Tensility
Tensility refers to a material's ability to withstand tensile stress, specifically the resistance to being stretched or pulled apart before reaching its breaking point. It encompasses the material's capacity to elongate under tension without fracturing or suffering permanent deformation beyond a certain elastic limit. This property is critical in assessing the suitability of materials for applications involving loads or forces that cause stretching or pulling.
Tensility meaning with examples
- The steel cable's high tensility made it ideal for supporting the bridge, as it could endure the immense weight and continuous tension without snapping. This property ensures the bridge's structural integrity and prevents catastrophic failure under heavy traffic.
- Manufacturers assess the tensility of fabrics to ensure garments maintain their shape and resist tearing. Testing the fabric shows its resistance to the stresses during wear and laundering.
- Before a building material is used, construction engineers rigorously test its tensility, ensuring it can handle the forces of wind and gravity to which it is subjected.
- The rubber band's tensility allowed it to stretch considerably when used to launch a toy, absorbing and releasing the energy of the pull without tearing or fracturing.
- The new aircraft's composite material showcases excellent tensility, enabling the plane to withstand the forces of flight, including lift, drag, and turbulence, with a reduced risk of structural failure.
