Product Specification
|
|
|
|
| Payment Terms |
L/C, D/A, D/P, T/T, Western Union, MoneyGram |
Supply Ability |
50000 Meters Per Month |
| Delivery Time |
5-20 days |
Packaging Details |
Pallet Or As Required |
| Part |
Dock Mooring |
Coil length |
220m |
| Weight and length tolerance |
± 5% |
Spliced strength |
±10% lower |
| U.V.Resistance |
Very Good |
Service |
OEM/ODM |
| Warranty |
12 Months |
Material |
polypropylene,Nylon,polyester,PP,PET/PA/PP/PE as request |
| Color |
white,yellow,blue,black and others as requested,Customers' Requirments |
Usage |
mooring hawser,anchor rope,mooring tail,mooring rope,Package/mooring/towing/fishing |
| Diameter |
4mm-56mm,48,2-160mm (customized),6mm -144mm,24 - 120 mm |
Brand Name |
JC MARINETIME |
| Model Number |
3 / 4 / 8 / 12 STRAND ROPE |
Certification |
ISO / CE |
| Place of Origin |
CHINA |
| |
| High Light |
polypropylene mooring rope 8 strand
,multifilament polypropylene rope for ship
,mooring rope 48mm 120mm sizes
|
1.PHOTOS
2. Main performance
| Material | Polyamide
Multifilament | Polyamide
Yarn | Polypropylene
Multifilament | Polypropylene | Polyester | Polypropylene and
Polyester Mixed |
| Spec.Density | 1.14
no floating | 1.14
not floating | 0.91
no floating | 0.91
Floating | 1.27
no floating | 0.95
Floating |
| Melting Point | 215℃ | 215℃ | 165℃ | 165℃ | 260℃ | 165℃/260℃ |
| Abrasion Resistance | Very Good | Very Good | Medium | Medium | Good | Good |
| U.V.Resistance | Very Good | Very Good | Medium | Medium | Good | Good |
| Temperature resistance | 120℃max | 120℃max | 70℃max | 70℃max | 120℃max | 80℃max |
| Chemical resistance | Very Good | Very Good | Good | Good | Good | Good |
3.Technology Comparison
Coil length: 220m
Spliced strength:± 10% lower
Weight and length tolerance:± 5%
MBL=Minimum Breaking Load conform ISO 2307
Other sizes available upon request
4.Parameter Table
Specification
规格 | PA Multifilament
锦纶复丝 | PAYarn
锦纶 | PP Multifilament
丙纶长丝 | Polypropylene
丙纶 | Polyester
涤纶 | PET/PP Mixed
丙纶/涤纶混合绳 |
| Dia. | Cir | Ktex | KN | Ktex | KN | Ktex | KN | Ktex | KN | Ktex | KN | Ktex | KN |
| 直径 | 圆 周 | 线密度 | 破断强力 | 线密度 | 破断强力 | 线密度 | 破断强力 | 线密度 | 破断强力 | 线密度 | 破断强力 | 线密度 | 破断强力 |
| 4 | 1/2 | 10 | 3.7 | 10 | 2.6 | 6.3 | 2.3 | 6 | 2.1 | 12 | 2.9 | 7.0 | 2.8 |
| 6 | 3/4 | 22 | 7.9 | 22 | 6 | 18 | 6.5 | 17 | 5.9 | 27 | 5.6 | 17.5 | 6.8 |
| 8 | 1 | 40 | 13.8 | 40 | 10.9 | 32 | 11.4 | 30 | 10.4 | 48 | 10.0 | 31 | 11.9 |
| 10 | 1-1/4 | 62 | 21.2 | 62 | 15.7 | 47 | 16.8 | 45 | 15.3 | 76 | 15.6 | 48.5 | 18.2 |
| 12 | 1-1/2 | 89 | 30.1 | 89 | 24.1 | 68 | 23.9 | 65 | 21.7 | 110 | 22.3 | 69.9 | 25.7 |
| 14 | 1-3/4 | 121 | 40.0 | 121 | 33.0 | 95 | 32.9 | 90 | 29.9 | 148 | 31.2 | 95.1 | 34.7 |
| 16 | 2 | 158 | 51.9 | 158 | 42.5 | 121 | 40.7 | 115 | 37.0 | 195 | 39.8 | 124 | 44.8 |
| 18 | 2-1/4 | 200 | 64.3 | 200 | 53.9 | 155 | 51.9 | 148 | 47.2 | 245 | 49.8 | 157 | 56.1 |
| 20 | 2-1/2 | 247 | 79.2 | 247 | 66.7 | 189 | 62.6 | 180 | 56.9 | 303 | 62.3 | 194 | 68.7 |
| 22 | 2-3/4 | 299 | 94.0 | 299 | 80.4 | 231 | 75.0 | 220 | 68.2 | 367 | 74.7 | 235 | 82.1 |
| 24 | 3 | 355 | 112 | 355 | 93.6 | 273 | 87.7 | 260 | 79.7 | 437 | 89.6 | 279 | 96.3 |
| 26 | 3-1/4 | 417 | 129 | 417 | 111.5 | 320 | 101 | 305 | 92.2 | 512 | 105 | 328 | 113 |
| 28 | 3-1/2 | 484 | 149 | 484 | 127 | 373 | 115 | 355 | 105 | 594 | 120 | 380 | 130 |
| 30 | 3-3/4 | 555 | 169 | 555 | 143 | 425 | 132 | 405 | 120 | 682 | 134 | 437 | 148 |
| 32 | 4 | 632 | 192 | 632 | 161 | 483 | 146 | 460 | 132 | 778 | 154 | 497 | 167 |
| 36 | 4 - 1/ 2 | 800 | 240 | 800 | 200 | 614 | 182 | 585 | 166 | 982 | 190 | 629 | 210 |
| 40 | 5 | 987 | 294 | 987 | 241 | 756 | 221 | 720 | 201 | 1215 | 235 | 776 | 257 |
| 44 | 5-1/2 | 1190 | 351 | 1190 | 289 | 924 | 266 | 880 | 242 | 1468 | 275 | 939 | 308 |
| 48 | 6 | 1420 | 412 | 1420 | 338 | 1092 | 308 | 1040 | 280 | 1750 | 329 | 1110 | 364 |
| 52 | 6-1/2 | 1670 | 479 | 1670 | 393 | 1281 | 357 | 1220 | 325 | 2050 | 384 | 1320 | 424 |
| 56 | 7 | 1930 | 550 | 1930 | 450 | 1491 | 408 | 1420 | 371 | 2380 | 439 | 1520 | 489 |
Premium polypropylene (PP) resin pellets—selected for high tensile strength, marine-grade chemical resistance, and low water absorption—are used as the base material. First, the resin is melted in an extruder at a controlled temperature (180–220°C) to form continuous PP filaments. These filaments are then drawn into multifilament bundles (groups of fine, interconnected filaments) to enhance flexibility and strength. The bundles undergo a surface cleaning process to remove residual oils or impurities, ensuring consistent adhesion in subsequent braiding steps. Only filaments meeting strict diameter and tensile standards are retained for rope production.
The cleaned PP multifilament bundles are fed into a stranding machine to create 8 uniform precursor strands. Each bundle is twisted at a precise tension and twist rate (calibrated for PP’s material properties) to form cohesive, durable strands—this twisting process prevents filament separation and ensures the strands hold their shape during braiding. For larger diameters (68mm, 88mm, 120mm), additional multifilament bundles are incorporated into each strand to achieve the required thickness, while maintaining consistency across all 8 strands. The 8 finished strands are wound onto synchronized bobbins, ready for the braiding stage.
The 8 strand bobbins are loaded onto a large-scale circular braiding machine (equipped with adjustable tension controls for diameter customization). The machine interlaces the 8 strands in a tight, interlocking braided pattern—for smaller diameters (48mm), the strands are woven with higher tension to create a dense structure; for larger diameters (88mm, 120mm), the braiding speed is adjusted and strand spacing is optimized to maintain uniformity without compromising strength. Throughout braiding, real-time diameter monitoring (via laser gauges) ensures the rope meets exact specifications (48mm, 68mm, 88mm, 120mm) — critical for compatibility with ship mooring hardware (cleats, winches, bollards).
After braiding, the rope undergoes a heat-setting process to eliminate residual stress and lock in structural stability. The rope is passed through a controlled hot-air oven (80–100°C) at a slow, steady speed—this prevents shrinkage or deformation when exposed to marine temperature fluctuations (e.g., hot deck surfaces or cold seawater). For larger diameters (120mm), additional heat-setting passes may be used to ensure the inner core (integrated with the 8 outer strands) is fully stabilized. Post-heat-setting, the rope is cooled in ambient air to retain its shape and strength.
To enhance performance in ship mooring environments, the rope receives two key treatments:
- Abrasion-Resistant Coating: A thin, flexible PP-compatible polymer coating is applied to the rope’s surface. This coating reinforces resistance to friction from ship hulls, concrete docks, or metal hardware—common sources of wear in mooring applications—without compromising flexibility.
- UV and Chemical Inhibition: The rope is dipped in a UV-stabilizing solution (containing benzophenone-based additives) and dried in a ventilated chamber. This treatment prevents PP fiber brittleness and color fading from prolonged sun exposure. Additionally, a hydrophobic agent is applied to further reduce water absorption (PP is inherently low-absorbency, but this step enhances performance in heavy rain or salt spray).
The treated rope is trimmed to standard lengths (e.g., 20m, 50m, 100m) or custom lengths based on ship requirements. Each rope is then subjected to rigorous quality checks tailored to its diameter:
- Tensile Strength Testing: Using a hydraulic load machine, ropes are tested to ensure they meet load-bearing standards (e.g., 48mm ropes for small ships, 120mm ropes for large cargo vessels).
- Diameter Consistency: Calibrated calipers measure the rope at multiple points to confirm it stays within ±1mm of the target size (48mm/68mm/88mm/120mm).
- Water Absorption Test: Ropes are submerged in saltwater for 24 hours; only those with <1% weight gain (a hallmark of high-quality PP) pass.
- Abrasion Resistance Test: Ropes are rubbed against a concrete surface (simulating dock contact) for 1,000 cycles—fraying or strand damage results in rejection.
Qualified ropes are wound onto corrosion-resistant steel or high-density polyethylene (HDPE) spools (sized to match rope diameter: smaller spools for 48mm, larger heavy-duty spools for 120mm). Each spool is wrapped in moisture-proof, UV-protective plastic film to prevent damage during transit. Labels are affixed to indicate key details: “8-Strand Multifilament PP Mooring Rope,” diameter (48mm/68mm/88mm/120mm), tensile strength, length, and “For Ship Use.” This packaging ensures the rope arrives in ready-to-deploy condition for shipyards or maritime operations.
This rope is designed specifically for ship mooring, with diameters tailored to vessel type and load requirements:
- 48mm Rope: Ideal for small to medium-sized vessels, including fishing boats, tugboats, and recreational yachts (10–20m in length). Used to secure vessels to docks, buoys, or port pilings in calm to moderately rough coastal waters—its compact size ensures easy handling while providing sufficient strength for lighter mooring loads.
- 68mm Rope: Suited for mid-sized commercial vessels, such as cargo ships (20–40m), ferries, and offshore supply boats. Handles higher mooring tensions from wind and waves, making it suitable for port operations (loading/unloading) or temporary mooring in offshore anchorages.
- 88mm Rope: For large commercial ships, including container ships (40–60m), bulk carriers, and cruise ships (small to mid-sized). Used as primary mooring lines or backup lines, it withstands heavy dynamic loads (e.g., strong tides or vessel movement during cargo transfer) and is compatible with large-scale mooring hardware (heavy-duty cleats, winches).
- 120mm Rope: Reserved for extra-large vessels, such as large container ships (over 60m), oil tankers (small to mid-sized), and naval auxiliary ships. Serves as main mooring hawser lines in busy ports or offshore terminals—its exceptional strength and thickness ensure stability even in harsh marine conditions (high winds, rough seas).
In maritime ports and dock facilities, the rope is used to stabilize infrastructure critical to ship operations:
- Securing floating docks, gangways, or loading platforms to fixed pilings—prevents shifting during ship berthing or cargo handling. For example, 68mm or 88mm ropes are used to anchor floating loading ramps for trucks or forklifts accessing ships.
- Reinforcing temporary barriers (e.g., around construction zones in ports) to prevent accidental collisions with ships or equipment. 48mm ropes are often used for lighter barriers, while 120mm ropes secure heavy-duty safety barriers.
It serves as a reliable backup for emergency maritime scenarios:
- Emergency Anchoring: When a ship’s primary anchor line fails, 68mm–88mm ropes are deployed as temporary anchor lines to secure the vessel to a buoy or another ship—preventing drifting in open water or near hazards (reefs, rocks).
- Light-to-Medium Towing: 48mm–68mm ropes are used to tow small vessels (e.g., disabled fishing boats) to safety in calm coastal waters. The rope’s low stretch and high strength ensure stable towing without straining the towed or towing vessel.
On ship decks, the rope is used to secure equipment and cargo during voyages:
- Tying down deck-mounted gear, such as lifeboats, navigation buoys, or maintenance tools—prevents shifting during rough seas. 48mm ropes are ideal for lighter gear, while 88mm–120mm ropes secure heavier equipment (e.g., small cranes or cargo containers).
- Securing temporary cargo (e.g., pallets of supplies, spare parts) on deck—its smooth multifilament surface avoids damaging cargo packaging, and its water resistance prevents degradation from salt spray.
In offshore construction projects (e.g., building wind farms, oil rigs), the rope assists in securing temporary structures:
- Anchoring small offshore platforms (e.g., worker accommodation modules or equipment storage units) to the seabed. 68mm–88mm ropes are used here, as they balance strength and flexibility for dynamic offshore conditions.
- Guiding and stabilizing construction materials (e.g., pipes, concrete blocks) during transport from ships to construction sites—120mm ropes handle the heaviest loads, ensuring materials stay on course in rough waters.
Company Details
Bronze Gleitlager
,
Bronze Sleeve Bushings
and
Graphite Plugged Bushings
from Quality China Factory
-
Business Type:
Manufacturer,Distributor/Wholesaler,Agent,Exporter,Trading Company,Seller
-
-
-
Ecer Certification:
Verified Supplier
+ Read More
