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UNIRAZAK Library Pustaka
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| Abstract : UNIRAZAK Library |
| Previously known as "rapid prototyping" before being renamed "additive manufacturing" to
better reflect the nature of the process, it is an approach for quickly developing a representation
of a system or component during the early stages of product development is known as rapid
prototyping (RP). The primary goal is to develop a prototype or basic model as quickly as
possible, followed by further models, and finally the finalised product. Known as rapid
prototyping in the product development world, it is a term used to describe technology that can
manufacture physical prototypes in a relatively short period of time. The use of this technology
allows products to be manufactured directly from digital data. Many different variations of
these technologies have been developed since their inception, and they are now being employed
in a wide variety of applications. Users of RP technology have come to the conclusion that the
label "RP" is inadequate and does not accurately describe the technology's most recent uses. A
significant improvement in the quality of the output from these machines has resulted in a
considerably closer interaction between the machine and the finished product. We can no
longer refer to these machines as "prototypes" because they are now capable of directly
manufacturing a large number of different parts at the same time. The term "Rapid Prototyping"
is misleading since it ignores the most crucial component of these technologies: they all rely
on additive techniques to construct their finished products. The ASTM International Technical
Committee came to the conclusion that a new nomenclature should be used for the organisation.
A consequence of this is that the term additive manufacturing is now used by the vast majority
of international standards organisations, such as the American Society for Testing and
Materials (ASTM). In addition to being known as additive manufacturing (AM), amplifier
manufacturing is founded on the idea that a model developed with a three-dimensional
Computer Aided Design (3D CAD) system can be constructed immediately without the need
for any process preparation. Additive manufacturing technology (AM) makes the process of
making complex 3D objects directly from CAD data simpler, despite the fact that it is not as
straightforward as it appears at first glance. A full analysis of the component geometry is
required in order to determine things such as the sequence in which distinct features can be
made, the equipment and processes that must be used, and any additional features that may be
required to complete the part. For additive manufacturing, all that is necessary is a fundamental
understanding of how the additive manufacturing machine works as well as the materials that
are used in the item's construction. This study project assesses and advances the current state
of the art in the field of additive manufacturing through debate and presentation. It is intended
to be a collaborative effort between researchers and industry. This project delves into three case
studies in depth, including an assessment of each event as well as the conceptual frameworks
that are proposed for each example |
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