Title :
Mechanical Strength of Microstructured Optical Fibers
Author :
Sonnenfeld, C. ; Sulejmani, S. ; Geernaert, Thomas ; Eve, S. ; Gomina, M. ; Mergo, Pawel ; Makara, M. ; Skorupski, K. ; Thienpont, Hugo ; Berghmans, Francis
Author_Institution :
Brussels Photonics Team, Vrije Univ. Brussel, Brussels, Belgium
Abstract :
An experimental study of the mechanical reliability of microstructured optical fibers (MOFs) is reported. Tensile tests were carried on five types of MOFs and two reference fibers, and the tensile strengths were analyzed using Weibull statistics. Optical microscopy of the surfaces of rupture allowed identifying the critical flaws and determining the failure mechanisms. First, it appears that the MOFs have lower tensile strengths than standard optical fibers. Second, the mechanical strength of MOFs was found to be related to the dimensions and morphology of the microstructure. Finally, fractographic examinations confirmed that MOFs can fail from defects located in the vicinity of the air holes, in contrast to standard optical fibers for which cracks always start propagating from defects located on the outer silica surface.
Keywords :
Weibull distribution; failure (mechanical); fractography; fracture; holey fibres; optical fibre testing; optical microscopy; silicon compounds; surface cracks; tensile strength; tensile testing; SiO2; Weibull statistics; air holes; cracks; critical flaws; failure mechanism; fractography; mechanical reliability; mechanical strength; microstructure morphology; microstructured optical fibers; optical microscopy; outer silica surface; rupture surface; tensile strength; tensile tests; Glass; Optical fiber testing; Optical fibers; Silicon compounds; Stress; Surface cracks; Fractography analysis; microstructured optical fibers (MOFs); optical fiber testing; statistical mechanics;
Journal_Title :
Lightwave Technology, Journal of
DOI :
10.1109/JLT.2014.2322201
