Bülent Bek scite author profile

Maximum voluntary bite force is an indicator of the functional state of the masticatory system and the level of maximum bite force results from the combined action of the jaw elevator muscles modified by jaw biomechanics and reflex mechanisms. The measurement of bite force can provide useful data for the evaluation of jaw muscle function and activity. It is also an adjunctive value in assessing the performance of dentures. Technological advances in signal detection and processing have improved the quality of the information extracted from bite force measurements. However, these measurements are difficult and the reliability of the result depends on a number of factors, such as presence of pain and temporomandibular disorders, gender, age, cranio-facial morphology, and occlusal factors. In addition to these physiological factors, recording devices and techniques are important factors in bite force measurement. Therefore, one should be careful when comparing the bite force values reported in the research.

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The effect of preparation conditions of acrylic denture base materials on the level of residual monomer, mechanical properties and water absorption

Doğan

Bek

Çevik

et al. 1995

Journal of Dentistry

155

113

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Color stability of different denture teeth materials: An in vitro study.

Mutlu-Sagesen

Ergün

Özkan

et al. 2001

Journal of Oral Science

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The evaluation of some flexural properties of a denture base resin reinforced with various aesthetic fibers

Doğan

Bolayır

Keskin

et al. 2007

J Mater Sci: Mater Med

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This study was performed to determine whether some flexural properties of a denture base resin material could be improved through reinforcement with five types of aesthetic fibers at 3% concentration by weight and in 2, 4, and 6 mm length. Five specimens of similar dimensions were prepared for each of the test groups; base resin and the same resin with glass, rayon, polyester, nylon 6 and nylon 6,6 fibers in three different lengths. Flexural properties were evaluated by using a 3-point bending test. A visual examination was also made to determine mode of fracture of the specimens. The incorporation of different fibers in varying lengths had no significant effect on flexural strength of the resin. The specimens reinforced with nylon 6,6 fibers of 6 mm length showed the highest flexural strength. Young's modulus and maximum load suggests that such reinforcement makes resin resistant to fracture.

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Microhardness Evaluation of Resin Composites Polymerized by Three Different Light Sources

et al. 2007

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This study examined the surface microhardness of four kinds of resin composites with different fillers and resin matrices. Ten specimens of 2 mm thickness and 4 mm diameter of each resin composite were polymerized using a halogen light, a blue light-emitted diode, and a plasma arc unit. Microhardness evaluation was performed at top and bottom surfaces for each specimen using a Vickers microhardness tester. Furthermore, morphologies of the polished top surfaces of composites cured with blue light-emitted diode were observed using scanning electron microscopy. Results indicated that composites cured with halogen or blue light-emitted diode light yielded higher microhardness values, although it also appeared to depend on the type of composite cured. Plasma arc curing according to manufacturer' s instructions yielded the lowest microhardness values for all the materials. Among the materials tested, the nanofilled resin composite displayed the highest microhardness values for each curing regime.

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Bülent Bek

Bite Force and Influential Factors on Bite Force Measurements: A Literature Review

The effect of preparation conditions of acrylic denture base materials on the level of residual monomer, mechanical properties and water absorption

Color stability of different denture teeth materials: An in vitro study.

The evaluation of some flexural properties of a denture base resin reinforced with various aesthetic fibers

Microhardness Evaluation of Resin Composites Polymerized by Three Different Light Sources

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