Static and dynamic mechanical properties of infiltrated B4C–Si composites
The present paper is concerned with the static and the dynamic mechanical properties at
strain-rates up to 103s− 1, of ceramic composites based on porous B4C infiltrated with
molten Si. The static mechanical properties of the infiltrated composites depend on the
amount of the residual silicon. The Young's modulus and the hardness increase, while the
flexural strength and K1C decrease with decreasing fraction of residual silicon. The dynamic
strength and the initiation fracture toughness K1D have significantly higher values than the …
strain-rates up to 103s− 1, of ceramic composites based on porous B4C infiltrated with
molten Si. The static mechanical properties of the infiltrated composites depend on the
amount of the residual silicon. The Young's modulus and the hardness increase, while the
flexural strength and K1C decrease with decreasing fraction of residual silicon. The dynamic
strength and the initiation fracture toughness K1D have significantly higher values than the …
The present paper is concerned with the static and the dynamic mechanical properties at strain-rates up to 103s−1, of ceramic composites based on porous B4C infiltrated with molten Si. The static mechanical properties of the infiltrated composites depend on the amount of the residual silicon. The Young's modulus and the hardness increase, while the flexural strength and K1C decrease with decreasing fraction of residual silicon. The dynamic strength and the initiation fracture toughness K1D have significantly higher values than the corresponding static properties, and are insensitive to both the residual silicon fraction and the strain-rate up to ε˙=103s−1.
Elsevier
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