Title: Investigation of Photoelastic Property and Stress Analysis for Optical Polyimide Membrane through Stress Birefringence Method 

Author(s): Gao, GH (Gao, Guohan); Mao, DB (Mao, Danbo); Jiang, RK (Jiang, Renkui); Li, ZW (Li, Zhiwei); Liu, X (Liu, Xin); Lei, BP (Lei, Baiping); Bian, J (Bian, Jiang); Wu, SB (Wu, Shibin); Fan, B (Fan, Bin) 

Source: COATINGS  Volume: 10  Issue: 1  Article Number: 56  DOI: 10.3390/coatings10010056  Published: JAN 2020   

Abstract: Optical polyimide (PI) membranes have been increasingly attractive in optoelectronic substrate and optical element material applications. Controlled stress distribution is very important to optical PI membrane-based optics. However, nondestructive absolute stress measurement inside optical PI membranes remains challenging. In this letter, we adopted the stress birefringence method to experimentally investigate the correlation between stress and retardation in uniaxially, biaxially, and circularly stretched PI membranes. The calculated value of the photoelastic coefficient was found to be around 400 nm/Mpa center dot cm. A theoretical model was established where the retardation angle is the negative arctan of the principal stress ratio in the biaxially stretched membrane. We also found that the average retardation angle is an important parameter for evaluating the uniformity of stretching force in the circularly stretched membrane. This work provides a better understanding of the stress birefringence measurement of membrane materials. 

eISSN: 2079-6412