ISSN : 0970 - 020X, ONLINE ISSN : 2231-5039
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Abstract

Studies of Substitution Effect of B2O3 on Structure and Properties of 1393 Bioactive Glass

Neeraj Gupta1*, Vikash Kumar Vyas2 and Apurba Mandal1

DOI : http://dx.doi.org/10.13005/ojc/370619


Abstract:

Bioactive glass is mainly familiar for its outstanding biocompatibility and bioactive behavior and it’s known for important bone bonding ability. Bioactive glass is a reproduction fillet joint meant for orthopedic in addition to periodontal function of one of the leading applications. A silica based bioactive glass designated 1393 bio-glass® [wt. % (53) SiO2 – (6) Na2O – (12) K2O – (20) CaO – (5) MgO – (4)P2O5] 1393 is like 45S5 bio-glass®, other than it has a high SiO2 content and network modifiers, such as potassium oxide and magnesium oxide, bioactive glass, is also used clinically. In this communication, study of destructive (DT) & non-destructive (NDT) behavior of SiO2 replaced by boron trioxide (B2O3) in 1393 bioactive glass has been reported. The formed amorphous phase using x-ray diffraction (X-RD) analysis in bioactive glass will be identified. Density and mechanical properties measured using different types of instrument and using ultrasonic wave velocities study the elastic properties like young’s , shear, bulk modulus and Poisson’s ratio of bioactive glasses were reported. The results point to the substitution of boron trioxide in 1393 bioactive glass enhanced its density, mechanical properties and elastic properties, similarly for silica.

Keywords:

Bioactive Glass; Boron Trioxide; Destructive (Test); Density; mechanical properties; Non-destructive (Test)

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