research centers


Search results: Found 2

Listing 1 - 2 of 2
Sort by

Article
Preparing and Studying the Effect of HA and ZrO2 Addition on Fracture Strength of Dental Ceramic
تحضير ودراسة تأثير إضافة الهيدروكسي اباتايت والزركونيا على مقاومة الكسر لسيراميك الأسنان

Authors: Hussein Alaa Jaber --- Sinan Salman Hamde
Journal: Engineering and Technology Journal مجلة الهندسة والتكنولوجيا ISSN: 16816900 24120758 Year: 2010 Volume: 28 Issue: 6 Pages: 1209-1217
Publisher: University of Technology الجامعة التكنولوجية

Loading...
Loading...
Abstract

This work aims at preparing and studying the effect of hydroxyapatite (HA)and zirconia (ZrO2) additions on some physical properties and fracture strength ofdental ceramic. In this work, dental ceramic batches have been prepared from(80% Potash feldspar, 15% silica and 5% Duekhla kaolin). Firstly, HA wasadded with different percentages (2,4,6,8,10)%wt. Secondly, both of HAand ZrO2 have been added in percentage (5%wt) with different weightpercentages for both of HA and ZrO2 to (95%wt) of dental ceramic batch.Mixes were semi-dry pressed under (15 MPa) load, and they were fired at(1100°C) temperature. The results show the fracture strength of the dentalthat ceramic increases with the addition of HA. The best addition of HA was(4 %wt) because it gives the best of the physical and mechanical properties.By the addition of HA:ZrO2 mixture, the value of fracture strengthincreased more than the addition of HA alone.

يهدف هذا البحث إلى تحضير ودراسة تأثير إضافة الهيدروكسي اباتايتعلى بعض الخواص الفيزيائية ومقاومة الكسر لسيراميك الأسنان. في (ZrO والزركونيا ( 2هذا العمل، تم تحضير خلطة سيراميك الأسنان متكونة من المواد التالية ( 80 % فلدسباربنسب وزنيه (HA) البوتاسيوم، 15 % سليكا و 5% كاؤولين دويخلة). تم أولا إضافة مادةمعا (ZrO و( 2 (HA) مختلفة %( 10،8،6،4،2 ) إلى سيراميك الاسنان. ثانيا، تم إضافة(95%wt) إلى (ZrO و( 2 (HA) بنسبة وزنيه (% 5) لكن بنسب إضافة مختلفة لكل منMPa) من خلطة سيراميك الأسنان. شكلت النماذج بطريقة الكبس شبة الجاف تحت ضغط1100° ). أوضحت النتائج إلى حصول زيادة في مقاومة C) 15 ) وحرقت بدرجة حرارة(4%HA) حيث كانت أفضل نسبة إضافة هي (HA) الكسر لسيراميك الاسنان بإضافة الأدى إلى زيادة في HA:ZrO لأنها أعطت أفضل الخواص. بإضافة خليط من مادتي 2لوحدها. (HA) مقاومة الكسر أكثر من إضافة مادة ال


Article
Effects of Different Core Thickness on The Microhardness of Lithium- Disilicate Glass Ceramic

Authors: Ihab Naffea Yassen --- Nawras Adnan Mohammed
Journal: Journal of Oral and Dental Research مجلة طب الفم والاسنان ISSN: 23106417 Year: 2019 Volume: 6 Issue: 1 Pages: 51-58
Publisher: Iraqi Association for Oral Research الجمعية العراقية لبحوث طب الفم

Loading...
Loading...
Abstract

Lithium disilicate is the major crystal phase, and be composed of needle-resemble crystals. These crystals are measured from 3 to 6 μm in length. In general, E.maxpress properties are very slightly uppermost crystals found in E.max-CAD because of the larger and longer crystals. Due to the materials that have different firing temperatures (820⁰C for E.max-press). The objective of this study is to estimate the effect of various thickness on the hardness of a sample prepared by lithium disilicate glassceramic material.Materials and methods Thirty disc-shaped wax patterns wereprepared with three core thickness of (0.5mm, 1mm and 1.5mm). All the specimens fabricated with 10mm in diameter and designed according to the ISO specification 6872. Vickers diamond indenter has widely utilized in this study in accordance with the micro-hardness tester device. Results The present data were analyzed statistically using SPSS (V-22). One-way ANOVA and (LSD) test show that the mean values of 0.5mm core thickness was of 800(±120), while the mean value of 1mm core thickness was of 1229 (±139), and that of 1.5mm core thickness was 1117(±221).Conclusions the results showed that the lithium disilicate glass ceramic material had more advanced surface hardness at thickness of 1mm than that of 0.5mm and 1.5mm thickness of the same materials.

Listing 1 - 2 of 2
Sort by
Narrow your search

Resource type

article (2)


Language

English (2)


Year
From To Submit

2019 (1)

2010 (1)