Cable floats for submarine cables
| Density : | :0.36g/cm³ |
| Size : | φ80*φ130*100mm |
| Depth : | 300m |
| Application Areas : | submarine cables |
In the field of ocean engineering, cable floating body is an important Marine structure, its design, manufacture and application all bear high technical requirements and safety standards. Cable floating body, as the name suggests, is composed of cable and floating body, through the cable connection and buoyancy of the floating body, play a specific function and role in the Marine environment.
The technical principle of cable floating body mainly involves many disciplines such as buoyancy, material science, ocean engineering and so on. Its core is to use the buoyancy of the floating body to support heavy objects such as ropes or rigging on the sea surface to achieve specific functional requirements. The design of the floating body needs to consider many factors such as its shape, size, material, buoyancy, etc., to ensure that it can work stably in the complex Marine environment. At the same time, the selection and connection technology of the cable is also an important part of the cable floating body technology, which needs to take into account the strength, wear resistance, corrosion resistance and other factors of the cable, as well as the reliability and safety of the connection technology.
Cable floats are widely used in the field of ocean engineering. In offshore oil and gas production, cable floats are often used to connect offshore platforms to submarine pipelines to ensure the stable delivery of oil and gas. In addition, in the fields of Marine scientific research and Marine environment monitoring, the cable float also plays an important role, such as being used to carry scientific research instruments and monitoring equipment, etc., to achieve real-time monitoring and data analysis of the Marine environment.
The technical principle of cable floating body mainly involves many disciplines such as buoyancy, material science, ocean engineering and so on. Its core is to use the buoyancy of the floating body to support heavy objects such as ropes or rigging on the sea surface to achieve specific functional requirements. The design of the floating body needs to consider many factors such as its shape, size, material, buoyancy, etc., to ensure that it can work stably in the complex Marine environment. At the same time, the selection and connection technology of the cable is also an important part of the cable floating body technology, which needs to take into account the strength, wear resistance, corrosion resistance and other factors of the cable, as well as the reliability and safety of the connection technology.
Cable floats are widely used in the field of ocean engineering. In offshore oil and gas production, cable floats are often used to connect offshore platforms to submarine pipelines to ensure the stable delivery of oil and gas. In addition, in the fields of Marine scientific research and Marine environment monitoring, the cable float also plays an important role, such as being used to carry scientific research instruments and monitoring equipment, etc., to achieve real-time monitoring and data analysis of the Marine environment.
The density of solid buoyancy material is 0.3~0.7g/cm³
2.Low Water Absorption
Water absorption rate ≤1%
3.Corrosion Resistance
Seawater corrosion resistance,with good weather resistance
4.High Strength
Compressive strength of 1~100MPa
5.Excellent Machinability
Can be processed according to the different needs of customers
| Standard Performance Table for Solid Buoyancy Materials | |||||
| Item | Model | Density | Depth | Water absorption | Compressive strength |
| (g/cm³) | (m) | (24H) | (MPa) | ||
| Standard performance buoy | HJ-036 | 0.36±0.02 | 200 | ≤1% | ≥8 |
| HJ-038 | 0.38±0.02 | 300 | ≤1% | ≥10 | |
| HJ-040 | 0.4±0.02 | 500 | ≤1% | ≥12 | |
| HJ-042 | 0.42±0.02 | 700 | ≤1% | ≥21 | |
| HJ-045 | 0.45±0.02 | 1000 | ≤1% | ≥24 | |
| HJ-048 | 0.48±0.02 | 2000 | ≤1% | ≥27 | |
| HJ-051 | 0.51±0.02 | 3000 | ≤1% | ≥41 | |
| HJ-054 | 0.54±0.02 | 4500 | ≤1% | ≥55 | |
| HJ-063 | 0.63±0.02 | 6000 | ≤1% | ≥75 | |
| High performance buoy | HJ-035 | 0.35±0.02 | 800 | ≤1% | ≥10 |
| HJ-040 | 0.40±0.02 | 1500 | ≤1% | ≥18 | |
| HJ-045 | 0.45±0.02 | 2500 | ≤1% | ≥28 | |
| HJ-050 | 0.50±0.02 | 3500 | ≤1% | ≥40 | |
| HJ-054 | 0.54±0.02 | 5000 | ≤1% | ≥55 | |
| HJ-057 | 0.57±0.02 | 6000 | ≤1% | ≥68 | |
| HJ-060 | 0.60±0.02 | 7000 | ≤1% | ≥75 | |
| HJ-068 | 0.68±0.02 | 10000 | ≤1% | ≥105 | |
| HJ-072 | 0.72±0.02 | Total depth | ≤1% | ≥120 | |
