Abstract
Nowadays, additive manufacturing (AM) has gained increasing importance, owing to developing processes and tooling that introduced its benefits to different materials' applications. Many AM uses its intrinsic abilities to utilise existing stock feed materials to create parts with features spanning multiple length scales. It was not possible before via another manufacturing process. These processes' excitement has been tempered by recognising difficulties introduced by AM, including the inducement of mechanical and chemical Properties, undesirable microstructure, and the challenge of maintaining dimensional stability. Computational modelling is becoming a useful tool in addressing many of the difficulties inherent in the process. This review's main purpose is to provide some information and discuss ongoing working progress in the modeling and simulation system as applied to AM and additive manufacturing of metal and polymeric nanocomposite material.
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