Mechanical Properties of Porcelain-CaSiO₃ Biocomposites Prepared by Sol-Gel Method for Dental Application

Abstract: In this study, improving the mechanical properties of Porcelain-CaSiO3 bioactive composites has been investigated by X-ray diffraction (XRD), flexural strength, and Vickers microhardness tester. Preparing the porcelain-CaSiO3 composite has been done using the sol-gel method from Si(OC2H5)4, Ca (NO3)2.4H2O as starting materials and HNO3 used as a catalyst and mixed the sol of CaSiO3 with Porcelain IPS inline powder with three different weight percentages of CaSiO3 (P90CS10, P80CS20 and P70CS30 wt. %). Structura… Show more

“…The addition of Ca 2 SiO 4 reinforcement extended the grain boundaries and broke the barrier to recrystallize the AHCs. After recrystallization, the size of the grains is reduced, and resulting in the Hall-Petch effect [22], i.e., a reduction in grain size increases the hardness, which is also evidenced by the XRD plot (Fig. 4).…”

Effect of Calcium Silicate on Mechanical and Frictional Wear Behaviors of AA7075 Hybrid Composites: A Statistical Analysis

“…The addition of Ca 2 SiO 4 reinforcement extended the grain boundaries and broke the barrier to recrystallize the AHCs. After recrystallization, the size of the grains is reduced, and resulting in the Hall-Petch effect [22], i.e., a reduction in grain size increases the hardness, which is also evidenced by the XRD plot (Fig. 4).…”

Effect of Calcium Silicate on Mechanical and Frictional Wear Behaviors of AA7075 Hybrid Composites: A Statistical Analysis

Ultraviolet and visible upconversion in Yb/Er-CaSiO3 β-wollastonite phosphors

Intense blue-emitting Yb/Tm-CaSiO3 wollastonite upconversion phosphors