Automatic Aluminobond ACP Panel peeling machine
Automatic Aluminobond ACP Panel peeling machine is an innovative solution designed to efficiently separate aluminum plates and plastic plates of aluminum-plastic panel sheets in a single operation.
Introduction:
Automatic Aluminobond ACP Panel peeling machine is an innovative solution designed to efficiently separate aluminum plates and plastic plates of aluminum-plastic panel sheets in a single operation.
This advanced machinery eliminates the need for additional crushing processes, achieving a remarkable 100% separation rate between aluminum and plastic sheets.
By stripping the aluminum sheet from the plastic layer in one seamless action, it not only enhances productivity but also ensures that the materials can be recycled effectively.
This machine is ideal for businesses looking to optimize their processing of aluminum composite panels, making it a crucial asset for industries focused on sustainability and resource recovery.
With its reliable performance and ease of use, the aluminum composite panel peeling machine significantly streamlines the recycling process.
How to peel and separate Aluminobond ACP Panel
The automatic peeling method for composite plates efficiently enhances the separation of metal plates from a core plate through a series of well-coordinated processes.
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Initially, the composite board is fed along the designated direction and then extruded through specially designed press rollers featuring surface protrusions.
This step forms inward recesses on both sides of the composite board, increasing the contact area between the metal and core plates.
Simultaneously, both sides of the extruded composite sheet are sprayed and heated, leveraging the differing thermal expansion coefficients of the materials involved.
As the metal and core plates expand, they naturally detach from each other, facilitated by the pits formed during the roller pressing.
This method not only improves the efficiency of the peeling process but also augments the overall surface area, further optimizing the separation dynamics for composite materials.