界面处残余法向应力较高,可能造成界面脱粘。
The normal residual stress at interface is great, which can result in the interface de-bounding.
文中针对多厚度壳体构件的自动化检测要求,提出了多界面脱粘的检测方案。
This paper presents experimental detection programmers, in accordance with multi-shell thickness component automated testing requirements.
研究结果表明,颗粒的开裂、颗粒与基体的界面脱粘是该复合材料的主要损伤形式。
It was found that particle splitting and interface opening were the main damage patterns of the composite.
应用推荐