Flexural properties of fiber reinforced composite using a vacuum/pressure or a manual adaptation manufacturing process

Behr, Michael and Rosentritt, Martin and Lang, R. and Handel, G. (2000) Flexural properties of fiber reinforced composite using a vacuum/pressure or a manual adaptation manufacturing process. JOURNAL OF DENTISTRY, 28 (7). pp. 509-514. ISSN 0300-5712

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Abstract

Purpose: This study investigated the influence of fiber content and water storage on the flexural strength of beams made of two fiber-reinforced composites (FRC), the Vectris and the FibreKor system. Material and methods: A manual adaptation method (FibreKor, n = 30) and a vacuum/pressure process (Vectris, n = 30) were compared using 25 x 4 x 2 mm(3) beams. One group of the Vectris (n = 10) and the FibreKor beams (n = 10) was stored in water for 24 h, a further group was thermal-cycled (TC) 6000 x 5 degrees C/55 degrees C, and a third group was stored in water for 30 days at 37 degrees C. All beams were then loaded to failure using a three-point bending test and the flexural strength was calculated. Finally, the fiber volume percent (vol%) was determined. Results: Generally, the flexural strength decreased significantly with increasing storage time independent of the investigated fiber- and/or manufacturing system. With the parameters 24 h/TC/30 days, the mean of flexural strength for the Vectris beams was 618/579/545 N/mm(2), and for FibreKor 585/534/499 N/mm(2). A fiber content of 28.1 +/- 0.4 vol% was assessed for the Vectris beams and 12.8 +/- 0.6 vol% for the FibreKor beams. After 24 h storage in water, the Vectris and the FibreKor beams demonstrated a statistically significant higher flexural strength than after 30 days storage in water. Conclusions: A vacuum/pressure manufacturing process in contrast to manual adaptation, resulted in a markedly higher fiber content, but did not necessarily lead to significantly higher flexural strength. Not only the fiber content, but also matrix composition as well as the bond between fibers and matrix determined the properties of FRC. (C) 2000 Elsevier Science Ltd. All rights reserved.

Item Type: Article
Uncontrolled Keywords: ACRYLIC RESIN COMPOSITE; POLY(METHYL METHACRYLATE); GLASS-FIBER; DENTISTRY; STRENGTH; INTERFACE; POLYMERS; fiber reinforced composite packing; flexure strength
Subjects: 600 Technology > 610 Medical sciences Medicine
Divisions: Medicine > Lehrstuhl für Zahnärztliche Prothetik
Depositing User: Dr. Gernot Deinzer
Date Deposited: 28 Mar 2022 07:09
Last Modified: 28 Mar 2022 07:09
URI: https://pred.uni-regensburg.de/id/eprint/42239

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