Adel A. Omar scite author profile

The aim of this study is to clarify the effect of different concentrations of titanium dioxide nanoparticles (Nps) on the properties of two types of heat polymerized acrylic resin. The tested parameters were flexural strength, impact strength, and microhardness. The two types of acrylic resin used in this study were conventional unmodified (Implacryl, Vertex) and high impact heat polymerized acrylic resin (Vertex-Dental, Netherlands). Both types of acrylic resin were modified by using 1% and 5% TiO2 Nps powder. Specimen's dimensions were prepared according to the American Dental Association Specification No. 12. Three types of specimens were prepared: 1) flexural strength specimens 50 mm × 10 (±0.2) mm × 3 (±0.2) mm, 2) impact strength test specimens 60 mm × 6.0 mm × 4.0 mm, 3) microhardnesss specimens 25 mm × 10 mm × 3 (±0.2) mm. For each test 6 groups were prepared (each group containing 5 samples). Thirty specimens were prepared in each of the three tests, amounting to a total number of 90 specimens. Mechanical properties such as flexural strength (FS), impact strength and microhardness of the above mentioned specimens were determined using universal testing machine, Izod pendulum impact testing machine and Vickers microhardness tester, respectively. ISO Specification No. 1567 was followed in microhardness test. The data was collected and statistically analyzed. Flexural strength considerably decreased by increasing TiO2 concentration in both types of acrylic resin. Impact strength of the conventional acrylic resin modified by 1% of additives significantly increased. The microhardness is significantly increased by addition of 5% of TiO2 Nps. The Incorporation of TiO2 nanoparticles into acrylic resins can adversely affect its flexural strength. Meanwhile, the impact

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Carbon Monoxide Reduction and Accompanying Swelling of Iron Oxide Compacts.

Nasr

Omar

Hessien

et al. 1996

ISIJ International

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Magnetic nanocomposites: Preparation and characterization of Co-ferrite nanoparticles

Khedr

Omar

Abdel-Moaty

2006

Colloids and Surfaces A: Physicochemical and Engineering Aspect

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Influence of SiO2 and/or MnO2 on the Reduction Behaviour and Structure Changes of Fe2O3 Compacts with CO Gas

et al. 2008

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Adel A. Omar

Effect of Nickel Oxide Doping on the Kinetics and Mechanism of Iron Oxide Reduction.

Effect of Titanium Dioxide Nano Particles Incorporation on Mechanical and Physical Properties on Two Different Types of Acrylic Resin Denture Base

Carbon Monoxide Reduction and Accompanying Swelling of Iron Oxide Compacts.

Magnetic nanocomposites: Preparation and characterization of Co-ferrite nanoparticles

Influence of SiO<sub>2</sub> and/or MnO<sub>2</sub> on the Reduction Behaviour and Structure Changes of Fe<sub>2</sub>O<sub>3</sub> Compacts with CO Gas

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