J Korean Acad Prosthodont.  2007 Feb;45(1):21-33.

Comparison of mechanical properties in 4 indirect composite resin

Affiliations
  • 1Department of Prosthodontics and Institute of Oral Bio Science, School of Dentistry, Chonbuk National University, Korea. sgahn@chonbuk.ac.kr

Abstract

STATEMENT OF PROBLEM: The esthetic component of dental care has become increasingly more important, while new tooth-colored materials are continually marketed. Various new indirect composite materials have been developed with required advantages. The most recent development in the indirect composites has been the introduction of the second-generation laboratory composite or poly-glass materials. They are processed by different laboratory techniques based on combinations of heat, pressure, vacuum and light polymerization. Although, second generation products became available in 1995, their characteristics and clinical performance have not been adequately investigated. PURPOSE: The aim of this study was to measure the mechanical properties of the second generation indirect resin system and compare these with an existing universal direct composite resin. MATERIAL AND METHOD: In this study four indirect composite material (Adoro LC, BelleGlass HP, Tescera, Synfony) were tested for flexural strength, wear resistance, hardness and their degree of conversion against Z250, a light cure direct composite.
RESULTS
Within the limitations of this study, the following conclusions were drawn: 1. From the abrasion wear result, Adoro showed the least volume loss while Synfony showed the greatest volume loss. Z250 and BelleGlass HP didn't show significant difference (p>0.05), but they showed significant difference with other groups (p<0.05). From the attrition wear, BelleGlass HP showed the least volume loss and it didn't show significant difference with Tescera (p>0.05). While Synfony showed the greatest volume loss that it showed significant difference with other groups (p>0.05). 2. Mean values of flexural strength by means of three point bending test was in the order of Z250, Adoro, Belleglass HP, Tescera and Synfony. Mean elastic modulus was in the order of Z250, BelleGlass HP, Tescera, Adoro and Synfony. 3. The result of Vicker's microhardness value showed that significantly higher value in Z250 (p<0.05), and is in the order of BelleGlass HP, Tescera, Adoro and Synfony. 4. The degree of conversion measured by FT-IR showed significantly higher value in BelleGlass HP (p<0.05), and is in the order of Adoro, Synfony, Tescera and Z250.
CONCLUSION
Significant differences were found in the flexural strength, wear resistance, hardness and their degree of conversion.

Keyword

Indirect resin; Wear; Vicker's microhardness; Degree of conversion

MeSH Terms

Dental Care
Elastic Modulus
Hardness
Hot Temperature
Polymerization
Polymers
Vacuum
Polymers
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