High Strength Marine Airbag Whole Winding For Middle Size Ship
Ship Launching / Landing Airbags, basic body are consisted of our
rubber layers, synthetic-cord-reinforced rubber layers, are kind of
a cylindrical airbags with hemispherical heads at the both ends.
All of these are vulcanized together, and then compress air inside
to enable it to roll.
1. Outer Rubber
The outer rubber layer protects the cord layers from abrasion and
other external forces. This compound has sufficient tensile and
tear strength to withstand any weather condition and hard usage.
Standard color is black.
2. Synthetic-net-cord layer for reinforcement
The reinforcement cord layers, which are made of
Synthetic-tire-cord commonly used in tires, are arranged at ideal
angles to hold the internal pressure and to distribute the stress
evenly providing strong efficient reinforcement.
3. End Fittings
End fittings include air tightness swivel and airbags safety air
inlet.
The approximate bearing capacity can be calculated as follows:
F=PS
S=π x (D1-D2)/2
Mark:
F: Bearing capacity
P: Inner pressure
S: Contact area
D1: Diameter of airbags when free of loat
D2: Working height of airbags when loaded
Some normal sizes of our marine airbags, other sizes are also
available |
Diameter(m) | Effective Length(m) | Layer | Pressure(MPa) |
1.0 | 10 | 5~6 | 0.07~0.10 |
1.0 | 12 | 5~6 | 0.07~0.10 |
1.0 | 15 | 5~6 | 0.07~0.10 |
1.2 | 10 | 5~6 | 0.08~0.12 |
1.2 | 12 | 5~6 | 0.08~0.12 |
1.2 | 15 | 5~6 | 0.08~0.12 |
1.5 | 12 | 5~8 | 0.08~0.16 |
1.5 | 15 | 5~8 | 0.08~0.16 |
1.5 | 18 | 5~8 | 0.08~0.16 |
1.5 | 20 | 4~8 | 0.08~0.16 |
1.5 | 24 | 5~8 | 0.08~0.16 |
1.8 | 12 | 5~8 | 0.08~0.15 |
1.8 | 15 | 5~8 | 0.08~0.15 |
1.8 | 18 | 5~8 | 0.08~0.15 |
1.8 | 20 | 5~8 | 0.08~0.15 |
1.8 | 24 | 5~8 | 0.08~0.15 |
2.0 | 18 | 6~10 | 0.08~0.18 |
2.0 | 20 | 6~10 | 0.08~0.18 |
2.0 | 24 | 6~10 | 0.08~0.18 |
2.5 | 18 | 7~10 | 0.07~0.13 |
2.5 | 20 | 7~10 | 0.07~0.13 |
2.5 | 24 | 7~10 | 0.07~0.13 |
airbag features
1. Big carrying capacity
2. High capacity against compression and twisting
3. New design of anti-bursting contruction at the end
4. Optimized structural layout
5. Durable aging resistance and anti-wear characteristic
6. Higher flesibility and damping capacity.