<Table> <Tr> <Td> </Td> <Td> This article needs additional citations for verification . Please help improve this article by adding citations to reliable sources . Unsourced material may be challenged and removed . (June 2007) (Learn how and when to remove this template message) </Td> </Tr> </Table> <Tr> <Td> </Td> <Td> This article needs additional citations for verification . Please help improve this article by adding citations to reliable sources . Unsourced material may be challenged and removed . (June 2007) (Learn how and when to remove this template message) </Td> </Tr> <P> Microstructure is the very small scale structure of a material, defined as the structure of a prepared surface of material as revealed by a microscope above 25 × magnification . The microstructure of a material (such as metals, polymers, ceramics or composites) can strongly influence physical properties such as strength, toughness, ductility, hardness, corrosion resistance, high / low temperature behavior or wear resistance . These properties in turn govern the application of these materials in industrial practice . Microstructure at scales smaller than can be viewed with optical microscopes is often called nanostructure, while the structure in which individual atoms are arranged is known as crystal structure . The nanostructure of biological specimens is referred to as ultrastructure . A microstructure's influence on the mechanical and physical properties of a material is primarily governed by the different defects present or absent of the structure . These defects can take many forms but the primary ones are the pores . Even if those pores play a very important role in the definition of the characteristics of a material, so does its composition . In fact, for many materials, different phases can exist at the same time . These phases have different properties and if managed correctly, can prevent the fracture of the material . </P> <P> The concept of microstructure is observable in macrostructural features in commonplace objects . Galvanized steel, such as the casing of a lamp post or road divider, exhibits a non-uniformly colored patchwork of interlocking polygons of different shades of grey or silver . Each polygon is a single crystal of zinc adhering to the surface of the steel beneath . Zinc and lead are two common metals which form large crystals (grains) visible to the naked eye . The atoms in each grain are organized into one of seven 3d stacking arrangements or crystal lattices (cubic, tetrahedral, hexagonal, monoclinic, triclinic, rhombohedral and orthorhombic). The direction of alignment of the matrices differ between adjacent crystals, leading to variance in the reflectivity of each presented face of the interlocked grains on the galvanized surface . The average grain size can be controlled by processing conditions and composition, and most alloys consist of much smaller grains not visible to the naked eye . This is to increase the strength of the material (see Hall - Petch Strengthening). </P>

The crystal structure of metal is generally examined by