This paper compares the results of the effects of a biomimetic coating and electrophoretic deposition (EPD) of hydroxyapatite (HA) on the bond strength between the bone, implant and cell compatibility of Ti-6Al-7Nb dental implants. In the biomimetic process, screw shaped implants were chemically etched and NaOH activated to form hydroxycarbonated apatite after they were soaked for six days in a solution that was five times more concentrated than regular simulated body fluid (SBF). Electrophoretic deposition was also used to obtain a uniform coating of HA on other batchs of screws. Elemental, structural and in vivo histological and biomechanical investigations were carried out on the modified surfaces of the screws. The results show that there was a faster reaction of bone towards the coated implants compared to the uncoated one. More mature bones were observed on HA coated implants and increased mechanical strength (torque value) of bone-implant interface. Higher torque was needed to remove elephoretically and biomimetically HA coated screws from its bed compared to that needed for uncoated one (55, 50?16 and 37?45 N cm respectively). Biomimetic and electrophoretic coating with a bioactive HA leads to high integration between bone and implant by increasing the bioactivity of the product and to promoting mechanical properties of the implanted screws and enhanced osseointegration during the healing period. Owing to the higher roughness and porosity of the EPD coated screws (average R a 52921¡100 nm), the bone growth was much higher than that coated biomimetically (average R a 51550¡88 nm). Out of the two methods tried to form bioactive surface, EPD yields high bone adhesion when compared to the biomimetic coating.
The energy density state are the powerful factor for evaluate the validity of a material in any application. This research focused on examining the electrical properties of the Se6Te4- xSbx glass semiconductor with x=1, 2 and 3, using the thermal evaporation technique. D.C electrical conductivity was used by determine the current, voltage and temperatures, where the electrical conductivity was studied as a function of temperature and the mechanical electrical conduction were determined in the different conduction regions (the extended and localized area and at the Fermi level). In addition, the density of the energy states in these regions is calculated using the mathematical equations. The constants of energy density states are determined, namely the electron hopping distance, the width of the tails, and pre - exponential factor. The densities of the energetic states (extended N (Eext), localize N (Eloc) and at the Fermi states N (Ef) will be calculated in each of the regions. Moreover, the effect of partial substitution of Se with antimony on energy states and degree of randomness, results observed that the energy densities changing with an increase antimony Sb concentration.
Gypseous soils are spread in several regions in the world including Iraq, where it covers more than 28.6% [1] of the surface region of the country. This soil, with high gypsum content causes different problems in construction and strategic projects. As a result of water flow through the soil mass, permeability and chemical arrangement of these soils vary over time due to the solubility and leaching of gypsum. In this study the soil of 36% gypsum content, is taken from one location about 100 km (62 mi) southwest of Baghdad, where the sample is taken from depth (0.5 - 1) m below the natural ground surface and mixed with (3%, 6%, 9%) of Copolymer and Styrene-butadiene Rubber to improve the engineering properties of the gypseous soil including collapsibility, permeability and shear strength. Results of the experimental work show noticeable improvement of collapsibility, permeability, and bearing capacity in soil treated with Copolymer and Styrene-butadiene Rubber compared to untreated soil.
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