What is he best known for?
The fields of study he is best known for:
- Metallurgy
- Composite material
- Hydrogen
Tsuyoshi Masumoto spends much of his time researching Metallurgy, Amorphous metal, Amorphous solid, Alloy and Supercooling.
His Metallurgy research integrates issues from Mechanical strength, Composite material and Nanocrystalline material.
The various areas that Tsuyoshi Masumoto examines in his Amorphous metal study include Ultimate tensile strength, Ductility, Crystallization, Melt spinning and Analytical chemistry.
His Amorphous solid study incorporates themes from Boron, Amorphous carbon, Corrosion, Mineralogy and Metal.
His study explores the link between Alloy and topics such as Polarization that cross with problems in Anode, Passivity, Nickel and Dissolution.
As part of one scientific family, Tsuyoshi Masumoto deals mainly with the area of Supercooling, narrowing it down to issues related to the Glass transition, and often Thermodynamics, Viscosity and Amorphous phase.
His most cited work include:
- Rapidly Solidified Powder Metallurgy Mg97Zn1Y2Alloys with Excellent Tensile Yield Strength above 600 MPa (735 citations)
- Zr–Al–Ni Amorphous Alloys with High Glass Transition Temperature and Significant Supercooled Liquid Region (661 citations)
- Amorphous Zr–Al–TM (TM=Co, Ni, Cu) Alloys with Significant Supercooled Liquid Region of Over 100 K (639 citations)
What are the main themes of his work throughout his whole career to date?
The scientist’s investigation covers issues in Metallurgy, Amorphous solid, Amorphous metal, Alloy and Crystallography.
His research on Metallurgy often connects related areas such as Nanocrystalline material.
His Amorphous solid research incorporates elements of Crystallization, Chemical engineering, Annealing and Condensed matter physics.
He has included themes like Melt spinning, Supercooling, Glass transition and Analytical chemistry in his Amorphous metal study.
His research integrates issues of Mineralogy and Electrical resistivity and conductivity in his study of Analytical chemistry.
His Crystallography study combines topics from a wide range of disciplines, such as X-ray crystallography and Electron diffraction.
He most often published in these fields:
- Metallurgy (45.96%)
- Amorphous solid (42.63%)
- Amorphous metal (37.40%)
What were the highlights of his more recent work (between 1991-2018)?
- Metallurgy (45.96%)
- Amorphous solid (42.63%)
- Amorphous metal (37.40%)
In recent papers he was focusing on the following fields of study:
His main research concerns Metallurgy, Amorphous solid, Amorphous metal, Alloy and Analytical chemistry.
His research in Metallurgy intersects with topics in Crystallization, Composite material and Nanocrystalline material.
His study looks at the intersection of Amorphous solid and topics like Magnetization with Magnetic susceptibility.
His Amorphous metal study integrates concerns from other disciplines, such as Melt spinning, Glass transition, Supercooling, Atmospheric temperature range and Ductility.
His work deals with themes such as Crystallography, Microstructure, Quasicrystal, Extrusion and Aluminium, which intersect with Alloy.
His study in Analytical chemistry is interdisciplinary in nature, drawing from both Volume fraction, Crystal structure, Electrical resistivity and conductivity and Sputtering.
Between 1991 and 2018, his most popular works were:
- Rapidly Solidified Powder Metallurgy Mg97Zn1Y2Alloys with Excellent Tensile Yield Strength above 600 MPa (735 citations)
- Glass-forming ability of alloys (517 citations)
- Ti-based amorphous alloys with a wide supercooled liquid region (181 citations)
In his most recent research, the most cited papers focused on:
- Metallurgy
- Composite material
- Alloy
Tsuyoshi Masumoto mainly focuses on Metallurgy, Alloy, Amorphous metal, Amorphous solid and Supercooling.
His Metallurgy research integrates issues from Crystallization, Composite material, Glass transition and Analytical chemistry.
His Alloy study combines topics in areas such as Crystallography, Powder metallurgy, Microstructure, Quasicrystal and Aluminium.
Tsuyoshi Masumoto interconnects Tensile testing, Extrusion, Melt spinning and Aluminium alloy in the investigation of issues within Amorphous metal.
His Amorphous solid research incorporates elements of Ductility, Metal, Coercivity and Nanocrystalline material.
His Supercooling research focuses on subjects like Strain rate, which are linked to Stress relaxation, Stress–strain curve and Zirconium alloy.
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