2022
DOI: 10.1002/masy.202100325
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Polydopamine as Adhesion Promotor: The Effect of Thermal Treatment on the Performance of Poly(lactic acid) (PLA)‐Metal Co‐molded Joints

Abstract: Molecular interactions in polymer/metal oxide interfaces are of paramount interest in polymer composite applications, including comolding of polymer-metal joints, additive manufacturing, and mold release. This study shows the potential of biomimetic polydopamine (PDA) layers to control polymer-metal adhesion covering a range from strong bonding to release for poly(lactic acid) (PLA) adhering to two metals of significant commercial importance, i.e., titanium (Ti) and stainless steel (SS). The results show that … Show more

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Cited by 2 publications
(2 citation statements)
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“…However, this result was unexpected since the low temperature used in the ALD process (for deposition of TiO 2 layers) should not lead to PDA graphitization. Notwithstanding, a dehydration reaction occurring normally in this temperature range in the PDA layer would reduce the concentration of hydroxyl groups present at the PDA surface, thus converting the more GO-like structure into a more rGO-like one. Moreover, the 2D peak is shifting toward lower wavenumbers with increasing layers, further suggesting transformation into rGO-like structure …”
Section: Results and Discussionmentioning
confidence: 99%
“…However, this result was unexpected since the low temperature used in the ALD process (for deposition of TiO 2 layers) should not lead to PDA graphitization. Notwithstanding, a dehydration reaction occurring normally in this temperature range in the PDA layer would reduce the concentration of hydroxyl groups present at the PDA surface, thus converting the more GO-like structure into a more rGO-like one. Moreover, the 2D peak is shifting toward lower wavenumbers with increasing layers, further suggesting transformation into rGO-like structure …”
Section: Results and Discussionmentioning
confidence: 99%
“…As mentioned in our previous work, , the interfacial work of adhesion ( G a ) can be estimated by using the following equation: G normala = F normalo 2 ( 4 π 2 r 3 E f ) 1 where r is the radius, E f is the wire’s modulus, and F o is the debonding force in zero friction conditions . The value of F o can be obtained from the pullout curves (indicated in Figure A), while the values of the diameter and modulus of the respective wires are known.…”
Section: Resultsmentioning
confidence: 99%