Angus J. Wilkinson

What is he best known for?

The fields of study he is best known for:

• Composite material
• Optics
• Metallurgy

His scientific interests lie mostly in Electron backscatter diffraction, Optics, Composite material, Lattice and Crystallography. His work carried out in the field of Electron backscatter diffraction brings together such families of science as Deformation, Electron diffraction, Misorientation and Dislocation. His Backscatter X-ray, Reflection high-energy electron diffraction and Microscope study in the realm of Optics interacts with subjects such as Kinematics and Infinitesimal strain theory.

In general Composite material study, his work on Cantilever, Plasticity, Slip and Nanoindentation often relates to the realm of Focused ion beam, thereby connecting several areas of interest. The various areas that Angus J. Wilkinson examines in his Lattice study include Computational physics and Curvature. The study incorporates disciplines such as Condensed matter physics and Anisotropy in addition to Crystallography.

His most cited work include:

• High-resolution elastic strain measurement from electron backscatter diffraction patterns: New levels of sensitivity (447 citations)
• A crystallographic mechanism for fatigue crack propagation through grain boundaries (266 citations)
• ELECTRON DIFFRACTION BASED TECHNIQUES IN SCANNING ELECTRON MICROSCOPY OF BULK MATERIALS (244 citations)

What are the main themes of his work throughout his whole career to date?

Angus J. Wilkinson focuses on Electron backscatter diffraction, Composite material, Diffraction, Optics and Dislocation. The Electron backscatter diffraction study combines topics in areas such as Grain boundary, Scanning electron microscope, Lattice, Condensed matter physics and Electron diffraction. His work on Plasticity, Slip, Alloy and Cantilever as part of his general Composite material study is frequently connected to Focused ion beam, thereby bridging the divide between different branches of science.

His research investigates the connection with Diffraction and areas like Microstructure which intersect with concerns in X-ray crystallography. Angus J. Wilkinson focuses mostly in the field of Optics, narrowing it down to matters related to Epitaxy and, in some cases, Optoelectronics. His Dislocation research focuses on Stress and how it connects with Residual stress.

He most often published in these fields:

• Electron backscatter diffraction (49.57%)
• Composite material (30.00%)
• Diffraction (26.09%)

What were the highlights of his more recent work (between 2017-2021)?

• Electron backscatter diffraction (49.57%)
• Diffraction (26.09%)
• Composite material (30.00%)

In recent papers he was focusing on the following fields of study:

His primary areas of study are Electron backscatter diffraction, Diffraction, Composite material, Dislocation and Slip. Electron backscatter diffraction is a subfield of Optics that Angus J. Wilkinson investigates. His biological study spans a wide range of topics, including Image resolution, Molecular physics, Condensed matter physics, Cross-correlation and Microstructure.

His research in the fields of Plasticity, Alloy, Carbide and Recrystallization overlaps with other disciplines such as Focused ion beam. His Dislocation research includes themes of Computational physics, Time of flight and Strain hardening exponent. He combines subjects such as Grain boundary, Riemann curvature tensor, Lattice and Slipping with his study of Slip.

Between 2017 and 2021, his most popular works were:

• Strong grain neighbour effects in polycrystals. (49 citations)
• Quantitative investigation of micro slip and localization in polycrystalline materials under uniaxial tension (38 citations)
• Microstructural degradation of polycrystalline superalloys from oxidized carbides and implications on crack initiation (33 citations)

In his most recent research, the most cited papers focused on:

• Composite material
• Optics
• Metallurgy

His primary scientific interests are in Electron backscatter diffraction, Diffraction, Lattice, Orientation and Condensed matter physics. Angus J. Wilkinson has researched Electron backscatter diffraction in several fields, including Deformation, Data mining and Superalloy. In Superalloy, Angus J. Wilkinson works on issues like Creep, which are connected to Intergranular corrosion, Rhenium, Dislocation and Plasticity.

Angus J. Wilkinson interconnects FOIL method, Molecular physics and Elastic scattering in the investigation of issues within Diffraction. His study in Lattice is interdisciplinary in nature, drawing from both Slip and Tungsten. His Condensed matter physics research is multidisciplinary, incorporating elements of Lattice strain, Angular resolution, Isotropy and Martensite.

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