| HurriQuake Nails - Science Insider
Reported March 2007
BACKGROUND: A newly designed nail can withstand hurricane winds and earthquakes. Independent testing showed that the HurriQuake nail can double a home's resistance in high winds and provide up to 50-percent more resistance to earthquake-scale forces. It's also affordable, adding only $15 to the cost of building a new house.
THE DESIGN: The bottom section of the HurriQuake nail is circled with angled barbs that resist pulling out in wind gusts up to 170 mph. This "ring shank" stops halfway up to leave the middle of the nail, which endures the most punishment during an earthquake, at its maximum thickness and strength. The blade-like facets of the nail's twisted-top -- the spiral shank -- keeps planks from wobbling, which weakens a joint. The HurriQuake's head is also 25-percent larger than average to better resist counter-sinking and pulling through.
ABOUT HURRICANES: A hurricane is a type of tropical cyclone, a low-pressure system that usually forms in the tropics and has winds that circulate counterclockwise near the earth's surface. Storms are considered hurricanes when their wind speeds surpass 74 mph. Every hurricane arises from the combination of warm water and moist warm air. Tropical thunderstorms drift out over warm ocean waters and encounter winds coming in from near the equator. Warm, moist air from the ocean surface rises rapidly, encounters cooler air, and condenses into water vapor to form storm clouds, releasing heat in the process. This heat causes the condensation process to continue, so more and more warm moist air is drawn into the developing storm, creating a wind pattern that spirals around the relatively calm center, or eye, of the storm, much like water swirling down a drain. The winds keep circling and accelerating to form a classic cyclone pattern.
WHAT CAUSES QUAKES? An earthquake is a vibration that travels through the earth's crust. It can be caused by any number of things, including meteor impacts, underground explosions or collapsing structures, such as a mine. But most naturally occurring earthquakes are caused by the movement of the earth's tectonic plates. The earth's surface is made up of large plates that slide over the underlying layer. At the plate boundaries, plates can move apart, push together, or slide against each other.
WHOSE FAULT IS IT, ANYWAY? Wherever plates meet, there will be faults at the boundaries: breaks in the earth's crust where the blocks of rock on each side are moving in different directions. There are many different kinds of faults, but in all of them, the various blocks of rock push together tightly and produce a lot of friction. If there is a large enough amount of friction the plates can become locked, increasing the pressure until the plates suddenly give way and snap forward suddenly, sending out a series of seismic waves. These fault lines are the main source of earthquakes.
The American Society of Civil Engineers contributed to the information contained in the TV portion of this report.
If you would like more information, please contact:
Todd Langston
Director, Brand Management
Stanley Bostitch
1 Briggs Drive
East Greenwich, RI 02818
(401) 884-2500 ext. 32768
tlangston@stanleyworks.com
American Society of Civil Engineers
(703) 295-6404
jbuhrman@asce.org
|
ON THE WEB...
Stanley Bostitch |
