Optical Fiber Strain Sensor for Measuring Maximum Strain
Abstract
An optical fiber strain sensor is provided which remembers the maximum strain a structure has experienced in a given timeframe. A pair of multi-mode optical fibers with flat ends meet end-to-end within a microbore capillary tube with which the fibers have frictional contact. The fibers are fastened to the structure at two points a known distance apart on either side of the capillary tube. Increasing strain in the structure pulls the fiber ends apart in proportion to the amount of strain; however, when strain is decreasing, the fibers buckle rather than move closer together. Therefore, the maximum strain is reflected as a maximum distance between the fiber ends. When the maximum strain experienced is to be measured, the free end of one fiber is connected to a light source and the free end of the other fiber is connected to a detector. The intensity of light transmitted to the detector will vary inversely with the distance apart the fiber ends are; therefore, this distance can be measured and correlated with strain to a high degree of accuracy.
Document Details
- Document Type
- Technical Report
- Publication Date
- Oct 31, 1995
- Accession Number
- ADD019844
Entities
People
- Howard D. Krumboltz
- Lloyd C. Bobb
Organizations
- Naval Air Warfare Center