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Mustang Jacket & Bibs
Ice Rider
Integrity Float Coats & Pants
Mustang Automatic Inflatable PFD's
Mustang Manual Inflatable PFD's
Mustang Inflatable PFD's with HIT
Mustang Tactical Inflatable PFD's
Fitzwright Ice Rescue Suit
Mustang Special Suits
Mustang Suit Accessories
Mustang Industrial Vests
Mustang Recreation Vests
Flight Suits
Flight Suit Accessories
Fire Retardant
Ocean Class Xtreme
Camo Hunting Gear
Mustang Accessories
Ring Buoy's
Seahorse Safety Vests
Hyde Racing
Quest Meters
SECURE SCREEN

Secure Screen is a retractable garage door screen which can also be adapted to many other uses such as porches, barns and many commercial applications.

Click here for more information

 
SPLICING

Splicing Instructions

Rope splicing is a very strong method of fixing a loop eye or joining two ends together; as the rope is pulled tighter, the spliced strands become more and more squeezed and locked into place.

Splicing Index

 

MANILA ROPE

Add that decorative touch to your house, deck or yard with Manila 3-strand rope.

Click HERE for more information.

 


SUPER POLYPROPYLENE

A premium quality high tenacity polyolefin fiber. Polyolefin offers superior strength to weight ratio and more abrasion resistant than standard polypropylene. Polyolefin retains full strength when wet, floats and may be stored when wet without damage from rot or mildew. Super polypropylene made of polyolefin fiber is resistant to acids, petroleum products and most chemicals.

Used primarily for crab and lobster lines, pot wrap, long lines, seine net lines, aquaculture, snow rope tow, trawl systems, tow lines, buoy moorings, heavy duty tie downs, winch lines, hand lines, tent ropes, and anywhere relative high strength to rope weight is required.

3-Strand Twisted Regular Lay

Super polypropylene is made o fhigh tenacity polyolefin fibers

Diameter Range 1/4" to 4" (6mm to 10mm)
Break  Strength Range 1,700 to 285,200 lbs. (771 to 129,366 kgs)
Available in blue with orange tracer.

Dia. Circ. Linear
Density
Reel Weights Average
Tenacity
Price
600' Reel
600' 1200'
3/16" 5/8" .68 4.08 8.16 1,000 Call for $
1/4" 3/4" 1.20 7.20 14.4 1,600 $27.82
5/16" 1" 1.87 11.22 22.44 2,625 $38.25
3/8" 1-1/8" 2.70 16.2 32.40 3,735 $53.65
7/16" 1-1/4" 3.64 21.84 43.68 4,643 $73.77
1/2" 1-1/2" 4.78 28.68 57.36 6,156 $97.23
9/16" 1-3/4" 6.14 36.84 73.68 8,425 Call for $
5/8" 2" 7.50 45.00 90.00 10,693 $150.88
3/4" 2-1/4" 10.8 64.80 129.6 12,103 $217.94
13/16" 2-1/2" 12.8 76.80 153.6 15,127 Call for $
7/8" 2-3/4" 14.8 88.80 177.6 18,151 $298.41
1" 3" 18.7 112.2 224.4 22,785 $375.53
1-1/16" 3-1/4" 21.2 127.2 254.4 24,800 Call for $
1-1/8" 3-1/2" 23.7 142.2 284.4 26,812 $476.11
1-1/4" 3-3/4" 28.7 172.2 344.4 33,257 $576.70
1-5/16" 4" 31.6 189.6 379.2 37,780 Call for $
1-1/2" 4-1/2" 41.0 246.0 492.0 42,300 $824.81
1-5/8" 5" 47.8 286.8 573.6 55,400 $962.28
1-3/4" 5-1/2" 55.1 330.6 661.2 65,400 Call for $
2" 6" 71.8 430.8 861.6 78,530 Call for $
2-1/8" 6-1/2" 81.1 486.6 973.2 91,100 Call for $
2-1/4" 7" 91.5 549.0 1098 103,700 Call for $
2-1/2" 7-1/2" 111.3 667.8 1335.6 118,700 Call for $
2-5/8" 8" 125.0 750 1500 133,798 Call for $
2-3/4" 8-1/2" 147.0 882 1764 150,883 Call for $
3" 9" 159.0 954 1908 167,968 Call for $
3-1/4" 10" 193.0 1158 2316 206,148 Call for $
3-1/2" 11" 232.0 1392 2784 243,206 Call for $
4" 12" 283.0 1698 3396 286,683 Call for $

Call Jay at 763-263-9835 for freight charges and to order.


TENSILE STRENGTHS: are determined from tests on new, unused rope in accordance with standard test methods of the Cordage Institute.

CAUTION: USE OF WORKING LOADS

Because of the wide range of rope use, rope condition, exposure to the several factors affecting rope behavior, and the degree of risk to life and property involved, it is impossible to make blanket recommendations as to working loads. However, to provide guidelines, working loads are tabulated for rope in good condition with appropriate splices, in non-critical applications and under normal service conditions.

The Cordage Institute Formula for working load is:

Working Load = Minimum Breaking Strength/Safety Factor

A higher working load may be selected only with expert knowledge of conditions and professional estimate of risk. Also, if the rope has not been subject to dynamic loading or other excessive use, has been inspected and found to be in good condition, is to be used in the recommended manner; if the application does not involve elevated temperatures, extended periods under load, or obvious dynamic loading (see explanation below) such as sudden drops, snubs or pickups. For all such applications and for applications involving more severe exposure conditions, or for recommendations on special applications, call Jay at 612-282-4035.

**Many uses of rope involve serious risk of injury to personnel or damage to valuable property. This danger is often obvious, as when a heavy load is supported above one or more workmen. An equally dangerous situation occurs if personnel are in line with a rope under tension. Should the rope fail, it may recoil with considerable force. Persons should be warned against the serious danger of standing in line with any rope under tension. IN ALL CASES WHERE SUCH RISKS ARE PRESENT, THERE IS ANY QUESTION ABOUT THE LOADS INVOLVED OR QUESTIONS ABOUT THE CONDITIONS OF USE, THE WORKING LOAD SHOULD BE SUBSTANTIALLY REDUCED AND THE ROPE PROPERLY INSPECTED.

DYNAMIC LOADING VOIDS NORMAL WORKING LOADS

Normal working loads are not applicable when the rope is subject to significant dynamic loading. Whenever a load is picked up, stopped, moved or swung there is an increased force due to dynamic loading. The more rapidly or suddenly such actions occur, the greater the increase will be. In extreme cases, the force put on the rope may be two, three or even more times the normal involved. Examples could be picking up a tow on a slack line or using a rope to stop a falling object. Therefore, in all such applications such as towing lines, lifelines, safety lines, climbing ropes, etc. working loads as given DO NOT APPLY.

Users should be aware that dynamic effects are greater on a low elongation rope such as polyester than on a high elongation rope such as nylon, and greater on a shorter rope than on a longer one. The working load ratios listed contain provision for very modest dynamic loads. This means, however, that when this working load has been used to select a rope, the load must be handled slowly and smoothly to minimize dynamic effects and avoid exceeding the provision for them.

EFFECT OF TEMPERATURE ON TENSILE STRENGTH

The tensile strength charts apply to ropes tested at normal room temperature (70F). Ropes have lower tensile strengths at higher temperatures. 30F (or more) lower at the boiling point of water (212F) and continuing on down to zero strengths for nylon and polyester at 490F and 300F for polypropylene.

Also, continued exposure at elevated temperatures causes permanent damage. TENSILE STRENGTHS shown are average based on new ropes tested under laboratory conditions, minimum can vary by 10%.

 

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