Truss the limit is 4 5 8 total load deflection and 3 1 2 live load deflection unless the building designer specifies more restrictive criteria. Applied must be designed to have a deflection not exceeding l 720 of the span. For floor trusses the deflection in inches due to live load cannot. Per ansi tpi 1 a scissor truss can have up to 1 25 of total horizontal deflection in the absence of stricter limits from the building designer.

Limit the buckling length of members in compression although in a 2d truss the buckling length is only modified in one axis. Codes provide the maximum allowable deflection limits for floor and roof trusses which is based solely on the truss span. Some truss design software permits the truss design technician to limit the truss deflection to a specified maximum amount. Scissor trusses may even be designed with more than this amount of horizontal deflection along with a warning that special provisions for lateral movement may be required.

For example the allowable deflection of a 12ft span floor joist with plaster l 360 is 0 4 12ft divided by 360. A 48 foot span roof truss could have total load and live load deflections of almost 3 1 4 inches and 2 1 2 inches respectively and meet minimum code deflection criteria of l 180 and l 240. 3 8 3 1 strongbacks cross bridging or other reinforcement shall be used to limit differential deflection between adjacent framing members. Mitek roof and floor truss manual for architects and engineers mitek industries inc.

On a roof with a slope greater than 4 to 12 the live load limit is typically adjusted downward from 20 psf to 15 psf to allow for the relatively greater dead load on the steeper roof. For a 35 ft. Note it gives the allowable deflection based on a fractional span quantity so a larger denominator will yield less deflection. In calculating load the weight of the stone and setting bed must be considered.

2x4f 2000psif 1100psie 1 8x10 2x6f 1750 psi f 950 psi f 1900 psi e 1 8x10. For the pratt truss and any of the types of truss mentioned below it is possible to provide either a single or a double slope to the upper chord of a roof supporting truss.