Influence of contamination on resin bond strength to nano-structured alumina-coated zirconia ceramic

Zhang S, Kocjan A, Lehmann F, Kosmač T, Kern M. Influence of contamination on resin bond strength to nano‐structured alumina‐coated zirconia ceramic. Eur J Oral Sci 2010; 118: 396–403. © 2010 The Authors. Journal compilation © 2010 Eur J Oral Sci The purpose of this study was to evaluate the influen...

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Published in:European journal of oral sciences 2010-08, Vol.118 (4), p.396-403
Main Authors: Zhang, Shanchuan, Kocjan, Andraž, Lehmann, Frank, Kosmač, Tomaž, Kern, Matthias
Format: Article
Language:English
Subjects:
Acid Etching, Dental
Aluminum Oxide - chemistry
bond strength
Carbon Compounds, Inorganic - chemistry
Coated Materials, Biocompatible - chemistry
Coloring Agents - chemistry
Composite Resins - chemistry
contamination
Dental Bonding
Dental Materials - chemistry
Dental Polishing
Dental Porcelain - chemistry
Dental Stress Analysis - instrumentation
Dentistry
Humans
Materials Testing
Methacrylates - chemistry
Microscopy, Electron, Scanning
nano-structured alumina-coated zirconia
Nanostructures - chemistry
Phosphates - chemistry
phosphoric acid cleaning
Phosphoric Acids - chemistry
resin bonding
Resin Cements - chemistry
Saliva
Silicon Compounds - chemistry
Silicones - chemistry
Stress, Mechanical
Surface Properties
Temperature
Tensile Strength
Time Factors
Water - chemistry
Yttrium - chemistry
Zirconium - chemistry
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Summary:Zhang S, Kocjan A, Lehmann F, Kosmač T, Kern M. Influence of contamination on resin bond strength to nano‐structured alumina‐coated zirconia ceramic. Eur J Oral Sci 2010; 118: 396–403. © 2010 The Authors. Journal compilation © 2010 Eur J Oral Sci The purpose of this study was to evaluate the influence of contamination and subsequent cleaning on the bond strength and durability of an adhesive resin to nano‐structured alumina‐coated zirconia ceramic. Zirconia ceramic disks were coated with nano‐structured alumina, utilizing the hydrolysis of aluminum nitride powder. After immersion in saliva or the use of a silicone disclosing agent, specimens were cleaned with phosphoric acid etching or with tap water rinsing only. Uncontaminated specimens served as controls. Plexiglas tubes filled with composite resin were bonded with a phosphate monomer [10‐methacryloxydecyl‐dihydrogenphosphate (MDP)]‐containing resin (Panavia 21). Subgroups of eight specimens each were stored in distilled water at 37°C, either for 3 d without thermal cycling (TC) or for 150 d with 37,500 thermal cycles from 5 to 55°C. The tensile bond strength (TBS) was determined using a universal testing machine at a crosshead speed of 2 mm min−1. The topography of the debonded surface was scrutinized for fractographic features, utilizing both optical and scanning electron microscopy. The TBS to uncontaminated nano‐structured alumina‐coated zirconia ceramic was durable, while contamination significantly reduced the TBS. Phosphoric acid cleaning was effective in removal of saliva contamination from the coated bonding surface but was not effective in removal of the silicone disclosing agent. Nano‐structured alumina coating improves resin bonding to zirconia ceramic and eliminates the need for air‐abrasion before bonding.
ISSN:0909-8836
1600-0722
DOI:10.1111/j.1600-0722.2010.00752.x