The following article is courtesy of Black Diamond Equipment.
From the Black Diamond Harness Instructions:
How strong is a belay loop?
A Black Diamond harness belay loop can withstand 15 kN (3372 lbf) of force.
The CE required testing is a bit difficult to describe, but basically, the belay loop must withstand 15 kN for a period of 3 minutes.
Actual Black Diamond test data:
Though our inline batch test rating is 3372 lbf, we regularly see belay loops test to over 6000 lbf, with a historical
average of over 5000 lbf.
** Note: I've tested several other manufacturers' belay loops and they all are in the same ballpark for ultimate strength.
How long should a harness last?
CARE AND MAINTENANCE
- Machine wash your harness in warm water on a gentle cycle. Use a mild soap, no bleach. Anytime your harness gets wet, allow it to drip dry away from
direct sunlight before storing.
- Harnesses must not come into contact with corrosive materials such as battery acid, solvents, gasoline or chlorine bleach.
- Do not allow your harness to be exposed to temperatures above 140° F (60° C) or below -80° F (-62° C).
- Do not sew, resew, burn or singe loose threads, bleach the webbing, file a buckle, modify, or change a harness in any way.
STORAGE AND TRANSPORT
- Never store a wet or damp harness.
- Store all of your gear in a clean and dry environment, out of direct sunlight and away from heat sources.
- Keep harnesses and other sewn climbing equipment away from gnawing rodents and pets.
- The nylon in your harness will weaken with age if not stored free from mildew, UV light, temperature extremes or other harmful agents. If a harness
has been properly stored for ten years or more, retire it.
- With normal use and proper care, the life expectancy of your harness is approximately three years, and can be longer or shorter depending on how frequently
you use it and on the conditions of its use.
Factors that reduce the lifespan:
- Abrasion, cuts, wear
INSPECTION AND RETIREMENT
Inspect your harness for signs of damage and wear before and after each use. It is vitally important that your harness be in good condition. A damaged
harness must be retired immediately.
Retire a harness immediately if:
There is any kind of rip or hole in the webbing.
The webbing is burnt, singed, or melted.
There are any torn threads, or heavy abrasion to the webbing.
Bar tacks are abraded or showing wear.
One of the buckles is cracked, corroded, has a burr, or is damaged or deformed in any way.
The webbing is faded from exposure to ultraviolet light.
If a harness has been involved in a severe fall, but is not obviously damaged, it still may be ready for retirement. If you have any doubts about the dependability
of your harness, retire it and get a new one.
Anytime you retire a piece of gear, destroy it to prevent future use.
**Note: most other climbing gear manufacturer's have similar warnings, instructions, timelines on their products as well.
What could have happened to Todd's belay loop?
When I first heard of the accident, I was hypothesizing that he just missed clipping into his belay loop—maybe he was tired, with tons of gear, ropes, rack, pack etc all clustered around—and when he clipped his GriGri to his harness, he just missed the belay loop and leaned back for the rappel. I couldn't believe that his belay loop broke—because like I mentioned in the rope breakage report, I am a firm believer of "belay loops just don't break." There must have been some outside circumstances involved. It raises many questions:
Could Todd's belay loop have been SO worn that it broke under bodyweight?
Could it have been affected by acid?
Could it have been affected by some other chemical (bleach, DEET, etc) that caused it to weaken?
Could it have been so worn, dried out by the sun, or rotten, etc. that it failed under body weight?
Could it have been affected by some other outside circumstances that caused it to fail during rappelling?
Some Unofficial, Incomplete, One-Data Point, For-Curiosity-Only Experiments
To satisfy my own curiosity I decided to test several belay loops with different levels of wear: cut approx 50% through, cut up to 80% through, cut close
to 90% through, two tacks cut, all tacks heavily abraded on a file surface, structural web heavily abraded on a file surface, etc. By no means are
these experiments complete or conclusive as there are many variables that were not, but could be looked at like: belay loop construction (2 tacks vs.
4 tacks, protective non-structural layer over top of the tacks), material used (nylon vs. polyester), UV degradation, environmental, wear, etc, etc.
Basically, the results were what I was expecting. Belay loops are burly—really burly. To have one fail at body weight loads, or even small shock
loads which could happen during rappelling is possible, but the belay loop would have to be SO worn through that it seems very unlikely.
Below are some photos of the different belay loops I tested (before they were pulled to failure) and their tested values.
A Final Word
Is this incident going to cause every climber out there to start wanting two belay loops, or tying a backup webbing belay loop in their current harness
or throw their harness away altogether and buy a new one immediately? It shouldn't. Reputable manufacturer's make burly harnesses—bottom line—and
don't forget that there are some negatives/concerns about using two belay loops at once in some situations (i.e. tri-axial loading carabiners, etc.)—not
Harnesses, and belay loops in particular are super strong for sure, but we can't forget that gear does wear out. Every climber is responsible to know the
history of his or her gear and act accordingly. When people ask me about worn gear, or gear that's been dropped, or has undergone a strange or peculiar
event, I always have to play the conservative card of "when in doubt, retire it"—because the last thing you want to be thinking of in the back
of your mind when you're 20 feet above your last piece of sketchy gear is... "geez, I wonder if that's that biner that I dropped that time," or "I
sure hope my harness is in good enough shape to withstand this monster whipper I'm about to take." It's not worth having to worry about—I personally
have a hard enough time worrying about trying NOT to fall!
Climb Safe: Retiring Old Ropes
Climb Safe: Dangers of Rope Worn Carabiners
Climb Safe: The Electric Harness Acid Test
Kolin Powick (KP) is a mechanical engineer hailing from Calgary, Canada. He has over 20 years of experience in the engineering field and served as Black Diamond’s Director of Quality for over 11 years. He is currently their Climbing Category Director. If you have a technical question for KP, please email him at firstname.lastname@example.org and he will TRY to respond.
To help make more climbers safer climbers, Rock and Ice has teamed up with Black Diamond Equipment to present the information here.