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一种对热循环作用于牙科修复材料基体-填料界面影响的数值、理论和实验研究。

A numerical, theoretical and experimental study of the effect of thermocycling on the matrix-filler interface of dental restorative materials.

机构信息

CEMEF Centre de Mise En Forme des Matériaux, MINES ParisTech, PSL Research University, UMR CNRS 7635, Sophia Antipolis, CS10 207, France.

CEMEF Centre de Mise En Forme des Matériaux, MINES ParisTech, PSL Research University, UMR CNRS 7635, Sophia Antipolis, CS10 207, France; UFR d'Odontologie Nice Côte d'Azur, Université Nice Sophia Antipolis, Nice, France.

出版信息

Dent Mater. 2021 May;37(5):772-782. doi: 10.1016/j.dental.2021.01.010. Epub 2021 Feb 16.

DOI:10.1016/j.dental.2021.01.010
PMID:33608140
Abstract

OBJECTIVE

Thermocycling is widely used to age dental composites but with very different results from one study to another, even with apparent similar conditions. This study aims at understanding better the relative damaging speed of matrix and fillers, based on theoretical models.

METHODS

Eight formulations of an experimental dental material were produced. The same organic matrix was used and silanated barium glass particles were added as fillers with different filler ratios. Samples were thermocycled up to 10 000 cycles. Three-point bending tests were carried out at different steps. The yield stress was measured among other mechanical properties.

RESULTS

Composite properties were degraded by thermocycling. The decrease was slight during the first 5 000 cycles whereas it decreased significantly after 10 000 cycles. The Turcsányi model asserts that the interface yield stress is slightly affected in the first 5 000 cycles and then falls down, while the decrease of matrix yield stress is linear.

SIGNIFICANCE

Each component of a composite does not age at the same rate. First, the matrix acts as a protector until the water finds its way to the interphase. The filler silanization treatment is highly sensitive to hydrolysis and is damaged rapidly from that moment. Numerical simulations and surface observations confirmed that cracks appear to propagate in the neighbourhood of the interface but not directly within it.

摘要

目的

热循环广泛用于老化牙科复合材料,但即使在明显相似的条件下,不同研究的结果也大不相同。本研究旨在根据理论模型更好地了解基质和填料的相对破坏速度。

方法

制备了八种实验性牙科材料的配方。使用相同的有机基质,并添加不同填料比的硅烷化钡玻璃颗粒作为填料。对样品进行热循环,直至达到 10000 次循环。在不同阶段进行三点弯曲试验。测量了屈服应力等其他机械性能。

结果

热循环会降低复合材料的性能。在前 5000 次循环中,下降幅度较小,而在 10000 次循环后,下降幅度显著。Turcsányi 模型认为,在最初的 5000 次循环中,界面屈服应力受到轻微影响,然后下降,而基质屈服应力的下降是线性的。

意义

复合材料的每个成分都不会以相同的速率老化。首先,基质充当保护剂,直到水找到进入界面的途径。填料的硅烷化处理对水解非常敏感,从那一刻起就迅速受损。数值模拟和表面观察证实,裂纹似乎在界面附近而不是直接在界面内扩展。

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