Simon P. Ringer

What is he best known for?

The fields of study he is best known for:

• Quantum mechanics
• Composite material
• Electron

His primary scientific interests are in Atom probe, Metallurgy, Alloy, Microstructure and Crystallography. His Atom probe study is associated with Transmission electron microscopy. The various areas that Simon P. Ringer examines in his Metallurgy study include Torsion and Composite material.

He has researched Alloy in several fields, including Nanostructure, Hardening and Dislocation. Simon P. Ringer works in the field of Microstructure, namely Martensite. Simon P. Ringer has included themes like Electron diffraction, Solid solution and Isothermal process in his Crystallography study.

His most cited work include:

• Carbon Nanomaterials in Biosensors: Should You Use Nanotubes or Graphene? (1091 citations)
• Strength, fracture toughness and microstructure of a selection of all-ceramic materials. Part II. Zirconia-based dental ceramics. (628 citations)
• Carbon nanotubes for biological and biomedical applications (491 citations)

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

His primary areas of study are Atom probe, Metallurgy, Alloy, Microstructure and Nanotechnology. His Atom probe research incorporates themes from Grain boundary and Analytical chemistry. His work in Alloy addresses subjects such as Precipitation, which are connected to disciplines such as Phase.

His Microstructure study integrates concerns from other disciplines, such as Aluminium and Nucleation. The study incorporates disciplines such as Optoelectronics and Doping in addition to Nanotechnology. His Crystallography research includes elements of Electron diffraction and Condensed matter physics.

He most often published in these fields:

• Atom probe (35.23%)
• Metallurgy (26.86%)
• Alloy (20.70%)

What were the highlights of his more recent work (between 2016-2021)?

• Atom probe (35.23%)
• Microstructure (20.38%)
• Alloy (20.70%)

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

His primary areas of investigation include Atom probe, Microstructure, Alloy, Condensed matter physics and Composite material. As part of his Crystallography and Nanotechnology and Atom probe studies, Simon P. Ringer is studying Atom probe. His Microstructure study is related to the wider topic of Metallurgy.

His studies deal with areas such as Ultimate tensile strength, Precipitation and Dislocation as well as Alloy. His Condensed matter physics research also works with subjects such as

• Ferroelectricity which is related to area like Nanoscopic scale and Domain,
• Transmission electron microscopy most often made with reference to Biasing. His research in Composite material focuses on subjects like Phase, which are connected to Titanium alloy.

Between 2016 and 2021, his most popular works were:

• On the role of twinning and stacking faults on the crystal plasticity and grain refinement in magnesium alloys (67 citations)
• Dynamic precipitation, segregation and strengthening of an Al-Zn-Mg-Cu alloy (AA7075) processed by high-pressure torsion (64 citations)
• Precipitation strengthening in an ultralight magnesium alloy (34 citations)

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

• Quantum mechanics
• Composite material
• Electron

Atom probe, Alloy, Metallurgy, Microstructure and Crystallography are his primary areas of study. He interconnects Chemical physics, Grain boundary, Nanocrystal, Diffraction and Density functional theory in the investigation of issues within Atom probe. In his research on the topic of Alloy, Crystal twinning is strongly related with Dislocation.

His Metallurgy research includes themes of Volume fraction, Precipitation and Nucleation. The concepts of his Microstructure study are interwoven with issues in Hardening, Raman spectroscopy, Angular resolution, Photoluminescence and Nanocrystalline material. His Crystallography research integrates issues from Affine transformation, Coordinate space, Signal, Signal processing and Calibration.

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