The manufacturing benefits of nanotechnology are detailed.The principles of nanotechnology, as well as definitions and descriptions of the scales involved are discussed.An overall objective of advanced manufacturing as a concept is defined…
Nanostructural elements are explained, with possible applications not only in the production process of physical goods, but at other phases of manufacturing, including assistance with environmental requirements due to efficiency. Nanotech has the potential for faster, cleaner industry with more effective options for waste removal and prevention of toxic emissions. Three tasks are discussed, with implications of nanostructures as they benefit circuit manufacture, factory waste-emissions, and miniaturization for ionic conductance components. The benefits as well as disadvantages are explained, with recommendations for further implementation and research. INTRODUCTION The principles of advanced manufacturing, as it pertains to manufacturing flexibility are widely recognized as critical. Retaining and maintaining flexibility in manufacturing and operational procedures boosts the organization's capability to respond effectively to ongoing customer issues and requirements, the goal being to respond without the sacrifice of excessive time and money. A comprehension of the interaction between advanced manufacturing technology and flexibility in the manufacturing process are vital areas of investigation for any productive operation. Advanced manufacturing technology, hereafter referred to as AMT, is essential not simply in the production of more advanced consumer goods, but a more refined technical capability can also permit organizational agility, flexibility during functional operations. Modern research has produced statistical results that indicate a correlation between an organization's sourcing practices and manufacturing flexibility, essential for adaptation to both a changing marketplace, and shifting product demand at any given time. (Oberoi, et al. 2008) AMT allows control over sourcing practices. This methodology permits the achievement of desirable benchmarks in manufacturing flexibility, towards the objective of high agility organizational competitiveness. An excellent modern example would be the growing prevalence of Nanomanufacturing. Nanotechnology and the manufacturing it entails constitute a series of chemical and mechanical techniques that allow the assembly of particles far smaller than any which could be assembled by purely hand-based tools. This paper will demonstrate a wide range of advantages afforded with nanotech and nanoscale manufacturing technology, and how this pertains to the goal of advanced manufacturing technology. Nanotechnology has the potential to act as a new methodology for reducing the energy costs and waste-production of manufacturing processes to benefit a variety of production interests. Potential uses include chemical, refining, automotive, and other heavy industries. There are projections which indicate nanotechnology yields the potential to save up to 1.1 quadrillion British thermal units (Btu) and prevent over 60 million metric tons of carbon dioxide emissions each year. (U.S. Department ...
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