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Adhesion improvement at the PMMA bone cement-titanium implant interface using methyl methacrylate atmospheric pressure plasma polymerization

Pieter Cools (UGent) , Nathalie De Geyter (UGent) , Els Vanderleyden (UGent) , Fabrizio Barberis, Peter Dubruel (UGent) and Rino Morent (UGent)
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Keywords
Titanium implants, DIELECTRIC BARRIER DISCHARGE, PMMA plasma polymerization, PMMA bone cement, Dielectric barrier discharge, Adhesion, SURFACE MODIFICATION, INITIATED POLYMERIZATION, POLYMETHYL-METHACRYLATE, MASS-SPECTROMETRY, HIP-ARTHROPLASTY, GLOW-DISCHARGE, FILMS, DEPOSITION, JET

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Chicago
Cools, Pieter, Nathalie De Geyter, Els Vanderleyden, Fabrizio Barberis, Peter Dubruel, and Rino Morent. 2016. “Adhesion Improvement at the PMMA Bone Cement-titanium Implant Interface Using Methyl Methacrylate Atmospheric Pressure Plasma Polymerization.” Surface & Coatings Technology 294: 201–209.
APA
Cools, Pieter, De Geyter, N., Vanderleyden, E., Barberis, F., Dubruel, P., & Morent, R. (2016). Adhesion improvement at the PMMA bone cement-titanium implant interface using methyl methacrylate atmospheric pressure plasma polymerization. SURFACE & COATINGS TECHNOLOGY, 294, 201–209.
Vancouver
1.
Cools P, De Geyter N, Vanderleyden E, Barberis F, Dubruel P, Morent R. Adhesion improvement at the PMMA bone cement-titanium implant interface using methyl methacrylate atmospheric pressure plasma polymerization. SURFACE & COATINGS TECHNOLOGY. 2016;294:201–9.
MLA
Cools, Pieter et al. “Adhesion Improvement at the PMMA Bone Cement-titanium Implant Interface Using Methyl Methacrylate Atmospheric Pressure Plasma Polymerization.” SURFACE & COATINGS TECHNOLOGY 294 (2016): 201–209. Print.
@article{8199268,
  author       = {Cools, Pieter and De Geyter, Nathalie and Vanderleyden, Els and Barberis, Fabrizio and Dubruel, Peter and Morent, Rino},
  issn         = {0257-8972},
  journal      = {SURFACE & COATINGS TECHNOLOGY},
  keywords     = {Titanium implants,DIELECTRIC BARRIER DISCHARGE,PMMA plasma polymerization,PMMA bone cement,Dielectric barrier discharge,Adhesion,SURFACE MODIFICATION,INITIATED POLYMERIZATION,POLYMETHYL-METHACRYLATE,MASS-SPECTROMETRY,HIP-ARTHROPLASTY,GLOW-DISCHARGE,FILMS,DEPOSITION,JET},
  language     = {eng},
  pages        = {201--209},
  title        = {Adhesion improvement at the PMMA bone cement-titanium implant interface using methyl methacrylate atmospheric pressure plasma polymerization},
  url          = {http://dx.doi.org/10.1016/j.surfcoat.2016.03.054},
  volume       = {294},
  year         = {2016},
}

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