From Encyclopedia Jr, free information reference for Kids
Ductility is the physical property of being capable of sustaining large plastic deformations without fracture (in metals, such as being drawn into a wire). It is characterized by the material flowing under shear stress.
[edit] Definition
Ductility is the amount that any material yields under shear stress. Gold, copper, aluminium, and steel express high ductility.
Ductility is related to malleability.
In Earth science, the brittle-ductile transition zone is a zone at an approximate depth of 10 km in the Earth, at which rock becomes less likely to fracture, and more likely to deform ductilely. In glacial ice this zone is at approximately 30 metres depth. It is not impossible for material above a brittle-ductile transition zone to deform ductilely, nor for material below to deform brittly. The zone exists because as depth increases, confining pressure increases, and brittle strength increases with confining pressure whilst ductile strength decreases with increasing temperature. The transition zone occurs at the point where brittle strength exceeds ductile strength.
In physics/materials science the ductile-brittle transition temperature (DBTT) of a material represents the point at which the fracture energy passes below a pre-determined point (for steels typically 40J (J.Vernon, Introduction to engineering Materials) for a standard Charpy Impact test). DBTT is important since once a material is cooled below the DBTT, it has a much greater tendency to shatter on impact instead of bending or deforming. For example, ZAMAK 3, a zinc die casting alloy exhibits good ductility at room temperature but shatters at sub zero temperatures when impacted. DBTT is very important consideration in materials selection when the material in question is subject to mechanical stresses.
In some materials this transition is sharper than others. For example, the transition is generally sharper in materials with a BCC lattice than those with an FCC lattice. DBTT can also be influenced by external factors such as neutron irradiation which leads to an increase in internal lattice defects and a corresponding decrease in ductilility and increase in DBTT.