IdealPhotonics' fiber optic tensile tester is a professional device that measures the mechanical strength of optical fibers/cables using a high-precision force sensor (resolution ±0.01N) and dynamic displacement control (±1μm). Employing multi-axis synchronous loading technology, it achieves a testing range of 0-5000N (accuracy ±0.1%FS). Its innovative "non-contact strain monitoring" and "fracture prediction algorithm" can accurately obtain tensile strength (e.g., >7N for G.652D fiber), elastic modulus, and fatigue characteristics, meeting the standardized testing needs of FTTH construction acceptance, submarine cable reliability verification, and the development of special optical fibers (such as micro-bending resistant fibers).Employing nanoscale mechanical sensing (±0.001N resolution) and a multi-dimensional deformation tracking system (strain accuracy 0.001%), and utilizing ultra-high-speed data acquisition (10MHz sampling rate) and an AI fracture prediction model (accuracy >99.9%), this system achieves full-range testing from 0-10kN (error <±0.05%FS). Its innovative "environmental simulation chamber" can simultaneously reproduce extreme conditions such as deep-sea (60MPa water pressure), space (-270℃~300℃), and nuclear irradiation (100kGy/h). This redefines the evaluation standards for optical fiber mechanical properties in fields such as 7N-level communication optical fiber (fracture point prediction ±0.1N), 10,000N-level submarine optical cable (fatigue life analysis error <1%), and special optical fibers (e.g., photonic crystal fiber microstructure compressive strength testing).