A new method for determining the strain energy release rate of an interface via force-depth data of nanoindentation tests

Wei PJ; Liang WL; Ai CF; Lin JF

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A new method for determining the strain energy release rate of an interface via force-depth data of nanoindentation tests

机译：通过纳米压痕试验力深数据确定界面应变能释放率的新方法

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Indentation forces, including constant rate and oscillating mode, were applied to SiO2/Si and diamond-like carbon ( DLC)/Si specimens. A two-stage behavior was exhibited in the force-depth results after delamination occurred. When the depth was smaller than the threshold value, a linear load-depth relationship was exhibited because the debonded film was suspended over the substrate. Membrane theory was applied to analyze the deflection of the suspended film, and thus the in-plane stress exhibited in the debonded film was evaluated. Through the proposed method, the strain energy release rate of the interface can be directly evaluated by analyzing the force-depth data of the indentation tests.

机译：压痕力，包括恒定速率和振荡模式，被施加到SiO2 / Si和类金刚石碳（DLC）/ Si样品上。分层后，力深结果显示出两阶段行为。当深度小于阈值时，由于脱粘膜悬浮在基板上，因此表现出线性的载荷-深度关系。应用膜理论分析了悬浮膜的挠度，从而评价了脱膜后的面内应力。通过提出的方法，可以通过分析压痕测试的力深数据直接评估界面的应变能释放率。

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《Nanotechnology》 |2009年第2期|共7页
作者
Wei PJ; Liang WL; Ai CF; Lin JF;
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正文语种 eng
中图分类一般工业技术;
关键词
INDENTATION FATIGUE METHOD; FLAT CYLINDRICAL INDENTER; SENSING INDENTATION; ELASTIC-MODULUS; SPHERICAL INDENTATION; RESIDUAL-STRESS; THIN-FILMS; HARDNESS; CREEP; DEFORMATION;

机译：压痕疲劳法;扁平圆柱压痕;传感压痕;弹性模量;球形压痕;残余应力;薄膜;硬度;蠕变;变形;

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1. A new method for determining the strain energy release rate of an interface via force-depth data of nanoindentation tests [J] . Wei PJ, Liang WL, Ai CF, Nanotechnology . 2009,第2期

机译：通过纳米压痕试验力深数据确定界面应变能释放率的新方法
2. Nanoindentation strain-rate jump tests for determining the local strain-rate sensitivity in nanocrystalline Ni and ultrafine-grained Al [J] . Verena Maier, Karsten Durst, Johannes Mueller, Journal of Materials Research . 2011,第11期

机译：纳米压痕应变率跳跃测试，用于确定纳米晶镍和超细晶粒铝中的局部应变率敏感性
3. A Semi-analytical Method for Determining the Strain Energy Release Rate of Cracks in Adhesively-bonded Single-lap Composite Joints [J] . CHIHDAR YANG, WENJUN SUN, JOHN S. TOMBLIN Journal of Composite Materials . 2007,第13期

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4. A GENERAL SUBLAMINATE ANALYSIS METHOD FOR DETERMINING STRAIN ENERGY RELEASE RATES IN COMPOSITES [C] . Gerry Flanagan AIAA/ASME/ASCE/AHS/ASC, structures, structural dynamics, and materials conference . 1994

机译：一种用于确定复合材料中应变能释放速率的一般子簇分析方法
5. Developments in Extended Finite Element Methods for Extraction of Strain Energy Release Rates and Computational Nanomechanics for SWCNT Aggregates. [D] . Lan, Mengyu. 2013

机译：扩展有限元方法提取应变能释放速率和计算碳纳米管聚集体的计算纳米力学的进展。
6. A Refined Theory for Characterizing Adhesion of Elastic Coatings on Rigid Substrates Based on Pressurized Blister Test Methods: Closed-Form Solution and Energy Release Rate [O] . Yong-Sheng Lian, Jun-Yi Sun, Zhi-Hang Zhao, 2020

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7. Nanoindentation strain-rate jump tests for determining the local strain-rate sensitivity in nanocrystalline Ni and ultrafine-grained Al [O] . Verena Maier, Karsten Durst, Johannes Mueller, 2011

机译：纳米狭窄应变速率跳跃试验，用于测定纳米晶体Ni和超细颗粒的局部应变率敏感性
8. Strain energy release rate as a function of temperature and preloading history utilizing the edge delamination fatique test method [R] . Zimmerman, Richard S., Adams, Donald F. 1989

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A new method for determining the strain energy release rate of an interface via force-depth data of nanoindentation tests

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