Selection and ranking of dental restorative composite materials using hybrid Entropy-VIKOR method: An application of MCDM technique.

The objective of this investigation was to design the selection and ranking of dental restorative composite materials using hybrid Entropy-VIKOR as the MCDM method. Eleven performance defining attributes (PDAs) of dental composites were considered to investigate the best formulation among the dental composites. The weight criteria of various PDAs of the dental composite were calculated by the Entropy method: PDA-1(0.

Ranking and selection of dental restorative composite materials using FAHP-FTOPSIS technique: An application of multi criteria decision making technique.

In the present investigation, the optimal formulations of dental restorative composite materials were designed using hybrid FAHP (Fuzzy Analytic Hierarchy Process)-FTOPSIS (Fuzzy Technique for Order of Preference by Similarity to Ideal Solution) methodology of statistical techniques. The dental composite was composed of an organic matrix and different types and ratios of inorganic filler. The various performance defining attributes (PDAs) such as compressive strength, flexural strength, depth of cure, and polymerization shrinkage were taken into account to evaluate the optimal formulation of dental restorative composite materials.

Dental restorative composite materials: A review.

Background: This review article discusses the effect of reinforcements in the parent dental restorative materials that results in enhanced performance in real-time situations.

Highlight: The review article includes the details of the properties of different reinforced dental composite materials such as mechanical strength, thermal properties, physical/chemical properties, tribological performance.

Conclusion: It revealed that nanofiller particles enhance the properties of various dental composite materials.