How will understanding Crystalline Structure affect material selection.write more as you can. please dont copy & paste, write in your own words. thank you Solution The properties of materials mainly depends on the internal arrangement of the atoms on molecules.In the selection of materials, the awarenessregarding differences and similarities between materials is extremely important. Metals of a single type atom are named pure metals. Metals in actual commercial use are almost exclusively alloys, and not pure metals, since it is possible for the designer to realize an infinite variety of physical properties in the product by varying the metallic composition of the alloy. Alloys are prepared from mixed types of atoms. Alloys are classified as binary alloys, composed of two components, as ternary alloys, composed of three components or as multi component alloys. Most commercial alloys are multicomponent. The composition of an alloy is described by giving the percentage (either by weight or by atoms) of each element in it. The basic atomic arrangement or pattern is not apparent in the final component, e.g. a shaft or a pulley but the properties of the individual crystals within the metallic component, which are controlled by the atomic arrangement, are mainly responsible for their application in industry. One can determine the strength of a piece of metal by its ability to withstand external loading. The structure of metal or alloy responds internally to the applied load by trying to counteract the magnitude of the applied load and thus tries to keep the constituent atoms in their ordered positions if however the load is higher than the force which holds the atoms in place, the metallic bond becomes ineffective and atoms in the metal are then forced into new displaced positions. The movement of atoms from their original positions in the metal is termed as slip. The ease with which atoms move or slip in a metal is an indication of hardness. We must note that the relative movement of atoms or slip within a material has a direct bearing on the mechanical properties of the material..