Additive Manufacturing with Plasma Transfer Arc Weld Tailored Mechanical Response Nickel Superalloys


18 Νοε 2013 (πριν από 4 χρόνια και 7 μήνες)

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Additive Manufacturing with Plasma Transfer Arc Weld

Tailored Mechanical
Response Nickel Superalloys

Dr Gregory J Gibbons, Prof Richard Dashwood

PhD or EngD

Pressing a button on your keyboard which results in digitally materializing a physical product has
been the fascination of science
fiction for decades.

Additive Layer Manufacturing (ALM) is a relatively recent family of manufacturing technologies
which i
s making that dream a reality. Through ALM, objects digitized virtually in 3D (from CAD,
medical scanners, games & movies) are digitally manufactured by producing a series of layers
stacked and laminated together into virtually any shape.

The Technology

e department has invested in a direct deposition plasma transfer arc (PTA) welding system for the
ALM of 3D metallic or metallic composite components. This is a unique capability, and will enable
the manufacture of metallic and metallic composite component
s having complex geometry. The
flexibility of the system in process parameter control (controlling e.g. heating and cooling rates)and
in the choice and control of feed materials (combinations of powders and wires, with simultaneous
multiple feeds) opens u
p this technology for the manufacture of components with tailored
mechanical properties (e.g targeted stiffness and strength).

The Research Question

‘Can PTA ALM be used to provide tailored mechanical response in nickel superalloy and nickel
superalloy met
al matrix composites?’

The Research

This project will investigate this technology for the direct manufacture of high integrity aerospace
and autosports nickel superalloy (e.g Inconel) and superalloy
ceramic metal matrix composite
components. The focus of t
he research will be in the identification of processing parameters and
stratagems to achieve controlled mechanic response variation. The research will require:

Utilisation of the PTA ALM system for the manufacture of test samples, focusing on the
s for development of variable mechanical response.

Material testing to determine mechanical and microstructural properties. Testing will include
(not exclusively) mechanical test (tensile, flexural, fatigue, hardness), SEM (microstructure,
composition and
texture) and XRD (phase composition, texture).

Employing relevant experimental design methodologies to enable identification of the process
property relationships and the range of control of mechanical properties and
microstructure achievable th
rough tailored and graded composition.