Mordazas de cuña
Mordazas de cuña son mordazas auto-tensantes. La tensión inicial se aplica a la probeta mediante un resorte durante el proceso de tensado de la misma. La tensión principal se consigue durante el ensayo mediante el efecto cuña. La tensión de apriete se ajusta mediante una cuña móvil en relación constante a la fuerza de tracción.
- Las mordazas de cuña se indican especialmente en probetas que tienden a escaparse, ya que la tensión de apriete se reajusta automáticamente, compensando así la reducción del espesor de la probeta.
- Las mordazas de cuña cierran de forma simétrica, centrando la probeta automáticamente en el eje de tracción, haciendo obsoleto un ajuste del espesor.
- Con una gran longitud de apriete y buenas características de guía de los insertos, la presión superficial en la probeta se mantiene baja.
- Gracias a su gran resistencia a temperaturas y una reducida altura constructiva son ideales para el uso en cámaras de temperatura.
- Su diseño respalda un rápido y ergonómico accionamiento mediante palanca.
- La palanca se puede bloquear estando las mordazas abiertas.
- Para ensayos funcionales sencillos y de componentes ofrecemos una variante económica con insertos fijos.
Lever principle
Wedge grips operating on this principle are self-clamping grips. On clamping a pre-loading force is applied to the specimen via operation of the lever combined with a spring. However, it is only during the tensile loading that the main gripping force is attained via the wedge effect. The gripping pressure maintains a constant relationship to the tensile force through displacement of the wedges. Grips of this type have the advantage that testing can be performed very quickly and requires little physical effort from the operator.
’Body over wedge’ principle
Wedge grips operating on this principle apply a greater pre-loading force on clamping. The pre-load on the specimen is transmitted by a screw drive via the body to the jaws. In this case also the main gripping force is not attained until during the tensile loading (via the wedge effect). Grips of this type have two main advantages: specimens inclined to slippage are gripped more firmly right from the beginning; the clamping length remains constant, even if thickness varies from specimen to specimen. In addition, strain-rate control to ISO 6892-1 (2009) Method A (closed loop) and ASTM E 8 (2009) Method B can be applied with greater precision.
General advantages of both operating principles:
- wedge grips are ideally suited to specimens prone to shrinkage, as they automatically re-tighten, compensating for decreasing specimen thickness
- wedge grips close symmetrically, automatically positioning the specimen in the tensile axis and eliminating the need for thickness adjustment
- large clamping length and good jaw guiding properties allow contact pressure on the specimen to be kept low
- high temperature resistance and low overall height make them ideal for use in temperature chambers.
