SLACKTIVITY (Samuel Volery, Tobias Rodenkirch) has conducted a UV-light-exposition test in a permanent midline that was up for 7 months over summer. The tested slacklines were not in the shade but rigged in full exposition to the sun. Five different Slacktivity webbings were tested:
The main line as well as the backup have been tested. After about 1500 hours in the sun the breaking strength of the mainline has decreased an avarage of about 8kN (=800kg) and the one of the backup has decreased by about 7kN. The complete study can be read in the following pdf document.
TEAR IT UP
Knot breaking by SLACKTIVITY
Author: Daan Nieuwenhuis
Break tests: Daan Nieuwenhuis & Samuel Volery
Pictures by: Daan Nieuwenhuis
Since a few years the low-tension lines have become more of a standard. This new style brings new styles of rigging, one of these is tying knots in the back up webbing. But what does a knot in webbing actually hold? How does the knot influence the breaking strength of the webbing? As SLACKTIVITY we also had the goal to test out multiple knots to connect our back-up webbing to the mainline in our Type B webbings (redTube & pinkTube). This is done by making a knot in your back up webbing, and connect it to a T-Loop with a quicklink.
WARNING: Knots can be complicated and hard to check properly. Don’t use them if you’re not 100% sure that the knot is correct, or if there is nobody that has the knowledge to double check it. Even after tying a knot 20 times, mistakes can still happen. Always double check each other rigs.
Because slacklining is still a young sport and there are still few materials and standards that are geared to the slackline application, material from other applications (from sports and industrial climbing to industrial applications) is used.
Here in this article it is shown that this is carabiners can be used in a few applications while slacklining. Be aware that you never use aluminum carabiners in your rig. They tend to break under cyclid load.
This video shows how the carabiner shape affects the breaking load of triangular loads.