We have systematically measured the differential stress-optic coefficient, ΔC, and Young's modulus, E, in a number of PMMA fibers drawn with different stress, ranging from 2 up to 27 MPa. Effect of temperature annealing on those parameters was also investigated. ΔC was determined in transverse illumination by measuring the dependence of birefringence on additional axial stress applied to the fiber. Our results show that ΔC in PMMA fibers has a negative sign and ranges from -4.5 to -1.5×10-12 Pa -1 depending on the drawing stress. Increase of the drawing stress results in greater initial fiber birefringence and lower ΔC. The dependence of ΔC and initial birefringence upon drawing stress is nonlinear and gradually saturates for higher drawing stress. Moreover, we find that ΔC is linearly proportional to initial fiber birefringence and that annealing the fiber has no impact on the slope of this dependence. On the other hand, no clear dependence was observed between the fiber drawing stress and the Young's modulus of the fibers as measured using microscopic digital image correlation with the fibers tensioned using an Instron tension tester.
展开▼
机译:我们已经系统地测量了许多从2到27 MPa的不同应力拉制的PMMA纤维的微分应力-应力系数ΔC和杨氏模量E。还研究了温度退火对那些参数的影响。通过测量双折射对施加在光纤上的附加轴向应力的依赖性来确定横向照明下的ΔC。我们的结果表明,取决于拉伸应力,PMMA纤维中的ΔC具有负号,范围为-4.5至-1.5×10-12 Pa -1。拉伸应力的增加导致更大的初始纤维双折射和更低的ΔC。 ΔC和初始双折射对拉拔应力的依赖性是非线性的,并且对于较高的拉拔应力会逐渐饱和。此外,我们发现ΔC与初始光纤双折射成线性比例,并且退火光纤对这种依赖性的斜率没有影响。另一方面,使用显微数字图像相关性测量的纤维拉伸应力与纤维的杨氏模量之间没有明显的相关性,而使用Instron张力测试仪拉紧的纤维则没有。
展开▼
