Influence of filler types on wear and surface hardness of composite resin restorations

Chen, Fei; Sun, Lijuan; Luo, Hao; Yu, Peng; Lin, Jiang

doi:10.1177/22808000231193524

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2024

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Cited by 4 publications

References 28 publications

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Enhancing vinyl ester composites with biocarbon from pineapple leaf fiber and dragon fruit peel waste: a characterization study

Mani,

Jinu,

Priyan

2024

Biomass Conv. Bioref.

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Enhancing vinyl ester composites with biocarbon from pineapple leaf fiber and dragon fruit peel waste: a characterization study

Mani,

Jinu,

Priyan

2024

Biomass Conv. Bioref.

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Effect of toothpaste with different components on toothbrushing wear resistance of micro-hybrid/nano-filled resin composites

Byeon,

Park,

Kim

et al. 2023

kjdm

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Evaluation of the Mechanical Properties of Different Dental Resin-Based Materials After Submersion in Acidic Beverages

Brânzan,

Tărăboanță,

Ghiorghe

et al. 2024

Dentistry Journal

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Background: The aim of this study was to evaluate the influence of acidic beverages on the mechanical properties of various dental resin-based materials. Material and Method: A total number of 160 samples were prepared using four types of resin-based materials—Group A (n = 40): flowable composite, Group B (n = 40): heavy-flow composite, Group C (n = 40): resin-based sealant and Group D (n = 40): nano-hybrid composite. Then, the samples were distributed into four subgroups according to the submersion solution: a (n = 10): artificial saliva, b (n = 10): coffee, c (n = 10): cola and d (n = 10): red wine. The Vickers microhardness, Young’s modulus of elasticity and scratch resistance were assessed using a CETR UMT-2 tribometer. Results: The obtained results showed that 14-day submersion of the resin-based materials in coffee, cola and red wine solutions significantly (p < 0.05) decreased the microhardness values (VHN), Young’s modulus of elasticity and scratch resistance. Fourteen days of storage in coffee decreased the microhardness values of flow resin from 117.5 to 81.59 VHN (p < 0.001) whereas the values of the nanohybrid resin decreased from 125.5 to 89.4 (p < 0.001). The elasticity modulus of the heavy flow resin showed a decline from 15.57 to 10.50 GPa after 14 days’ submersion in coffee (p < 0.001), and from 21.29 to 13.10 GPa for the nanohybrid resin after immersion in cola (p < 0.001). For the scratch test, the resin-based sealant showed a significant decrease after 14 days of storage in coffee, from 0.34 to 0.02 units. Conclusions: The submersion of conventional nanohybrid, flowable, heavy-flow composite resins and resin-based sealants in coffee, cola and red wine solutions changes the mechanical properties (Young’s modulus of elasticity, Vickers microhardness and scratch resistance). The most resistant resin-based material to acid attack was the conventional nanohybrid composite resin, followed by heavy flow resin, flowable resin and resin-based sealant.

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Influence of filler types on wear and surface hardness of composite resin restorations

Cited by 4 publications

References 28 publications

Enhancing vinyl ester composites with biocarbon from pineapple leaf fiber and dragon fruit peel waste: a characterization study

Enhancing vinyl ester composites with biocarbon from pineapple leaf fiber and dragon fruit peel waste: a characterization study

Effect of toothpaste with different components on toothbrushing wear resistance of micro-hybrid/nano-filled resin composites

Evaluation of the Mechanical Properties of Different Dental Resin-Based Materials After Submersion in Acidic Beverages

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