Roof Design Wind

Roof wind designer is intended to provide users with an easy to use means for determining roof systems design wind loads for many commonly encountered building types that are subject to building code compliance.

Roof design wind.

Roof design wind loads are the wind pressures and resulting uplift forces for which the roof structure is designed. Low wind areas and 110 m p h. Roof wind designer initially was developed in cooperation with the midwest roofing contractors association and north east roofing contractors association. In order to properly design for wind attachment a basic understanding of the effects of winds on buildings is required.

And with the latest version of asce 7 minimum design loads for buildings and other structures asce 7 it has become that much more challenging for roof system designers and roofing contractors. Wind design of roof systems is one of the more complicated things that an architect deals with during the design of a building. At the same time internal air pressure increases due to air infiltration through openings cracks etc. A dfcm roof history record is required on all roofing systems contractors responsibility.

Wind damage to buildings can range from complete demolition of the structure to total or partial roof displacement blow off to damage to penetrations skylights mechanical equipment vents etc doors and windows. Roof damage caused by wind occurs when the air pressure below the roofing assembly is greater than the air pressure above the building s roof. Please note that a 1 90 or a 1a 90 rating does not provide the necessary wind speed requirements. Minimum wind speed in known high wind areas.

The basic design wind speed v mph corresponds to a 3 second gust speed at 33 above ground in exposure category c and is associated with an annual probability of 0 02 of being equalled or exceeded 50 year mean recurrence interval.