Thermal Shock Resistance of the RE-Oxide and Oxynitride Glasses

2005 ◽  
Vol 290 ◽  
pp. 296-299
Author(s):  
František Lofaj ◽  
Františka Dorčáková
Keyword(s):  
Thermal Shock ◽  
Material Properties ◽  
Thermal Shock Resistance ◽  
Glass Composition ◽  
Content Increase ◽  
Common Trend ◽  
Shock Parameter ◽  
Shock Resistance ◽  
Initial Cracks ◽  
Quench Method

Thermal shock resistance of the RE-Si-Mg-O-N glasses (RE = La, Nd, Yb, Lu) with 0 and 20 eq.% of nitrogen was investigated by the indentation-quench method based on propagation of Vickers cracks. Crack growth was measured on the same sample for a test series of different quenching temperatures. Thermal shock resistance of the studied materials was determined as a temperature difference resulting in 10 % growth of the initial cracks (∆T10) and by the thermal shock parameter R calculated from the material properties. Although the comparison of ∆T10 and R values as a function of glass composition revealed some differences between these two approaches, also a common trend was observed. Thermal shock resistance increased with the fractional glass compactness resulting from RE type and N content increase.

scholarly journals Effect of SiCw Whiskers on the indentation thermal shock resistance of ZrB2-MoSi2 Composites

2021 ◽  
Author(s):  
Tanay Rudra Paul ◽  
Manas Kumar Mondal ◽  
Manab Mallik
Keyword(s):  
Thermal Shock ◽  
Thermal Shock Resistance ◽  
Comparative Evaluation ◽  
Temperature Differential ◽  
Plasma Sintering ◽  
Multi Stage ◽  
Spark Plasma ◽  
Shock Resistance ◽  
Carbide Content ◽  
Quench Method

Abstract A comparative evaluation of the thermal shock resistance (TSR) of ZrB2-20 MoSi2-20 SiCw (ZMSw20) and ZrB2-20 MoSi2 − 5SiCw (ZMSw5) composites were studied using the indentation quench method. High-dense ZrB2 based composites were prepared by multi-stage spark plasma sintering at 1700°C. The results show that the ZMSw20 composite expressed superior crack shielding and TSR under quenching circumstances. The critical temperature differential ΔTc of ZMSw20 ceramic (ΔTc= 800°C) was higher than that of ZMSw5 ceramic (ΔTc=600°C). The significant enhancement in TSR was imposed residual stresses that improved the resistance to crack progression during thermal shock. Furthermore, an increment in silicon carbide content reduces the crack growth, and increases the TSR of the composites.

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