Product Details:
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Product Name: | STD Truck Tyre Net Marine Pneumatic Rubber Fender | Size: | Customized |
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Material: | Natural Mixed Rubber , Reinforcement Tyre Cord | OEM: | Available |
Initial Internal Pressure: | 0.05mpa , 0.08mpa | Color: | Black |
Usage: | Protects Ship During Ship-to-ship Operations Or Mooring At Quay | Warranty: | 2 Years |
Highlight: | Truck Tyre Yokohama Floating Fenders,Mooring Yokohama Floating Fenders,Ship To Ship Floating Fenders |
Mooring Truck Tyre Yokohama Floating Fenders Ship To Ship Protection
Yokohama Floating Fenders, also known as rubber Yokohama fender, is installed on the quay or ship to absorb the collision energy between the ship and the quay or the ship when berthing or mooring, to protect the ship and the quay from damage.
Advantages of Yokohama Floating Fenders
Advantages During Inclined Berthing
During berthing, the initial contact with the dock is usually at an oblique angle and that places a lot of pressure on both surfaces (the dock and the ship).
For typical solid rubber fenders, at inclined compression which is usually the case, energy absorption decreases considerably. Therefore, it is not unusual to see solid fenders used are larger in sizes. On the other hand, pneumatic fenders’ energy absorption maintains at a relatively high level despite inclined compression. Due to a more evenly distribution of load pressure, the torque performance against the dock is usually smaller when compared to conventionally designed solid fender systems.
Stronger Against Shearing Force
After making contact with the dock, the vessel is usually slowly moved to the optimum mooring position. This action exerts high shearing force and compression on the surface of fenders. Most solid fenders are severely damaged due to such forces as they are not designed to withstand strong shearing forces and friction that way. However, it depends on the designs/types of solid fenders. For example, MAX frontal pads for solid fenders are designed to tackle this issue and protect the fenders from shearing forces, in which the surface of fenders do not make contact with the ship.
Relatively Safe Even During Excess Load
Generally speaking, all fenders should be used within the impact load limit. However in real life situations, it is common to see that fenders often accidentally receive excess loads. When that happens, the fortunate thing about a pneumatic fender is that the reaction force does not increase sharply under excessive load. In contrast, solid fenders’ reaction forces tend to spike sharply under excessive load conditions and damage the ship during the mooring process. This is also helped by pneumatic type fenders’ characteristic that enables a more uniform distribution of stress.
Tide Adaptation
Pneumatic fenders are primarily floating-types, which means the fenders float on the water in an unrestricted vertical plane corresponding to the tidal range and ship’s vertical movement. Therefore, fender energy absorption always take place at the most optimum position.
Specificaton of Pneumatic Rubber Fender
Size | Initial Internal Pressure 50kPa | Initial Internal Pressure 50kPa | |||
Diameter/ Meter |
Length /Meter |
Energy Absorption /KJ | Reaction Force /KN | Energy Absorption /KJ | Reaction Force /KN |
0.5 | 1 | 6 | 64 | 8 | 85 |
0.7 | 1.5 | 17 | 137 | 24 | 180 |
1.0 | 1.5 | 32 | 182 | 45 | 239 |
1.0 | 2.0 | 45 | 257 | 63 | 338 |
1.2 | 2.0 | 63 | 297 | 88 | 390 |
1.5 | 3.0 | 153 | 579 | 214 | 761 |
1.7 | 3.0 | 191 | 639 | 267 | 840 |
2.0 | 3.5 | 308 | 875 | 430 | 1150 |
2.5 | 4.0 | 663 | 1381 | 925 | 1815 |
2.5 | 5.5 | 943 | 2019 | 1317 | 2653 |
3.0 | 5.0 | 1050 | 2000 | 1571 | 2709 |
3.0 | 6.0 | 1312 | 2488 | 1888 | 3292 |
3.3 | 4.5 | 1175 | 1884 | 1640 | 2476 |
3.3 | 6.0 | 1675 | 2783 | 2338 | 3652 |
3.3 | 6.5 | 1814 | 3015 | 2532 | 3961 |
Notice Of Fender Application And Storage
1. The fender pressure should be kept in the standard pressure ,within the rate of ± 5% range.
2. Often check the pressure , when the pressure drops, Inflate the fender in time, so as not to affect the normal use of the fender.
3. When connecting the fender with a steel wire rope, the wire rope should be fitted with a rubber sleeve to avoid damage to the fender
4. Do not touch the fender surface with the the sharp objects , to prevent piercing the fender. If the fender's surface is damaged, it will affect the lifespan of the fender.
5. When the fender is in normal use, the fixing points should be firm, prevent the detachment and wash away the fender. Suspension of the rope and hook ring should be connected orderly , can’t be in a mess.
6. If the fender won’t be used in a long time , to clean the fender surface with fresh water, and place the fender in a dry, cool, ventilated place, without direct sunshine.
7. When the fender is stored for a long time, the pressure should be reduced and the fender should be placed far away from the heat source.
8. Because the fender is rubber product, should try to avoid the fireworks, not contact with acid, alkali, oil and other organic solution
9. When the fender is stored, it shall not be folded or stacked, and don’t stack other objects on the fender.
Pressure Compression Test
Contact Person: Cathy Zhang
Tel: +86 18560625373