Fuente: Textiles (MDPI) Textiles, Vol. 5, Pages 32: Basalt Fiber Mechanical Properties After Low-Temperature Treatment
Textiles doi: 10.3390/textiles5030032
Authors:
Sergey I. Gutnikov
Evgeniya S. Zhukovskaya
Sergey S. Popov
Bogdan I. Lazoryak

This study investigates the production and characterization of basalt continuous fibers (BCFs) with varying oxide contents (including Na2O, SiO2, CaO, TiO2, and Al2O3), derived from modified basalt bulk glasses. The fibers were created through a two-stage process that included the preparation of basalt glasses followed by fiber drawing. A key focus of the research was on evaluating the mechanical properties of BCF after low-temperature treatments. Tensile testing revealed that the maximum tensile strength of the fibers was 1915 MPa at room temperature, which decreased to 1714 MPa at −196 °C, representing a shift of −10.5%. The addition of sodium oxide not only broadened the fiber-forming temperature range but also increased the strength to 2351 MPa. However, significant reductions in strength were observed at cryogenic temperatures, particularly for the Na-rich sample, which experienced a decrease of 32.8%. These findings highlight the importance of optimizing oxide content and minimizing hydroxyl (OH) groups to enhance the performance of basalt fibers in low-temperature applications, positioning them as viable materials for use in extreme environments.