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Wind Load Garage Doors 

Insurance analysts know that 80% of residential hurricane damage begins with wind entry into your home's garage. During an extreme wind event, storm-driven debris can dent, deform or even penetrate ordinary garage doors.

DASMA Technical Data Sheets are available to provide you with more information about garage door wind load.  Please reference data sheets #155 and #168.

Wind Load Garage Doors

wind safe logoMany of Wayne Dalton's most popular garage doors now have wind load-rated reinforcements. Models with the WindSafe® logo have options available to comply with various approval agencies, including the Florida Building Code, TDI (Texas Department of Insurance) and Miami-Dade County (FL).

Impact Rated Garage Doors

Impact Rated logo Wayne Dalton door models with the Impact™ logo have been approved for impact resistance. Tests show these doors are able to stop the direct impact of a 9 lb. 2x4 board at 50 feet per second. Although these Wayne Dalton garage doors have wind load and impact ratings, you should consult with a registered architect and engineer to be sure they are compliant with building code requirements in your particular area.

Garage Door Hardware for Wind Load Garage Doors

Pictured below are some of Wayne Dalton's patented hardware for wind load doors.

High-grade carbon steel hinges add stability for Wind Load Garage Doors
High-grade carbon steel hinges add stability.
Top section roller-slide attached to U-bar resists force for Wind Load Garage Doors
Top section roller-slide attached to U-bar resists force.
Bottom section roller slide attached to U-bar resists force for Wind Load Garage Doors
Bottom section roller slide attached to U-bar resists force.
Quick install and heavy duty jamb brackets secure track to door frame for Wind Load Garage Doors
Quick install and heavy duty jamb brackets secure track to door frame.
3 inch commercial grade U-bars provide horizontal stability for Wind Load Garage Doors
3" commercial grade U-bars provide horizontal stability.
house during a hurricane stay protected with Wind Load Garage Doors  
  1. High wind events can cause un-reinforced garage doors to buckle, forcing the door out of the track and causing catastrophic door failure.
  2. Debris driven by high velocity hurricane winds become powerful projectiles that can pierce ordinary garage doors breaching their integrity.
  3. With wind speeds exceeding 111 mph (Category 3 or greater hurricane) extraordinary pressure inside the home can compromise the structural integrity of walls and roof.
  4. Induced internal air pressure can reach such a magnitude that it can literally blow off the roof and tear apart wall panels.
  5. Window opening as small as 4 square feet can pressurize the home's interior, exerting forces on the structure like a turbine engine.

Hurricane Areas Across the U.S.A.

windload map

  • The information on this page is to be used for reference only. Consult your building department or a registered engineer or architect for site specific applications.
  • Values are nominal design 3-second gust wind speeds in miles per hour (m/s) at 33 ft. (10m) above ground for Exposure C category.
  • Linear interpolation between contours is permitted.
  • Islands and coastal areas outside the last contour shall use the last wind speed contour of the coastal area.
  • Mountainous terrain, gorges, ocean promontories, and special wind regions shall be examined for unusual wind conditions.

Inner strength. Outer beauty. Live confidently.

The Wayne Dalton residential garage doors that can be upgraded to wind load include all models of the Classic Steel Garage Doors (excluding Model 8024-8024PO), all models of the Carriage House Steel Garage Doors, the Designer Fiberglass Garage Doors and our Specialty Vinyl Garage Doors.

​Does the design of my house affect the design wind pressures on my garage door?​

The least overall horizontal plan dimension of the structure, as well as the mean roof height affect the design wind pressures on the structure.

How can I determine the wind speed requirements for my location?​

The American Society of Civil Engineers (ASCE) has developed standards covering wind loads on buildings and other structures. This is the base standard for most wind provisions used in U.S. building codes. The basic wind speed maps from ASCE 7-05 or ASCE 7-10 can help an individual to determine the proper wind speed delineation zones for their area. In addition, some states such as Florida provide a listing of wind speed maps by county. For the specific requirements for your area, contact your local building official.

​​How do I know if my door is compliant with the Florida Building Code?​

The Florida Building Code has specific design pressure requirement for garage doors (table 1606.2E). Wayne-Dalton goes through the Florida Building Commission Product Approval system for many of its doors. Additional information about the Florida code can be found through the Florida Building Commission.

How do I know if the building frame can support the wind loads from the garage door?​

A qualified design professional such as an architect, structural engineer, or contractor should be consulted to determine if the building frame is adequate to support the loads.

How do I determine what wind pressures I need?​

Wayne Dalton has developed the WindSafe Safety Level to aid you in determining the wind pressure needed. These tables are based on typical applications. While these are a guideline, they are not intended to cover all situations. Please contact your local building official or a registered architect or structural engineer for the specific requirements in your area. Ultimately, the engineer on record for the structure should provide the wind pressure requirements for all openings.

What effect do windows in a garage door have on design wind pressures?​

Windows have no effect on the design wind pressures except in wind-borne debris regions. In wind-borne debris regions, all windows (including windows in a garage door) must be impact resistant or protected with an impact resistant covering unless the structure is designed as a partially enclosed structure.​

​​What is the difference between wind speed and wind pressure? ​

​Wind speed is a velocity measured in miles per hour (mph). Wind pressure is a force measured in pounds per square foot (psf). Wind speed alone cannot be used to determine the wind pressures on a structure. Wind speed is one of many variables used in calculating design wind pressures that take into account the structure configuration and site location.

​​How do I attach a 2x6 jamb to the building frame?​

​Refer to the Wayne Dalton Jamb Connection Supplement for detailed information. DASMA Technical Data Sheet TDS-161 may also be used to determine how to attach garage door jambs to building framing.​

Does the direction a door face affect the design wind pressures?​

No. Wind can blow in any direction. Wind load design takes into consideration wind acting directly towards and away from the garage door.

Can I add reinforcement to my non-wind load door to make it stronger?​

​A wind loaded garage door is designed with specific components, such as track, jamb brackets, hinges, rollers and reinforcing struts that meet designated design wind pressures. All of these components, along with the door sections comprise a complete wind resistive system.


You cannot add components to a door that are not part of the original door installation. By adding reinforcement to the door this does not mean it will increase the wind resistance of the door. It is also extremely dangerous because the components add weight, which can overload the counterbalance system resulting failure and possible injury.​

What are active (post) systems and are they acceptable by local building officials?​​

​Active systems are any type of reinforcing system used on a garage door that requires action by the homeowner or end user to resist high wind events. Most jurisdictions in hurricane-prone regions accept active systems, but some do not. Check with your local building official for requirements in your area.​

What does Exposure Category mean?​

​An exposure category (B, C, or D) is a condition that adequately reflects the characteristics of ground surface irregularities for the site where a structure is located. Exposure category is used in calculating the required design wind pressures for a structure with exposure B yielding the lowest wind pressures and exposure D yielding the highest wind pressures.


Exposure B applies to urban and suburban areas, wooded areas or other terrain with numerous closely spaced obstructions having the size of single-family dwellings or larger. Exposure B is typically associated with site locations in a residential subdivision. Most site locations are assumed to be Exposure B unless the site meets the definition of another type of exposure.


Exposure C applies to open terrain with scattered obstructions having heights generally less than 30 feet extending more than 1,500 feet from the building site. Exposure C includes flat open country, grasslands, and shorelines in hurricane-prone regions.


Exposure D applies to flat, unobstructed areas exposed to wind flowing over open water (excluding shorelines in hurricane-prone regions) for a distance of at least 1 mile. Exposure D includes shorelines in inland waterways, the Great Lakes, and coastal areas of California, Oregon, Washington, and Alaska. Exposure D extends inland from the shoreline a distance of 1,500 feet or 10 times the height of the building or structure, whichever is greater.​

What is a partially enclosed structure and do Wayne Dalton doors meet those​ requirements?​

​Partially enclosed structures are structures that are assumed to have a certain percentage of openings (such as broken windows) during a storm event. Under this assumption, the pressure inside a structure increases dramatically. This causes an increase in the design pressures on exterior walls as well.


Wayne-Dalton doors do meet these requirements, but the required design pressures for a partially enclosed structure are substantially higher than for an enclosed structure. Note that the WindSafe Safety Level tables are not applicable to partially enclosed structures.

When replacing my garage door, do I have to get a wind loaded door? Do I need e a permit?​

​You will need to contact your local building official. The local authority has jurisdiction and makes the sole determination for all permitting and wind load requirements.​

Is Wayne Dalton responsible for making sure the building frame can support the wind pressures imposed by the garage door?​

No. As a manufacturer, Wayne Dalton is responsible for providing sufficient information through drawings or specifications that indicate the wind pressures that the garage door will impose on the structure. It is the responsibility of the design professional for the building to design the supporting structure to accommodate these pressures.​

What is the difference between design pressures and test pressures?​

​Design pressures are the pressures required by code that a door is designed to withstand and are calculated using variables taking into account wind speed, structure configuration, and site location. Test pressures are the pressures that a door has been tested to in controlled laboratory conditions. Test pressures for garage doors have a 50% safety factor making test pressures one and a half times higher than design pressures.​

Why are both positive and negative wind pressures required?​

​Wind can blow in any direction including away from a wall surface. In fact, negative wind pressures have a larger magnitude than positive wind pressures.​

Wind Load Option Code Index Documents

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