Aluminum is valuable for several reasons: it is relatively light-weight, resists corrosion and lacks magnetic properties, making it a practical element for multiple purposes. Aluminum ranks among the most versatile elements. It resists sparking and damage from heat, making it suitable for use in heat-conducting equipment and components.
Among the global class of metals and elements, aluminum ranks high on the list of most malleable and ductile. It features a soft and flexible design, making it useful for fitting tight spaces and unusual dimensions. Aluminum bends and twists with pressure rather than splintering and breaking, making it a practical and popular choice for fortifying fragile materials. Although among the most versatile elements, aluminum requires production through artificial mechanisms, as it does not occur naturally anywhere on Earth. Aluminum derives primarily from clay, and is formed from synthetic compounds, too. Aluminum comprises a portion of the Earth's crust and resides in several minerals, including granite and calcium. This versatile substance features a distinct chalky white appearance. It combines readily with other substances, facilitating the creation of aluminum compounds. Aluminum forms several alloys, including copper, magnesium and silicon. The combination of these elements facilitates electrical transmission by combining the strength of the alloy metals with the non-reactive nature of aluminum.