Tag Archives: tornadoes

Tornadoes Reek Havoc

Tornadoes Reek Havoc, Don’t Let Them Wreck You
Excerpts in italics below are from an article first appearing in SBC Magazine June 3, 2019:
“In the past few weeks, weather systems throughout Texas, Oklahoma, Missouri, Indiana and Ohio have had a significant impact on the built environment. As is well known, tornadoes cause severe stress on buildings where the high localized wind loading conditions find the weak point of the structure quickly. This usually is at the location of a wood nail, wood connector or anchor bolt connection, or in our testing experience, a knot or slope of grain deviation in a lumber tension member. An interesting point is that most studs in wall systems are meant to see compression forces not tension, where studs in tension may also be a structural weak point.

As the pictures herein attest, finding the key building material weak point that caused the structural performance to be a debris field is challenging, if not impossible, to do.

Tornado damage in Jefferson City, Mo. as seen on Thursday, May 23, 2019. Photo by David Carson, St. Louis Post-Dispatch.

Questions that need to be sincerely addressed follow, which include but are certainly not limited to:
What were the as-built conditions?
Was the building built to code?
Which aspects of the structure were built to code?
Which aspects of the structure were not built to code?
What is the cause/effect analysis for each code compliant and each non-code compliant condition?

It is obvious that proper construction implementation is key to satisfactory building material performance. Paying close attention to all connecting systems that make up the load path is essential.

The most important outcomes of poor building performance in a high wind or seismic event are that no one gets hurt; the construction industry continues to learn and evolve; and design and installation best practices improve.

The entire construction industry can greatly benefit by staying focused on providing framer-friendly details that are easy to understand and implement. It’s critical that we come together with the goal of fostering innovation, using accepted engineering practice, creating installation best practices, working closely with professional framers and assisting building departments to focus inspections on key load path elements. We all are educators. By working together, we will significantly improve the built environment.”

 

Mike the Pole Barn Guru adds:
Readers will note, these failures are in stick frame construction. Certainly there were also pole barns failing in tornado areas as well, however it is my opinion post frame buildings, engineered to withstand appropriate wind speeds, and assembled according to engineering documents would survive these storms – preventing both loss of property and life.

Code requirements are merely minimum design standards and often do not address severity of real life events. My recommendation is when in doubt, design to higher loads than minimum, in most cases these higher design loads involve a nominal investment and your family and expensive possessions deserve this type of protection.

Talk with your Hansen Pole Buildings’ Designer today at 1(866)200-9657 to find out what a lifetime of protection will involve.

Tornado Proof: Pole Buildings Can Limit Damage

Thanks to www.ocala.com May 24, 2011 for their article, “Florida Building Codes Limit Tornado Damage”

While surveying tornado damage in Tuscaloosa, Ala., University of Florida researcher David O. Prevatt said he was struck by the city’s large number of old homes susceptible to storm damage.

“We have to expect this sort of damage unless we decide to do something differently,” said Prevatt, an assistant professor of civil and Rural Tornadocoastal engineering.

Prevatt is the principal investigator of a research project documenting damage from the tornado that devastated Tuscaloosa last month. He’s planning to make a similar trip to Joplin, Mo., where one of the deadliest U.S. twisters on record struck Sunday and killed at least 116 people.

Prevatt believes that new building codes, like those instituted in response to hurricanes in Florida, could reduce some of the damage from tornadoes in those areas.

“We can probably save some damage and probably save some lives as well,” he said.

Hurricanes are a bigger concern than tornadoes in Florida, said David Donnelly, Alachua County’s emergency management director.

Florida, he said, doesn’t typically get the extreme twisters that have recently struck Alabama and Missouri.

“Florida as a whole doesn’t really see those type of tornadoes,” he said.

There are exceptions. In February 1998, violent tornadoes that swept across four counties in Central Florida killed 41 people. In 2007, 21 people died when tornadoes left a 70-mile trail of destruction across Lake and Volusia counties, including parts of The Villages.

Prevatt said the damage he saw in Tuscaloosa included buildings knocked off their foundations and homes where roofs were nowhere to be found. He made a trip last year to Hiroshima, so he can compare the devastation in Alabama to photos he saw of Hiroshima after the atomic bombing.

Tuscaloosa “really looked like a bomb site,” he said.

Prevatt and researchers from several other universities spent a week in Tuscaloosa documenting damage to about 150 homes. Their work is being funded by the National Science Foundation and International Association for Wind Engineering.

Now his attention is turning to Joplin, where more than 2,000 structures were leveled. He expects to travel there late this week or early next week, after conditions improve.

Modern pole building design allows for structures to be designed to withstand or reduce damage from tornado winds. Columns embedded into the ground eliminate the weak point of stick frame construction in the connection of walls to foundations. The embedment itself can be designed to withstand uplift and overturning forces for any desired wind speed.

Roof trusses can be attached directly to the columns using seven gauge steel brackets with through bolts. This connection eliminates another noted stick frame weakness – connecting trusses to wall top plates, which is typically done with either toe nails, or light gauge steel connectors.

The Florida Building Code has the most stringent wind requirements in the United States. The 29 gauge steel roofing and siding has Florida approvals to be used in hurricane regions. With appropriate spacing of framing members, this steel cladding, attached with properly placed diaphragm screws, will withstand even the highest recorded wind speeds.  Pole building designs may help to reduce damage and save lives.