FIBER ROPE GENERAL INFORMATION
Technical Resources
CERTEX USA provides abundant resources for fiber rope.
3 and 8 Strand Constructions
Snapback: A serious hazard is created when a line under load parts because it will recoil at a high speed. A person positioned in the recoil path could be seriously injured if struck by the recoiling line. It’s the responsibility of the user to know and use the proper techniques for the particular application.
Sunlight: All synthetic fiber ropes will undergo degradation with time when exposed to sunlight. Polypropylene is far more susceptible to UV degradation than polyester or nylon. To prolong the life of your ropes, avoid storing them in direct sunlight.
Chemical: Synthetic fibers have good chemical resistance.
However, exposure to harsh chemicals (i.e. strong acids and alkalis) should be avoided.
Damage: Inspect ropes frequently for any signs of damage or wear. Retire any rope that has been cut or is heavily abraded.
Linear Density: Average with maximum 5% more than listed.
Tensile Strengths and Working Loads: As shown in our literature, these strengths are the approximate average for new rope tested under ASTM (D-4268) or Cordage
Institute test methods. The tensile strength is the load at which a new rope tested under laboratory conditions can be expected to break. However, to estimate the minimum tensile strength of a new rope, reduce the approximate average by 15%.
Sunlight: All synthetic fiber ropes will undergo degradation with time when exposed to sunlight. Polypropylene is far more susceptible to UV degradation than polyester or nylon. To prolong the life of your ropes, avoid storing them in direct sunlight.
Chemical: Synthetic fibers have good chemical resistance.
However, exposure to harsh chemicals (i.e. strong acids and alkalis) should be avoided.
Damage: Inspect ropes frequently for any signs of damage or wear. Retire any rope that has been cut or is heavily abraded.
Linear Density: Average with maximum 5% more than listed.
Tensile Strengths and Working Loads: As shown in our literature, these strengths are the approximate average for new rope tested under ASTM (D-4268) or Cordage
Institute test methods. The tensile strength is the load at which a new rope tested under laboratory conditions can be expected to break. However, to estimate the minimum tensile strength of a new rope, reduce the approximate average by 15%.
(Cordage Institute defines minimum tensile strength as two standard deviations below the average tensile strength of the rope). Age, use and the type of termination used including knots will lower tensile strength significantly.
The Cordage Institute specifies that the Safe Working Load of a rope shall be determined by dividing the Minimum Tensile Strength by the Safety Factor. Safety factors range from 5 to 12 for non-critical uses. The working load is a guideline for the use of a rope in good condition for noncritical applications and should be reduced where life, limb, or valuable property are involved, or for exceptional service such as shock, sustained loading, severe vibration, etc.
Stretch Characteristics: Desired stretch is determined by the way in which the rope is used. High stretch rope (nylon) with good energy absorption, is preferred for mooring, anchoring and towing, while low stretch ropes (Dacron, Kevlar, Spectra) are preferred for applications where positioning is critical and energy absorption and high stretch are not desired.
The Cordage Institute specifies that the Safe Working Load of a rope shall be determined by dividing the Minimum Tensile Strength by the Safety Factor. Safety factors range from 5 to 12 for non-critical uses. The working load is a guideline for the use of a rope in good condition for noncritical applications and should be reduced where life, limb, or valuable property are involved, or for exceptional service such as shock, sustained loading, severe vibration, etc.
Stretch Characteristics: Desired stretch is determined by the way in which the rope is used. High stretch rope (nylon) with good energy absorption, is preferred for mooring, anchoring and towing, while low stretch ropes (Dacron, Kevlar, Spectra) are preferred for applications where positioning is critical and energy absorption and high stretch are not desired.
Polypropylene
| Polypropylene | |||
| Nominal Size | Linear Density (Lbs./100Ft.) | New Rope Tensile Strength (Lbs.) | |
| Diameter | Circumference | ||
| 3/16 | 5/8 | .70 | 720 |
| 1/4 | 3/4 | 1.20 | 1,130 |
| 5/16 | 1 | 1.80 | 1,710 |
| 3/8 | 1 1/8 | 2.80 | 2,440 |
| 7/16 | 1 1/4 | 3.80 | 3,160 |
| 1/2 | 1 1/2 | 4.70 | 3,780 |
| 9/16 | 1 3/4 | 6.10 | 4,600 |
| 5/8 | 2 | 7.50 | 5,600 |
| 3/4 | 2 1/4 | 10.70 | 7,650 |
| 13/16 | 2 1/2 | 12.70 | 8,900 |
| 7/8 | 2 3/4 | 15.00 | 10,400 |
| 1 | 3 | 18.00 | 12,600 |
| 1 1/16 | 3 1/4 | 20.40 | 14,400 |
| 1 1/8 | 3 1/2 | 23.80 | 16,500 |
| 1 1/4 | 3 3/4 | 27.00 | 18,900 |
| 1 5/16 | 4 | 30.40 | 21,200 |
| 1 1/2 | 4 1/2 | 38.40 | 26,800 |
| 1 5/8 | 5 | 47.60 | 32,400 |
| 1 3/4 | 5 1/2 | 59.00 | 38,800 |
| 2 | 6 | 69.00 | 46,800 |
| 2 1/8 | 6 1/2 | 80.00 | 55,000 |
| 2 1/4 | 7 | 92.00 | 62,000 |
| 2 1/2 | 7 1/2 | 107.00 | 72,000 |
| 2 5/8 | 8 | 120.00 | 81,000 |
| 2 7/8 | 8 1/2 | 137.00 | 91,000 |
| 3 | 9 | 153.00 | 103,000 |
| 3 1/4 | 10 | 190.00 | 123,000 |
| 3 1/2 | 11 | 232.00 | 146,000 |
| 4 | 12 | 276.00 | 171,000 |
Polyester
| Polyester | |||
| Nominal Size | Linear Density (Lbs./100Ft.) | New Rope Tensile Strength (Lbs.) | |
| Diameter | Circumference | ||
| 3/16 | 5/8 | 1.20 | 900 |
| 1/4 | 3/4 | 2.00 | 1,490 |
| 5/16 | 1 | 3.10 | 2,300 |
| 3/8 | 1 1/8 | 4.50 | 3,340 |
| 7/16 | 1 1/4 | 6.20 | 4,500 |
| 1/2 | 1 1/2 | 8.00 | 5,750 |
| 9/16 | 1 3/4 | 10.20 | 7,200 |
| 5/8 | 2 | 13.00 | 9,000 |
| 3/4 | 2 1/4 | 17.50 | 11,300 |
| 13/16 | 2 1/2 | 21.00 | 14,000 |
| 7/8 | 2 3/4 | 25.00 | 16,200 |
| 1 | 3 | 30.40 | 19,800 |
| 1 1/16 | 3 1/4 | 34.40 | 23,000 |
| 1 1/8 | 3 1/2 | 40.00 | 26,600 |
| 1 1/4 | 3 3/4 | 46.20 | 29,800 |
| 1 5/16 | 4 | 52.50 | 33,800 |
| 1 1/2 | 4 1/2 | 67.00 | 42,200 |
| 1 5/8 | 5 | 82.00 | 51,500 |
| 1 3/4 | 5 1/2 | 98.00 | 61,000 |
| 2 | 6 | 118.00 | 72,000 |
| 2 1/8 | 6 1/2 | 135.00 | 83,000 |
| 2 1/4 | 7 | 157.00 | 96,500 |
| 2 1/2 | 7 1/2 | 181.00 | 110,000 |
| 2 5/8 | 8 | 204.00 | 123,000 |
| 2 7/8 | 8 1/2 | 230.00 | 139,000 |
| 3 | 9 | 258.00 | 157,000 |
| 3 1/4 | 10 | 318.00 | 189,000 |
| 3 1/2 | 11 | 384.00 | 228,000 |
| 4 | 12 | 454.00 | 270,000 |
Nylon
| Nylon | |||
| Nominal Size | Linear Density (Lbs./100Ft.) | New Rope Tensile Strength (Lbs.) | |
| Diameter | Circumference | ||
| 3/16 | 5/8 | 1.00 | 900 |
| 1/4 | 3/4 | 1.50 | 1,490 |
| 5/16 | 1 | 2.50 | 2,300 |
| 3/8 | 1 1/8 | 3.50 | 3,340 |
| 7/16 | 1 1/4 | 5.00 | 4,500 |
| 1/2 | 1 1/2 | 6.50 | 5,750 |
| 9/16 | 1 3/4 | 8.15 | 7,200 |
| 5/8 | 2 | 10.50 | 9,350 |
| 3/4 | 2 1/4 | 14.50 | 12,800 |
| 13/16 | 2 1/2 | 17.00 | 15,300 |
| 7/8 | 2 3/4 | 20.00 | 18,000 |
| 1 | 3 | 26.40 | 22,600 |
| 1 1/16 | 3 1/4 | 29.00 | 26,000 |
| 1 1/8 | 3 1/2 | 34.00 | 29,800 |
| 1 1/4 | 3 3/4 | 40.00 | 33,800 |
| 1 5/16 | 4 | 45.00 | 38,800 |
| 1 1/2 | 4 1/2 | 55.00 | 47,800 |
| 1 5/8 | 5 | 66.50 | 58,500 |
| 1 3/4 | 5 1/2 | 83.00 | 70,000 |
| 2 | 6 | 95.00 | 83,000 |
| 2 1/8 | 6 1/2 | 109.00 | 95,500 |
| 2 1/4 | 7 | 129.00 | 113,000 |
| 2 1/2 | 7 1/2 | 149.00 | 126,000 |
| 2 5/8 | 8 | 168.00 | 146,000 |
| 2 7/8 | 8 1/2 | 189.00 | 162,000 |
| 3 | 9 | 210.00 | 180,000 |
| 3 1/4 | 10 | 264.00 | 226,000 |
| 3 1/2 | 11 | 312.00 | 270,000 |
| 4 | 12 | 380.00 | 324,000 |
Manila (Grade A #1)
| Manila (Grade A #1) | |||
| Nominal Size | Linear Density (Lbs./100Ft.) | New Rope Tensile Strength (Lbs.) | |
| Diameter | Circumference | ||
| 3/16 | 5/8 | 1.50 | 406 |
| 1/4 | 3/4 | 2.00 | 540 |
| 5/16 | 1 | 2.90 | 900 |
| 3/8 | 1 1/8 | 4.10 | 1,220 |
| 7/16 | 1 1/4 | 5.25 | 1,580 |
| 1/2 | 1 1/2 | 7.50 | 2,380 |
| 9/16 | 1 3/4 | 10.40 | 3,100 |
| 5/8 | 2 | 13.30 | 3,960 |
| 3/4 | 2 1/4 | 16.70 | 4,860 |
| 13/16 | 2 1/2 | 19.50 | 5,850 |
| 7/8 | 2 3/4 | 22.40 | 6,950 |
| 1 | 3 | 27.00 | 8,100 |
| 1 1/16 | 3 1/4 | 31.20 | 9,450 |
| 1 1/8 | 3 1/2 | 36.00 | 10,800 |
| 1 1/4 | 3 3/4 | 41.60 | 12,200 |
| 1 5/16 | 4 | 47.80 | 13,500 |
| 1 1/2 | 4 1/2 | 60.00 | 16,700 |
| 1 5/8 | 5 | 74.50 | 20,200 |
| 1 3/4 | 5 1/2 | 89.50 | 23,800 |
| 2 | 6 | 108.00 | 28,000 |
| 2 1/8 | 6 1/2 | 125.00 | 32,400 |
| 2 1/4 | 7 | 146.00 | 37,000 |
| 2 1/2 | 7 1/2 | 167.00 | 41,800 |
| 2 5/8 | 8 | 191.00 | 46,800 |
| 2 7/8 | 8 1/2 | 215.00 | 52,000 |
| 3 | 9 | 242.00 | 57,500 |
| 3 1/4 | 10 | 298.00 | 69,500 |
| 3 1/2 | 11 | 366.00 | 82,000 |
| 4 | 12 | 434.00 | 94,500 |
Double Braid Constructions
| Double Braid Polyester | Double Braid Nylon | ||||
| Nominal Size | Avg. T.S. | Weight Per 100′ | Avg. T.S. | Weight Per 100′ | |
| Diameter | Circumference | ||||
| 3/16 | 9/16 | 1,200 | 1.1 | — | — |
| 1/4 | 3/4 | 2,000 | 1.9 | 2,200 | 1.6 |
| 5/16 | 1 | 3,000 | 3.1 | 3,400 | 2.5 |
| 3/8 | 1 1/8 | 4,400 | 4.4 | 4,900 | 3.6 |
| 7/16 | 1 1/4 | 6, 000 | 6.1 | 6,600 | 4.9 |
| 1/2 | 1 1/2 | 8,200 | 8.0 | 8,500 | 6.3 |
| 9/16 | 1 3/4 | 11,000 | 10.1 | 10,800 | 8.0 |
| 5/8 | 2 | 14,000 | 12.6 | 13,500 | 10.0 |
| 3/4 | 2 1/4 | 20,000 | 17.5 | 19,400 | 14.3 |
| 13/16 | 2 1/2 | — | — | — | — |
| 7/8 | 2 3/4 | 29,900 | 23.7 | 26,300 | 19.4 |
| 1 | 3 | 38,000 | 33.0 | 34,000 | 25.4 |
| 1 1/8 | 3 1/2 | 46,000 | 42.0 | 46,000 | 35.0 |
| 1 1/4 | 3 3/4 | 55,000 | 51.0 | 52,000 | 40.0 |
| 1 5/16 | 4 | 61,000 | 57.0 | 58,000 | 45.0 |
| 1 1/2 | 4 1/2 | 72,000 | 68.0 | 74,000 | 58.0 |
| 1 5/8 | 5 | 89,000 | 85.0 | 90,000 | 71.0 |
| 1 3/4 | 5 1/2 | 104,000 | 101.0 | 106,000 | 85.0 |
| 2 | 6 | 124,000 | 123.0 | 126,000 | 102.0 |
| 2 1/8 | 6 1/2 | 145,000 | 144.0 | 145,000 | 119.02 |
| 2 1/4 | 7 | 166,000 | 168.0 | 166,000 | 138.0 |
| 2 1/2 | 7 1/2 | 190,000 | 196.0 | 189,000 | 159.0 |
| 2 5/8 | 8 | 212,000 | 216.0 | 213,000 | 181.0 |
| 2 3/4 | 8 1/2 | 234,000 | 246.0 | 237,000 | 204.0 |
| 3 | 9 | 278,000 | 293.0 | 261,000 | 228.0 |
| 3 1/4 | 10 | 326,000 | 344.0 | 319,000 | 282.0 |