Yu. G. Matvienko, I. E. Vasil’ev, D. V. Chernov, A. G. Kalinin, A. V. Pankov
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引用次数: 0
摘要
摘要 所提出的变形材料损伤动力学监测方法的实质是在微观、中观和宏观损伤与在此情况下产生的声发射脉冲之间建立对应关系。在产品的加载过程中,记录的脉冲分为低(H)、中(C)和高(B)能级的脉冲流,与结构键的破坏能量相对应。通过计算由微观、中观和宏观破坏产生的 H、C 和 B 簇中部分声发射脉冲的电流值,并将其与破坏过程中设定的阈值进行比较,就能确定产品在加载过程中的承载能力电流水平。在层间剪切试验中,考虑应用所开发的方法来确定破坏发展区,并评估弦杆在加载条件下的当前状态的承载能力。
Structural–Phenomenological Concept and Acoustic-Emission Diagnostics of Composite Stringers under Three-Point Bending Conditions
The essence of the proposed methodology for monitoring the kinetics of damage to a deformed material is to establish a correspondence between micro-, meso-, and macrodamage, and the acoustic emission pulses generated in this case. During the loading process of a product, the recorded pulses are divided into pulse flows of low (H), middle (C), and high (B) energy levels, corresponding to the energy of destruction of structural bonds. By calculating the current values of the partial content of acoustic emission pulses in the H, C, and B clusters generated by micro-, meso-, and macrodamage, and comparing them with the threshold ones established during destruction, the load-bearing capacity current level of a product during loading is determined. Application of the developed methodology for identifying zones of developing damage and assessing the load-bearing capacity of the current state of stringers under loading conditions during interlayer shear tests is considered.
期刊介绍:
Journal of Machinery Manufacture and Reliability is devoted to advances in machine design; CAD/CAM; experimental mechanics of machines, machine life expectancy, and reliability studies; machine dynamics and kinematics; vibration, acoustics, and stress/strain; wear resistance engineering; real-time machine operation diagnostics; robotic systems; new materials and manufacturing processes, and other topics.
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