The roles of yield strength mismatch, interface strength, and plastic strain gradients in fatigue crack growth across interfaces

Pribe Joshua D.; Siegmund Thomas; Kruzic Jamie J.

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The roles of yield strength mismatch, interface strength, and plastic strain gradients in fatigue crack growth across interfaces

机译：屈服强度失配，界面强度和塑料应变梯度在界面疲劳裂纹增长中的作用

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An irreversible cohesive zone model was used to understand how plastic strain gradients and yield strength mismatches affect fatigue crack growth across bi-material and multilayer interfaces for a range of interface strengths. Parametric studies identified regimes of penetration through the interface, deflection into the interface, and a transition where cracks extend on both paths. Plastic strain gradients strongly influence the transition regime, and a yield strength mismatch is necessary to cause deflection. For crack growth across an interlayer, interactions between the interfaces occur when the crack-tip plastic zone spans the interlayer. Plastic strain gradients promote penetration through the interlayer.

机译：不可逆的粘性区域模型用于了解塑性应变梯度和屈服强度不匹配如何影响双层材料和多层界面的疲劳裂纹生长，用于一系列界面强度。参数研究确定通过界面，偏转进入界面的渗透的制度，以及在这两条路径上延伸的裂缝的过渡。塑料应变梯度强烈影响过渡方案，并且需要产生屈服强度不匹配来引起挠度。对于层间裂缝的裂缝生长，当裂缝尖端塑料区跨越中间层时发生界面之间的相互作用。塑料应变梯度促进穿过层间穿透。

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《Engineering Fracture Mechanics 》 |2020年第1期| 共18页
作者
Pribe Joshua D.; Siegmund Thomas; Kruzic Jamie J.;
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作者单位

Purdue Univ Sch Mech Engn W Lafayette IN 47907 USA;

Purdue Univ Sch Mech Engn W Lafayette IN 47907 USA;

UNSW Sydney Sch Mech &

Mfg Engn Sydney NSW 2052 Australia;

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原文格式 PDF
正文语种 eng
中图分类工程力学 ;
关键词
Fatigue crack growth; Plasticity; Cohesive zone modelling; Interface fracture; Strength mismatch;

机译：疲劳裂纹增长;可塑性;凝聚区造型;界面骨折;力量不匹配;

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1. The roles of yield strength mismatch, interface strength, and plastic strain gradients in fatigue crack growth across interfaces [J] . Pribe Joshua D., Siegmund Thomas, Kruzic Jamie J. Engineering Fracture Mechanics . 2020 ,第1期

机译：屈服强度失配，界面强度和塑料应变梯度在界面疲劳裂纹增长中的作用
2. Tip Parameter Approximation and Fatigue Growth of Crack Towards Inclined Weld Interface Between Strength Mismatched Steels [J] . SUNIL BHAT International Journal of Damage Mechanics . 2011 ,第5期

机译：强度不匹配钢之间的尖端参数近似和裂纹向倾斜焊接界面的疲劳增长
3. Plastic mismatch effect on plasticity induced crack closure: Fatigue crack propagation perpendicularly across a plastically mismatched interface [J] . Song Xiao-Xiong, Shang Yi-Bo, Shi Hui-Ji, Fatigue & fracture of engineering materials and structures . 2019 ,第3期

机译：塑性失配对塑性引起的裂纹闭合的影响：疲劳裂纹在塑性失配界面上垂直扩展
4. EFFECT OF A GRADED LAYER ON THE DISSIPATED ENERGY DURING FATIGUE CRACK GROWTH ON PLASTICALLY MISMATCHED INTERFACES UNDER MIXED-MODE LOADING [C] . Craig M. Baudendistel, Nathan W. Klingbeil IMECE2009;ASME international mechanical engineering congress and exposition . 2010

机译：混合模式载荷作用下梯度层对塑性咬合界面疲劳裂纹扩展过程中耗散能量的影响
5. Fatigue crack growth rate of short cracks for high strength steels in sea water [D] . Kim, Kijoon 1992

机译：海水中高强度钢短裂纹的疲劳裂纹扩展速率
6. Inapparent Strengthening Effect of Twin Interface in Cu/Pd Multilayered Films with a Large Lattice Mismatch [O] . Shayuan Weng, Xiang Chen, Xing Yue, 2019

机译：晶格失配较大的Cu / Pd多层膜中双界面的无形强化作用
7. Fatigue crack growth properties along the interface of epoxy plates with different Young's moduli and evaluation of the bonding strength of the interface. [O] . Jyunich YAMASAKI, Ryoji YUUKI, Hideo KITAGAWA 1986

机译：沿着环氧树脂界面的疲劳裂纹生长性能，具有不同杨氏模的界面和界面粘接强度的评价。

The roles of yield strength mismatch, interface strength, and plastic strain gradients in fatigue crack growth across interfaces

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