Impact of Thermal, Moisture, and Mechanical Loading Conditions on Interfacial Fracture Toughness of Adhesively Bonded Joints

SHANE LOO; XUEREN ZHANG; HUN SHEN NG; TONG YAN TEE; S. G. MHAISALKAR

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Impact of Thermal, Moisture, and Mechanical Loading Conditions on Interfacial Fracture Toughness of Adhesively Bonded Joints

机译：温度，湿度和机械载荷条件对胶接接头界面断裂韧性的影响

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Interfacial delamination is a common failure mode in multilayered IC packages. In this paper, an experimental technique using Brazil-nut specimens is employed to determine the interfacial fracture toughness of an adhesively sandwiched joint with the introduction of edge interfacial crack. The design of experiments (DOE) is applied to study variations in strain rates and the thickness of the sandwich structure. In addition, the effects of moisture content and temperature on the interfacial adhesion are investigated. For the DOEs conducted, as the loading angle increases from 20 deg to 90 deg, the interfacial fracture toughness decreases. The fracture toughness and its corresponding mode mixity are determined from the measured critical load by finite element modeling computation.

机译：界面分层是多层IC封装中常见的失效模式。在本文中，使用巴西坚果样品的实验技术被用来确定引入边缘边缘裂纹的胶粘夹心接头的界面断裂韧性。实验设计（DOE）用于研究应变率和夹心结构厚度的变化。另外，研究了水分含量和温度对界面粘合的影响。对于所进行的DOE，当加载角度从20度增加到90度时，界面断裂韧性降低。断裂韧性及其相应的模式混合是通过有限元建模计算从测得的临界载荷确定的。

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来源
《Journal of Electronic Materials 》 |2007年第2期| 共7页
作者
SHANE LOO; XUEREN ZHANG; HUN SHEN NG; TONG YAN TEE; S. G. MHAISALKAR;
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正文语种 eng
中图分类计量学 ;
关键词
Fracture mechanics; Brazil nut; interfacial fracture toughness; sandwich joints;

机译：断裂力学;巴西坚果;界面断裂韧性;夹心接头;

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1. Impact of Thermal, Moisture, and Mechanical Loading Conditions on Interfacial Fracture Toughness of Adhesively Bonded Joints [J] . SHANE LOO, XUEREN ZHANG, HUN SHEN NG, Journal of Electronic Materials . 2007 ,第2期

机译：温度，湿度和机械载荷条件对胶接接头界面断裂韧性的影响
2. Mode II fracture toughness of two-part acrylic-based adhesive in an adhesively bonded joint: end-notched flexure tests under static loading [J] . Kim Hyunbum, Naito Kimiyoshi, Oguma Hiroyuki Fatigue & Fracture of Engineering Materials & Structures . 2017 ,第11期

机译：粘合剂连接的两部分丙烯酸基胶粘剂的II型断裂韧性：静态载荷下的缺口缺口挠曲测试
3. Experimental investigation of mode I fracture energy of adhesively bonded joints under impact loading conditions [J] . Yuki Yamagata, Xi Lu, Yu Sekiguchi, Applied Adhesion Science . 2017 ,第1期

机译：冲击载荷条件下胶接接头Ⅰ型断裂能的实验研究
4. Effects of thermal, moisture and mechanical loading conditions on interfacial fracture toughness using Brazil-nut specimens [C] . Loo S., Mhaisalkar S., Xueren Zhang, Electronic Packaging Technology Conference, 2005. EPTC 2005. Proceedings of 7th . 2005

机译：巴西坚果样品在热，湿气和机械载荷条件下对界面断裂韧性的影响
5. Prediction of fracture toughness and durability of adhesively bonded composite joints with undesirable bonding conditions. [D] . Musaramthota, Vishal. 2016

机译：在不理想的粘合条件下，预测复合材料接头的断裂韧性和耐久性。
6. Interfacial Stress Analysis of Adhesively Bonded Lap Joint [O] . Shiuh-Chuan Her, Cheng-Feng Chan 2019

机译：搭接接头的界面应力分析
7. Experimental investigation of mode I fracture energy of adhesively bonded joints under impact loading conditions [O] . 2017

机译：冲击载荷条件下胶接接头Ⅰ型断裂能的实验研究
8. Additional Interface Corner Toughness Data for an Adhesively-Bonded Butt Joint;International Journal of Fracture: Letters in Fracture & Micromechanics [R] . Guess, T. R. , Reedy, E. D. 1999

机译：粘接粘接接头的附加界面角韧性数据;国际断裂杂志：断裂和微观力学中的字母

Impact of Thermal, Moisture, and Mechanical Loading Conditions on Interfacial Fracture Toughness of Adhesively Bonded Joints

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