QC Lab: Weakness of Nose-hooked Carabiners
Why is the carabiner's breaking strength so low when loaded in this manner? It's a combination of an open gate scenario coupled with the fact that the carabiner basket is being cantilevered off of the bolt hanger/sling/Stopper wire, meaning the load is not in line with major axis (i.e., the carabiner's spine). This off-axis loading causes the carabiner to be excessively torqued and break at an extremely low load.
Black Diamond manufactures a lot of carabiners, and therefore Black Diamond tests a lot of carabiners. We not only understand the loads at which carabiners break, but also the modes (i.e., location of breakages), depending on the way it was loaded. So it's possible to look at where a carabiner is broken and have a good idea of how it was loaded.
The photos below show typical failure locations for one style of carabiner tested in four different configurations. As you can see, a nose-hooked carabiner will most often break at the top of the spine, while open and closed gate failures typically occur at the bottom of the spine, and minor axis failures almost always occur at the gate.
[Disclaimer: All carabiners are different, and detailed analysis of the particular carabiner's geometry and failure modes is necessary in order to be able to estimate the particular loading scenario with any level of confidence.]
Closed Gate Failure
Open Gate Failure
MInor Axis Failure
Nose Hooked Failure
When a carabiner is loaded while the nose is hung-up on a bolt hanger, a leveraging open-gate scenario occurs. Carabiners are significantly weaker in this configuration—less than 10% of closed-gate strength.
How to avoid this? Always ensure that the carabiner's gate is closed and the carabiner is correctly seated.
Climb safe -
Kolin Powick (KP) is a Mechanical Engineer hailing from Calgary, Canada. He has nearly 20 years of experience in the engineering field and has been Black Diamond's Director of Global Quality since 2002. Kolin oversees the testing of all of Black Diamond's gear from the prototype phase through continual final production random sample testing. If you have a technical question for KP, please email him at firstname.lastname@example.org and he will TRY to respond.