而且随着声学吸收材料厚度的增加，气体非稳定爆轰波强度衰减幅度增大。

It was also found that the detonation strengths decrease with increase in the thickness of acoustic absorbing layer.

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本文对气体与碳氢化合物液体燃料颗粒以及悬浮铝粉尘中的非定常两相爆轰进行了理论和数值研究。

Unsteady detonation in gas-fuel droplet systems and suspended aluminum dust was theoretically, numerically studied in this thesis.

youdao

本文对气体与碳氢化合物液体燃料颗粒以及悬浮铝粉尘中的非定常两相爆轰进行了理论和数值研究。

Unsteady detonation in gas-fuel droplet systems and suspended aluminum dust was theoretically, numerically studied in this thesis.

youdao