Introducing the PEGE Small Size Cryogenic Rubber Deflashing/Deburring Machine for Rubber Parts, model PG-40T. Specifically designed for precision and efficiency.
PROCESSING PRINCIPLE
Our advanced Cryogenic deflashing technology employs a state-of-the-art system where rubber or plastic parts are placed in a chamber, subjected to ultra-low temperatures using liquid nitrogen. They are then tumbled in a barrel and impacted with polycarbonate media for optimal results.
Due to their thinner surface area compared to their mass, burrs and flashes freeze rapidly and become brittle. The subsequent tumbling and media impact remove these burrs without compromising the integrity of the parts.
Upon completion, the parts gradually return to room temperature. This cryogenic deburring process ensures a pristine, residue-free finish with 100% burr removal, perfect for high-precision applications.
Cryogenic deburring and deflashing are perfect for an array of components including die-cast metal parts, complex rubber parts, precision elastomeric parts, medical parts, and microelectronic components.
SPECIFICATIONS
USA, Mexico
Australia, New Zealand
Poland, Croatia, Slovenia, Hungary, Greece
Russia, Malaysia, Thailand, Vietnam, India
MACHINE INNER COMPONENTS PICTURES
PROCESS RESULT COMPARISON
OPERATION PROCESS
APPLICATIONS
A. Suitable for O-rings and irregular rubber parts of various materials and sizes.
B. Ideal for microelectronic product parts.
C. Perfect for precision elastomeric parts.
D. Applicable to precision injection moulding plastic parts.
E. Excellent for R&D part runs.
F. Great for die-cast products such as zinc, aluminum, and magnesium alloys.
ADVANTAGES
Cryogenic deflashing offers numerous advantages over manual and traditional methods.
The process maintains part integrity and adheres to critical tolerances.
As a batch process, it significantly reduces the price per piece by processing many parts simultaneously.
Cryogenic deflashing extends the life of molds by eliminating the need for frequent replacements or repairs, which usually involve high costs and downtime.
The process is fully computer-controlled, eliminating variability due to human operators.
It ensures consistent results across different lots.
Cryogenic deflashing is a non-abrasive method.
The cost per part is generally lower compared to alternative techniques.
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