The Nylacast Big Foot crane outrigger pad has been utilised as a key safety product for major crane hire companies and operators for many decades.
Nylacast Big Foot was developed in conjunction with industrial demand, where a need arose for a reliable, strong and safe crane outrigger pad. The pad needed to be made from tough, affordable material, strong enough to withstand heavy load yet still be light and easily manoeuvrable by users.
Stable support for crane outriggers is essential for safe operation. With Nylacast Big Foot you can be sure you are using the correct tool for the job.
Unfortunately the capsizing of cranes can occur and cause a significant injuries and fatalities. Many of these accidents are caused by operators using inappropriate materials or the use of no crane pads at all.
When weighing up the small cost involved in providing a stable support for the outriggers and preventing damage to the ground surface, in comparison to the high capital equipment costs involved with cranes, Nylacast Big Foot makes perfect sense.
To demonstrate the strength and recovery of Nylacast Big Foot in comparison to standard PE crane mats, two tests were conducted utilising the same size sample of each material, 250mm x 50mm x 25mm.
Each material was put under the same load (3080 N), this resulted in the PE 500 Confetti material having 25mm flex, with Nylacast’s Big Foot material only flexing 6.5mm. Each sample was then photographed after 5 seconds of the load being lifted from the pad sample.
Whilst the PE 500 Confetti remained curved and deformed the Nylacast Big Foot material recovered instantly with significantly less deformation. A second test was conducted to investigate how much load is needed for Nylacast’s Big Foot material to flex to 25mm. This resulted in being 11,802 N which is 3.8 times more load than the 3080 N it took to flex the PE 500 Confetti to 25mm.
The results from this test should only be used to serve as a comparison between materials. The tests were conducted in laboratory conditions, real life environment, equipment and load conditions may vary from user to user.