Rubber Debonding
Complete removal of rubber bonds from metal substrates. Our chemical process safely dissolves rubber adhesives while preserving the integrity of steel, aluminum, and specialty alloys.
We remove rubber, urethane, paint, powder coating, polymers and adhesives — returning your steel, copper, aluminum, and titanium to pristine, pre-bonded condition.
Proprietary processes that safely breaks the adhesive bond while preserving the integrity of the metal.
Complete removal of rubber bonds from metal substrates. Our chemical process safely dissolves rubber adhesives while preserving the integrity of steel, aluminum, and specialty alloys.
Specialized process for removing cured polyurethane from metal parts. Ideal for recovering bonded rollers, wheels, and industrial components without substrate damage.
Complete stripping of powder coatings, industrial paints, and polymer finishes. Returns metal to bare, ready-to-use condition without abrasion or thermal damage.
Real results that impact your bottom line and environmental footprint.
Compared to purchasing new metal components
No-cost sample processing and detailed cost-benefit assessment
From aerospace to railways, we help manufacturers across America recover their metal assets.
Send us your samples for free processing and cost analysis.
Submit samples of your bonded or coated metal parts for our engineers to analyze.
We process your samples at no cost and provide a detailed cost analysis and timeline.
Once approved, we process your full batch and return pristine, pre-bonded metal.
Drag the slider to see the transformation. Our chemical process removes bonded materials without damaging the metal.
For over four decades, PolyMet Recovery has been the trusted partner for manufacturers of rubber-bonded and polymer-coated products. We've earned authorization as a reclaimer from Fortune 100 industrial companies across the United States.
Our process removes bonded materials without compromising the metal.
Send us samples of your metal parts for free processing and cost analysis.