Effects of an adhesion promoter on the debond resistance of a metal-polymethylmethacrylate interface

Ohashi, Kevin L.; Yerby, Scott A.; Dauskardt, Reinhold H.

doi:10.1002/1097-4636(20010305)54:3<419::aid-jbm160>3.0.co;2-3

Cited by 12 publications

(6 citation statements)

References 25 publications

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“…10). This is in accordance with recent findings that failure occurs within the silane layer 20. Based on the bond‐strength values of the various bonds at the SS–acrylic interface in the silanated samples (i.e., SiC, 451 kJ/mol; CC, 607 kJ/mol; CO, 1077 kJ/mol; and SiO, 800 kJ/mol),26 failure is predicted to occur between the Si and C atoms of the organosilane.…”

Section: Resultssupporting

confidence: 91%

“…The bonding between the reinforcements (with the exception of PMMA fibers) and the acrylic bone cement is extremely poor, as observed by failure at the reinforcement–cement interface 14, 18, 19. The improvement in adhesion between the acrylic matrix and the reinforcement through the use of a coupling agent (silane bonding agents) increases the mechanical properties of acrylic bone cements 20, 21. These organosilane agents improve bonding by the formation of strong covalent bonds in place of weak secondary bonds (van der Waals) between the acrylic matrix and reinforcements 21–23.…”

Section: Introductionmentioning

confidence: 99%

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Adhesion enhancement of steel fibers to acrylic bone cement through a silane coupling agent

Kotha

Lieberman

Vickers

et al. 2005

J Biomedical Materials Res

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The use of a silane coupling agent (methacryloxypropyl-trichlorosilane) to improve the mechanical properties of steel fiber-reinforced acrylic bone cements was assessed. Changes to the tensile and fracture properties of bone cements reinforced with silane-coated or uncoated 316L stainless steel fibers of different aspect ratios were studied. Contact-angle measurements indicated that the coupling agent coats the metal surface through room temperature treatments in a short time (within 2 h). Push-out tests indicated that the interfacial shear strength of silane-coated 316L stainless steel rods is 141% higher than the uncoated rods. The elastic moduli, ultimate stresses, and fracture toughness of the silane-coated, steel fiber-reinforced bone cements are significantly higher than the bone cements reinforced with uncoated steel fibers. There were no differences in the tensile mechanical properties of the silane-coated or uncoated, steel fiber-reinforced cements after aging in a physiological saline solution, indicating that the bonding effectiveness is decreased by the intrusion of water at the metal-polymer interface. Because of possible biocompatibility issues with leaching of the silane coupling agent and no long-term mechanical benefit in simulated aging experiments, the use of these agents is not recommended for in vivo use.

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Section: Resultssupporting

confidence: 91%

Section: Introductionmentioning

confidence: 99%

Adhesion enhancement of steel fibers to acrylic bone cement through a silane coupling agent

Kotha

Lieberman

Vickers

et al. 2005

J Biomedical Materials Res

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“…Both the metal-cement [Ohashi et al, 2001] and the bone-cement [Gough and Downes, 2001] interfaces are vulnerable to debonding. The physiological environment is found to be highly destructive to the metal-cement bond where destructive hydrolytic processes commonly occur [Ohashi et al, 2001]. An adhesion promoter can be added to the PMMA cement to try to prolong adhesion between metal and PMMA [Ohashi et al, 2001].…”

Section: Debonding Of the Cement To Either The Implant Or The Bonementioning

confidence: 99%

“…The physiological environment is found to be highly destructive to the metal-cement bond where destructive hydrolytic processes commonly occur [Ohashi et al, 2001]. An adhesion promoter can be added to the PMMA cement to try to prolong adhesion between metal and PMMA [Ohashi et al, 2001]. Another means of improving PMMA adhesion to the metal is to pretreat the metal surface of the implant with a silica/silane coating [Fischer et al, 2001].…”

Section: Debonding Of the Cement To Either The Implant Or The Bonementioning

confidence: 99%

Orthopaedic Prostheses

2004

Series on Biomaterials &Amp; Bioengineering

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“…While the majority of these efforts have studied organosilane molecules as primers, confined to the substarte surface, there exist a few instances where their use as additives, blended into the polymer layer, has been explored [4][5]. Even fewer studies, however, have addressed organosilane use with respect to the issues of subcritical debonding and threshold or near-threshold debond growth [6][7][8]. The latter is of considerable importance for the materials system under consideration, which exhibits anomalous behavior in the near-threshold region [9].…”

Section: Introductionmentioning

confidence: 99%

The Role of Nanoscale Confinement of Adhesion Promoting Molecules on the Adhesion and Resistance to Moisture Attack at the Polymer/Silicon Nitride Interface

Sharratt

Dauskardt

2006

MRS Proc.

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The interface between a highly-crosslinked polymer film and a thin silicon nitride layer can be regulated using adhesion promoting molecules. This work compares the effects of both indirect polymer/inorganic interface chemistry modification by blending organosilane adhesion promoting molecules into the polymer layer, and direct modification by confining the organosilane molecules to the substrate surface. Of particular interest are the effects of these modifications on the occurrence of an anomalous subcritical debonding phenomenon previously observed for the unmodified interface. While significantly different adhesion values were measured, the influence of the blended organosilanes was limited to moderating moisture diffusion through the polymer layer, which correllates with moderated near-threshold growth rates. Conversely, nanoscale confinement of the adhesion promoting molecules did not result in expected universal increases in adhesion energy but did inhibit anomalous debonding behavior.

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Effects of an adhesion promoter on the debond resistance of a metal-polymethylmethacrylate interface

Cited by 12 publications

References 25 publications

Adhesion enhancement of steel fibers to acrylic bone cement through a silane coupling agent

Adhesion enhancement of steel fibers to acrylic bone cement through a silane coupling agent

Orthopaedic Prostheses

The Role of Nanoscale Confinement of Adhesion Promoting Molecules on the Adhesion and Resistance to Moisture Attack at the Polymer/Silicon Nitride Interface

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