Determination of interfacial fracture energy for 'pop-in' delaminations in a glass-epoxy system using the indentation method

Karen Hutchins; Thomas Buchheit; Rajan Tandon; Tariq Khraishi

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Determination of interfacial fracture energy for 'pop-in' delaminations in a glass-epoxy system using the indentation method

机译：使用压痕法测定玻璃环氧系统中“弹出式”分层的界面裂缝能量

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The adhesion of coatings often controls the performance of the substrate-coating system. Certain engineering applications require an epoxy coating on a brittle substrate to protect and improve the performance of the substrate. Interfacial adhesion measurements of such systems provide a quantitative metric of that performance. Indentation experiments were performed to induce interfacial delaminations in a glass substrate-epoxy coating system. Delamination loads and radii were measured and applied to an analytical solution originally developed by Rosenfeld et al. (1990) to estimate the interfacial fracture energy of the substrate-coating adhesive bond. Results suggest an interfacial bond strength far exceeding that of similar previously studied glass-epoxy systems.

机译：涂层的粘附性经常控制基材涂覆系统的性能。某些工程应用需要在脆性基底上进行环氧涂层，以保护和改善基材的性能。这种系统的界面粘附测量提供了该性能的定量度量。进行压痕实验以诱导玻璃基质 - 环氧涂料系统中的界面分层。测量分层载荷和半径并应用于最初由Rosenfeld等人开发的分析解决方案。（1990）估计基材涂层粘合剂的界面骨折能量。结果表明界面粘合强度远远超过类似先前研究的玻璃环氧系统。

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来源
《International Journal of Theoretical and Applied Multiscale Mechanics》 |2018年第2期|共11页
作者
Karen Hutchins; Thomas Buchheit; Rajan Tandon; Tariq Khraishi;
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作者单位

US Bureau of Reclamation Lahontan Basin Area Office;

Center for Materials and Process Sciences Sandia National Laboratories;

Analytical Technologies Department Sandia National Laboratories;

Mechanical Engineering Department University of New Mexico;

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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
Indentation; Adhesion; Bonding; Interfaces; Coatings; Epoxy; Glass; Fracture energy;

机译：缩进;粘附;粘接;界面;涂料;环氧树脂;玻璃;裂缝能量;

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1. Determination of interfacial fracture energy for 'pop-in' delaminations in a glass-epoxy system using the indentation method [J] . Karen Hutchins, Thomas Buchheit, Rajan Tandon, International Journal of Theoretical and Applied Multiscale Mechanics . 2018,第2期

机译：使用压痕法测定玻璃环氧系统中“弹出式”分层的界面裂缝能量
2. Indentation fracture and indentation delamination in ZnO film/Si substrate systems [J] . Bin Huang, Ming-Hao Zhao, Tong-Yi Zhang Philosophical magazine: structure and properties of condensed matter . 2004,第12期

机译：ZnO膜/ Si衬底系统中的压痕断裂和压痕分层
3. Interfacial energy release rates of SiN/GaAs film/substrate systems determined using a cyclic loading dual-indentation method [J] . Lu Mingyuan, Huang Han Thin Solid Films . 2015,第auga31期

机译：使用循环加载双压痕法确定SiN / GaAs膜/基底系统的界面能释放速率
4. Indentation delamination and indentation fracture in ZnO/Si systems [C] . Bin Huang, Ming-Hao Zhao, Tong-Yi Zhang MRS Meeting . 2001

机译：ZnO / SI系统中的压痕分层和压痕骨折
5. Dynamic delamination in a glass fiber composite and interfacial fracture in a bi-material. [D] . Syn, Chul Jin. 2008

机译：玻璃纤维复合材料中的动态分层和双材料中的界面断裂。
6. The Indentation-Induced Pop-in Phenomenon and Fracture Behaviors of GaP(100) Single-Crystal [O] . Yi-Jui Chiu, Sheng-Rui Jian, Jyh-Wei Lee, 2019

机译：GaP（100）单晶的压痕诱发弹出现象和断裂行为
7. Interfacial energy release rates of SiN/GaAs film/substrate systems determined using a cyclic loading dual-indentation method [O] . Lu, Mingyuan, Huang, Han 2015

机译：使用循环加载双压痕法确定SiN / GaAs膜/基底系统的界面能释放速率

Determination of interfacial fracture energy for 'pop-in' delaminations in a glass-epoxy system using the indentation method

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