Roof Wind Live Load

When building a structure it is important to calculate wind load to ensure that the structure can withstand high winds especially if the building is located in an area known for inclement weather.

Roof wind live load.

It provides the wind load calculations on uplift leeward windward and roof forces of a building. Note that although rain loads are covered in ibc section 1611 they were not required to be listed on the construction documents. This downward imposed load on the home is also known as the snow load. L live load l r live roof load w wind load s snow load e earthquake load r rainwater load or ice water load t effect of material temperature h hydraulic loads from soil f hydraulic loads from fluids.

If you live in the us our snow load calculator compares the total weight on your roof with the permissible load calculated according to the standards issued by the american society of civil engineers regarding the minimum design loads for buildings and other structures asce7 16. Other elements in the load path. Roof loads are a downward vertical force on the home. Until recently floor live load roof live load roof snow load wind load earthquake design data and flood loads were required to be listed on the construction documents.

The north zone middle zone and the south zone are identified on the roof load zone map above. Many studies on roofed structures have been performed in the past. D w provides an adequate and simple design check representative of worst case combined axial and transverse loading. Roof load live load design is affected by the shape of the roof whether it is flat curved or pitched.

Once the wind speed has been calculated the user can provide additional information regarding the building such as building height type and cladding to get the wind pressure wind load based on asce 7 10 as 1170 and en 1991 provisions. Crane hook loads need not be combined with roof live loads or with more than three fourths of the snow load or one half of the wind load. Arch 331 note set 13 1 s2014abn 2 determining dead load from material weights. Flat roof snow loads of 30 psf 1 44 kn m 2 or less and roof live loads of 30 psf 1 44 kn m 2 or less need not be combined with seismic loads.

Roof shape and slope are both important parameters for the safety of a structure especially when facing wind loads. 3the transverse wind load for stud design is based on a localized component and cladding wind pressure. Axial forces from snow loads and roof live loads.