The effect of reinforcement particle size on the mechanical and fracture properties of glass matrix composites
Author:
Funder
National Natural Science Foundation of China
Publisher
Elsevier BV
Subject
Multidisciplinary
Reference48 articles.
1. Contributions of mechanical bonding and chemical bonding to high-temperature hermeticity of glass-to-metal compression seals;Hu;Mater. Des.,2021
2. Interface degradation of glass-to-metal seals during thermo-oxidative aging;Li;Corrosion Sci.,2022
3. Improvement of sealing performance for Al2O3 fiber-reinforced compressive seals for intermediate temperature solid oxide fuel cell;Li;Ceram. Int.,2019
4. Measurement of mechanical strength of glass-to-metal joints;Selçuk;Fuel Cells (Weinh),2015
5. A review on aluminium matrix composite with various reinforcement particles and their behaviour;Arunkumar;Mater Today Proc,2020
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