His Composite material study frequently draws connections between related disciplines such as Deformation (meteorology). His work on Deformation (meteorology) is being expanded to include thematically relevant topics such as Composite material. As part of his studies on Metallurgy, he often connects relevant subjects like Brittleness. Ronald O. Scattergood merges Nanocrystalline material with Alloy in his research. He undertakes interdisciplinary study in the fields of Alloy and Ultimate tensile strength through his research. His study in Elongation extends to Ultimate tensile strength with its themes. His Nanotechnology study frequently intersects with other fields, such as Nanocrystalline material. His study deals with a combination of Dislocation and Dislocation creep. He regularly links together related areas like Dislocation in his Condensed matter physics studies.
His Composite material study frequently links to other fields, such as Dislocation. His study connects Composite material and Dislocation. Ronald O. Scattergood integrates Metallurgy with Alloy in his research. He performs integrative study on Alloy and Metallurgy in his works. His Nanotechnology study frequently links to other fields, such as Nanocrystalline material. Much of his study explores Nanocrystalline material relationship to Nanotechnology. His Erosion research extends to the thematically linked field of Paleontology. His Erosion study frequently involves adjacent topics like Paleontology. His research on Microstructure often connects related topics like Grain boundary.
Ronald O. Scattergood links relevant study fields such as Transmission electron microscopy and Nanocrystalline material in the subject of Nanotechnology. Ronald O. Scattergood undertakes multidisciplinary studies into Transmission electron microscopy and Nanotechnology in his work. While working in this field, he studies both Nanocrystalline material and Alloy. Alloy and Ultimate tensile strength are two areas of study in which he engages in interdisciplinary work. His Ultimate tensile strength study often links to related topics such as Composite material. His work on High entropy alloys expands to the thematically related Composite material. Ronald O. Scattergood connects Metallurgy with Intermetallic in his research. His work on Thermodynamics expands to the thematically related Thermal. The study of Thermodynamics is intertwined with the study of Thermal in a number of ways.
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Ductile-Regime Grinding: A New Technology for Machining Brittle Materials
T. G. Bifano;T. A. Dow;R. O. Scattergood.
Journal of Engineering for Industry (1991)
Ductile‐Regime Machining of Germanium and Silicon
Peter N. Blake;Ronald O. Scattergood.
Journal of the American Ceramic Society (1990)
Ultrahigh strength and high ductility of bulk nanocrystalline copper
Khaled M. Youssef;Ronald O. Scattergood;K. Linga Murty;Joseph A. Horton.
Applied Physics Letters (2005)
Ductile-regime machining model for diamond turning of brittle materials
W.S. Blackley;R.O. Scattergood.
Precision Engineering-journal of The International Societies for Precision Engineering and Nanotechnology (1991)
Nanocrystalline Al–Mg alloy with ultrahigh strength and good ductility
K.M. Youssef;R.O. Scattergood;K.L. Murty;C.C. Koch.
Scripta Materialia (2006)
Evaluation of mechanical properties using shear–punch testing
R.K. Guduru;K.A. Darling;R. Kishore;R.O. Scattergood.
Materials Science and Engineering A-structural Materials Properties Microstructure and Processing (2005)
Stabilization of nanocrystalline grain sizes by solute additions
C. C. Koch;R. O. Scattergood;K. A. Darling;J. E. Semones.
Journal of Materials Science (2008)
Ultratough nanocrystalline copper with a narrow grain size distribution
Khaled M. Youssef;Ronald O. Scattergood;K. Linga Murty;Carl C. Koch.
Applied Physics Letters (2004)
A modified model for hall-petch behavior in nanocrystalline materials
R.O. Scattergood;C.C. Koch.
Scripta Metallurgica Et Materialia (1992)
Thermal stability of nanocrystalline Fe–Zr alloys
K.A. Darling;B.K. VanLeeuwen;C.C. Koch;R.O. Scattergood.
Materials Science and Engineering A-structural Materials Properties Microstructure and Processing (2010)
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