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محمد بن عيسى عبدالله الضفيان

Assistant Professor

قسم اصلاح الاسنان-مواد طب الاسنان

كلية طب الأسنان
كلية طب الاسنان، الطابق الأرضي، مكتب رقم ١٥
publication
Journal Article
2021

Influence of curing modes on thermal stability, hardness development and network integrity of dual-cure resin cements

ISSN 0109-5641

Abstract: Objective
To explore the effect of different curing modes of conventional and self-adhesive dual-cure resin cements on their rates of thermal decomposition, hardness development and network integrity.
Methods
Five self-adhesive (PANAVIA SA, RelyX Universal Resin, RelyX Unicem 2, Bifix SE and SpeedCEM Plus) and three conventional (PANAVIA V5, Nexus Third Generation and RelyX Ultimate Universal) dual-cure resin cements were investigated. Thermal decomposition stages, initial onset temperatures, the maximum rate of mass-loss and the filler mass-fraction of each resin cement were analysed by thermogravimetric analysis (TGA). Surface hardness was measured at 1h post-cure and after 24h of dry storage at 37°C. The relative network integrities were estimated from reductions in hardness after 168h of water storage. Data were analysed via one-way ANOVA, Tukey post-hoc tests and paired/independent sample t-tests (a=0.05).
Results
No difference was apparent between TGA data for self-cured and light-cured specimens. Numerical differentiation of mass-loss versus temperature showed either single or multiple peaks. For the set of 8 cements, the maximum rate of mass-loss (%/°C) correlated negatively with residual mass at 600°C. All dry-stored cements increased in hardness from 1 to 24h, ranging from 20.4% to 52.6% for light-cure mode and from 41.3% to 112.6% for self-cure. After 168h water storage, the hardness of cements decreased: by 18.5%–36.2% for light-cured and by 9.8%–17.9% for self-cured. Overall, surface hardness was greater for light-cured cements. The initial onset temperature (IOT) of thermal decomposition correlated negatively with the hardness decrease produced by water-storage: r2=0.77 for light-cure and r2=0.88 for self-cure. This provided the basis for a relative scale of composite network integrity, probably reflecting differences in cross-link density.
Significance
Light-curing, where possible, remains beneficial to the hardness and related properties of dual-cure resin cements. Combination of TG analysis and solvent softening experiments give an indication of relative network integrity – between materials – and their relative cross-link densities.
Keywords: Dual-cure cements; Curing modes; Thermogravimetric analysis; Hardness development; Network integrity; Cross-link density

Publication Work Type
Journal Paper
Publisher Name
sciencedirec
Volume Number
Volume 37, Issue 12
Magazine \ Newspaper
Dental Materials
Pages
Pages 1854-1864,
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