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Residual Stress Measurement in Fibre Laser Beam Welded Aluminium Plates
Fibre Laser Beam Welding (FLBW) is a relatively new technology that has many advantages over other welding techniques. An understanding of the residual stress and... -
Internal phase strain evolution during high temperature deformation of model ...
Alpha-beta Ti and Zr alloys are an important class of high strength alloys used in aerospace and nuclear power generation. They are unique in that their mechanical properties... -
In-situ Neutron Diffraction Study on the Tension and Creep Behavior of the Al...
Resubmitted proposal. High-entropy alloys (HEAs) are loosely defined as solid solution alloys that contain more than five principal elements in equal or near equal atomic... -
Residual Stress Measurement in Fibre Laser Beam Welded Aluminium Plates
Fibre Laser Beam Welding (FLBW) is a relatively new technology that has many advantages over other welding techniques. An understanding of the residual stress and... -
In-situ Neutron Diffraction Measurement combined with the First Cyclic Deform...
As additive manufacturing (AM) is moving into the production of more heavily loaded end-use components, particularly within the aerospace sector, improved understanding of the... -
Measurement of residual stresses and stress relaxation during heat treatment ...
The understanding of residual stresses is essential to utilize materials properties and to optimize castings. Previous experiments showed a large deviation between simulated and... -
Residual Stress Measurement in Fibre Laser Beam Welded Aluminium Plates
Fibre Laser Beam Welding (FLBW) is a relatively new technology that has many advantages over other welding techniques. An understanding of the residual stress and... -
In-situ analysis of martensite transformation in Austempered Ductile Iron
The microstructure of austempered ductile iron (ADI) consists of high carbon autenite and bainitic ferrite along with graphite nodules, which is created by austenitising and...
