A pictoral representation of UIAA-101 and EN-892 standards for ropes.
10.0mm Rock 25m Dry
Special treatment that increases the rope's life span and prevents dirt and water seepage.
|Weight|| 66.0 g/m|
3.637 lbs / 1650 g
|Diameter (millimeters)||10.0 mm|
|Length (meters)||25 m|
|UIAA Falls (Single / Half / Twin)||7 falls / 0 falls / 0 falls|
|Dynamic Elongation (Single / Half / Twin)||31.9 % / 0.0 % / 0.0 %|
|Static Elongation (Single / Half / Twin)||6.3 % / 0.0 % / 0.0 %|
|Impact Force (Single / Half / Twin)||8.70 kN / 0.00 kN / 0.00 kN|
|Sheath Proportion (%)|||
|Sheath Slippage (mm)||0 mm|
|Type of Middle Mark||Marking|
|Rope End Marker||None|
|RFID / NFC Option|
RFID and NCF
This technology can be helpful if you are a gym or professional business where you'd like to track the usage and age of your ropes.
RFID is how items are uniquely identified using radio waves (Radio Frequency Identification). It's for 1-way communication from 10cm to 100m away depending on the frequency. Example: Airport Baggage.
NFC is a subset of RFID that is restrained to close proximity communication typically less than 10cm (Near Field Communication). NFC chips can operate a 2-way signal to exchange information. Example: Apple Pay.
|Certification||CE, EN, UIAA|
The UIAA equipment standard provides a baseline for equipment performance in a test lab under controlled conditions on new equipment. Although these test conditions are relevant to the conditions encountered climbing, conditions encountered at the crags and the condition of the equipment are equally important. This recommendation from the UIAA member federation The British Mountaineering Council (BMC) provides vital equipment information that is NOT explicitly addressed in the standard, particularly failure modes of the equipment and recommendations for the use, inspection, maintenance, and retirement of equipment.