Download PDF by T.S. Srivatsan, T.S. Sudarshan: Additive Manufacturing Innovations, Advances, and
By T.S. Srivatsan, T.S. Sudarshan
The innovation of making a 3-dimensional item layer by way of layer utilizing computer-aided design
(CAD) used to be initially termed speedy prototyping, a helpful procedure that used to be constructed in the
early Eighties for the aim of producing. In its early phases, speedy prototyping used to be typically
used to create types and prototype components and provided fast cognizance of what engineers had
envisioned. speedy prototyping used to be one of many initial techniques that finally culminated
in additive production (AM), which permits the creation of tangible published components, in addition
to types. the main awesome advances the method deals are the improvement and construction of
products with a visible relief in either time and value, facilitated through elevated human interaction
and optimization of the product improvement cycle, hence making it attainable to create almost
any form that will rather be tough to computing device utilizing traditional ideas. With the
emergence of additive production, scientists, engineers, or even scholars can speedily construct and
analyze types for the aim of theoretical comprehension and similar experiences. within the medical
profession, medical professionals were in a position to construct types of varied elements of the physique to investigate accidents or
disease and to plot acceptable scientific tactics. Additive production has additionally made it possible
for industry researchers to assemble the reviews of power dealers of newly constructed products
and for artists to discover their creativity.
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Additional resources for Additive Manufacturing Innovations, Advances, and Applications
8 Mechanical Properties of Additive Manufactured Materials There is a paucity of information in the published literature covering aspects specific to the mechanical properties, performance, and overall behavior of materials manufactured using one of the additive manufacturing techniques. , mechanical behavior) of additive manufactured end products is essential to ensuring their sustained presence, selection, and use for a spectrum of critical applications spanning the domains of aerospace, ground transportation, and far-reaching applications in the medical field.
Referred to as the “third industrial revolution,”86 additive manufacturing has the potential to realize cost-effective mass customization and production of complex products that could not be easily manufactured using any one of the conventionally available techniques. With the aid of additive manufacturing, products can be easily manufactured 1. 85,86 Additive manufacturing has the potential to produce complex parts using functionally graded materials (FGMs). The ability to deliver different materials to building areas is necessary to build components using FGMs.
A key technique belonging to this class that has gained in both significance and approval for use is electron beam freeform fabrication (EBF3). 81 The technology was subsequently studied and improved upon at the NASA Langley Research Center (Hampton, VA) for the production of unitized structures using such aerospace materials as81 1. Alloys of titanium 3. Nickel-based superalloys 4. Titanium–aluminides 5. High-strength steel 6. 75 The technique of EBF3 is similar to laser engineered net shaping except that electron beams are used as the heat source.
Additive Manufacturing Innovations, Advances, and Applications by T.S. Srivatsan, T.S. Sudarshan