OLED金属走线弯折过程裂纹扩展有限元分析

针对OLED面板COF(Chip on Film)连接过渡区在弯折过程中易发生金属走线断裂的问题，本文对金属走线中裂纹的扩展机理以及抑制裂纹扩展的方法进行了研究。基于复合材料界面裂纹偏转与穿透理论分析了金属走线与有机光阻界面处的裂纹扩展方式，比较了两种金属走线结构在裂纹扩展过程中的应力强度因子变化。仿真结果表明，金属走线与有机光阻的裂纹倾向于沿垂直走线的方向扩展，裂纹沿着界面扩展的趋势很小。对比两种不同金属走线(环状与条状)的应力强度因子发现，环状金属走线内部靠近孔处的应力强度因子降低了95%，能有效抑制金属走线中的裂纹扩展。

Abstract

Aiming at the problem that the metal lines breakage easily occurs during the bending process of COF connection transition zone in the OLED panel, the mechanism of crack propagation and the way to inhibit the crack propagation in the metal line are studied. Based on the theory of interface crack deflection and penetration, the mode of crack growth at the interface between metal line and organic photoresist is analyzed. The change of stress intensity factor of the two metal line during crack growth is compared. The simulation results show that the main path of crack propagation in the pad bending area is perpendicular to the metal lines. The tendency of propagation along the interface between the metal traces and the organic photoresist is very small. Through the calculation of stress intensity factor of the two structures, it can be found that the stress intensity factor near the inner hole of the annular metal line is reduced by 95% with respect to that of striped metal line. Thus the hole of the annular metal line effectively suppresses crack propagation.

参考文献

[1] 马东阁．OLED显示与照明——从基础研究到未来的应用［J］．液晶与显示，2016，31(3)：229-241．

MA D G. OLED display and lighting——from basic research to future applications［J］. Chinese Journal of Liquid Crystals and Displays, 2016, 31(3): 229-241. (in Chinese)

[2] 王琦，马东阁．白光有机发光二极管的制备方法［J］．液晶与显示，2009，24(5)：617-629．

WANG Q, MA D G. Fabrication methods of white organic light-emitting diodes［J］. Chinese Journal of Liquid Crystals and Displays, 2009, 24(5): 617-629. (in Chinese)

[3] KANG M S, JOO M K, LEE J H, et al. 66.1: Invited Paper: performance of a large‐size white OLED for lighting application［J］. SID Symposium Digest of Technical Papers, 2011, 42(1): 972-974.

[4] 刘晋红，张方辉．OLED薄膜干燥剂的制备及其对OLED的影响［J］．发光学报，2017，38(1)：76-84．

LIU J H, ZHANG F H. Preparation of OLED desiccant film and the impact for OLED［J］. Chinese Journal of Luminescence, 2017, 38(1): 76-84. (in Chinese)

[5] 杨永强，段羽，陈平，等．低温原子层沉积氧化铝作为有机电致发光器件的封装薄膜［J］．发光学报，2014，35(9)：1087-1092．

YANG Y Q, DUAN Y, CHEN P, et al. Deposition of Al2O3 film using atomic layer deposition method at low temperature as encapsulation layer for OLEDs［J］. Chinese Journal of Luminescence, 2014, 35(9): 1087-1092. (in Chinese)

[6] 刘艳玲，胡坤，党鹏乐，等．柔性显示器件机械试验方法研究［J］．信息技术与标准化，2017(6)：21-24．

LIU Y L, HU K, DANG P L, et al. Study on mechanical test method used for flexible display device［J］. Information Technology & Standardization, 2017(6): 21-24. (in Chinese)

[7] 邓亮．柔性AMOLED背板开发的关键问题研究［D］．苏州：苏州大学，2015．

DENG L. Study on the key technology of flexible AMOLED backplane［D］. Suzhou: Soochow University, 2015. (in Chinese)

[8] KIM B J, OH S G, LEE Y J, et al. Enhancement of the endurance against mechanical deformation of metal lines on flexible polyimide substrate［J］. Science of Advanced Materials, 2016, 8(4): 830-833.

[9] KIM B J, OH S G, LEE Y J, et al. Mechanical properties of metal lines formed on trenched polyimide film substrate［J］. Journal of Nanoelectronics and Optoelectronics, 2014, 9(4): 541-545.

[10] ZAK A R, WILLIAMS M L. Crack point stress singularities at a Bi-material interface［J］. Journal of Applied Mechanics, 1963, 30(1): 142-143.

[11] RICE J R. Elastic fracture mechanics concepts for Interfacial cracks［J］. Journal of Applied Mechanics, 1988, 55(1): 98-103.

[12] HE M Y, EVANS A G, HUTCHINSON J W. Crack deflection at an interface between dissimilar elastic materials: role of residual stresses［J］. International Journal of Solids and Structures, 1994, 31(24): 3443-3455.

[13] JOKINEN J, WALLIN M, SAARELA O. Applicability of VCCT in mode I loading of yielding adhesively bonded joints—a case study［J］. International Journal of Adhesion and Adhesives, 2015, 62: 85-91.

[14] SOUIYAH M, ALSHOAIBI A, MUCHTAR A, et al. Two-dimensional finite element method for stress intensity factor using adaptive mesh strategy［J］. Acta Mechanica, 2009, 204(1/2): 99-108.

张博, 廖敦明, 刘正周, 滕子浩, 吴棣, 陈继峯, 林书如. OLED金属走线弯折过程裂纹扩展有限元分析[J]. 液晶与显示, 2018, 33(5): 427. ZHANG Bo, LIAO Dun-ming, LIU Zheng-zhou, TENG Zi-hao, WU Di, CHEN Ji-feng, LIN Shu-ru. Finite element analysis of crack growth of metal line in bending process of OLED panel[J]. Chinese Journal of Liquid Crystals and Displays, 2018, 33(5): 427.

OLED金属走线弯折过程裂纹扩展有限元分析

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