此结果支持了基于绝对反应速率理论的光纤断裂模型,并预测了裂纹扩张速率与外部应力强度的关系。
This result supports previous fracture models that are based on absolute reaction rate theory and predicts an exponential dependence of crack extension rate on applied stress intensity.
此结果对该类双包层光纤传感器以及光纤担载型的光催化反应系统的设计提供了理论依据。
The results provide a theoretic basis for the design of doubly clad fiber sensor and optical catalysis reaction system.
与金属芯相比,FRP不会产生因金属与油膏化学反应产生的气体而影响光纤传输指标;
Compared with the metal core, FRP does not affect the optical transmission indicators caused by the gases produced by chemical reactions of metal and the ointments;
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