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Large New Composite Autoclave Carbon Fiber Prepreg Autoclave For Yacht/Ship/Aircraft Radome
The composite autoclave molding process is the main method for producing high-quality advanced resin-based composite products for aerospace. It is suitable for the production of a variety of materials, as long as the curing cycle, pressure and temperature are within the limits of the autoclave. All materials can be produced. Another advantage is that it has great flexibility in pressurizing composite parts. It can both pressurize and evacuate, and can meet the requirements of removing small molecules such as solvents and compacting prepregs.
The autoclave molding process mainly includes prepreg laying, curing, demoulding and other processes. The prepreg laying process needs to be pre-compacted to eliminate the gas in the prepreg. During the curing process, it must continue to be eliminated. The gas in the prepreg must also prevent the resin from being absorbed by the auxiliary materials.
The main physical and chemical processes that occur in the autoclave molding composite material process are:
1. The flow of resin ensures that the fibers in the part are fully infiltrated and each layer of prepreg is accurately placed.
2. Compaction of the fiber network, applying a certain amount of pressure to remove the gaps in the resin collective, so as to maximize the fiber volume content in the composite material.
3. Reasonable heat transfer process to ensure full curing of the resin collective.
The temperature, pressure and vacuum of the carbon fiber composite autoclave produced by our company can be adjusted according to the process during use. Therefore, choosing a carbon fiber composite autoclave with precise temperature control according to the process is one of the necessary choices. Top priority.
| Description | Unit | Specifications And Parameters |
| Working Diameter | mm | 3000 |
| Working Length | mm | 5000 |
| Equipment Diameter | mm | 3500 |
| Equipment Length | mm | 6000 |
| Max. Working Pressure | bar | 19 |
| Max. Working Temperature | ºC | 260 |
| Max. Pressurization Rate (Average) | Bar/min | 0-1 |
| Max. Depressurization Rate (Average) | Bar/min | 0-1 |
| Max. Heating Rate(Air Average) | ºC/min | 0-3 |
| Max. Cooling Rate (Air Average) | ºC/min | 0-3 |
| Temperature Uniformity At Steady State | ºC | ≤±2 |
| External Shell Temperature At Max. Temperature | ºC | ≤55 |
| Quick Openning Door Mode | - | Hydraulic Door Opening |
| Working Medium | - | Compressed Air Or Nitrogen Pressurization |
| Heating Mode | - | Stainless Steel Electric Heating |
| Quantity Of Circulating Fan Motor | SET | 1 |
| Thermocouple Type | - | Type K Or J |
| Vacuum Ports | PIECE | 6 |
| Min. Vacuum Pressure | bar | -0.85 |
| Standard Control Mode | - | PLC Logic Control |
| Insulation Form | - | Internal Insulation |
| Exterior Color | - | Customized |
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