J. David Embury

Q: What Schools Are Affiliated With J. David Embury

J. David Embury is affiliated with the following schools: McGill University, University of British Columbia, McMaster University

J. David Embury's AcademicInfluence.com Rankings

J. David Embury

Engineering

#8254

World Rank

#9759

Historical Rank

Electrical Engineering

#2801

World Rank

#2944

Historical Rank

engineering Degrees

J. David Embury

Philosophy

#12182

World Rank

#16887

Historical Rank

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#8998

World Rank

#11347

Historical Rank

philosophy Degrees

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Engineering
Philosophy

J. David Embury's Degrees

Bachelors Physics University of British Columbia

Why Is J. David Embury Influential?

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According to Wikipedia, J. David Embury is a Canadian material scientist and engineer, having been a Distinguished University Professor at McMaster University. In 2002, Embury was elected a member of the National Academy of Engineering for outstanding contributions to fundamental structure/mechanical property relations of materials and their applications.

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J. David Embury's Published Works

Number of citations in a given year to any of this author's works

Total number of citations to an author for the works they published in a given year. This highlights publication of the most important work(s) by the author

Published Works

The structure and properties of drawn pearlite (1966) (499)
Structure and mechanical properties of Cu-X (X = Nb,Cr,Ni) nanolayered composites (1998) (332)
The nucleation of precipitates: The system Al-Zn-Mg (1965) (316)
Nanoscale-twinning-induced strengthening in austenitic stainless steel thin films (2004) (204)
The fabrication, properties and microstructure of Cu–Ag and Cu–Nb composite conductors (1999) (131)
Dislocation mechanisms and symmetric slip in rolled nano-scale metallic multilayers (2004) (124)
Growth and Structure of Nickel Oxide on Nickel Crystal Faces (1975) (105)
Deformation mechanism maps for polycrystalline metallic multiplayers (1999) (90)
The role of structural defects in the growth of nickel oxide films (1968) (87)
Dislocation sources in an aluminium alloy (1963) (70)
Established and Emerging Materials for use as High‐Field Magnet Conductors (2004) (55)
Transmission electron microscopy investigation of the atomic structure of interfaces in nanoscale Cu–Nb multilayers (2008) (49)
Fracture toughness of diamondlike carbon coatings (1999) (46)
Microstructure, indentation and work hardening of Cu/Ag multilayers (2006) (46)
Conductor materials for high field magnets (1998) (44)
Strengthening mechanisms in nanostructured copper/304 stainless steel multilayers (2003) (42)
Observation of body centered cubic Cu in Cu/Nb nanolayered composites (1997) (39)
Microstructural aspects of Cu–Ag produced by the Taylor wire method (1998) (38)
Electrical resistivity of sputtered Cu/Cr multilayered thin films (1999) (33)
Microstructural Aspects of Materials for Nondestructive Long-Pulse High-Field Magnets (1993) (24)
Material issues in the 100 T non-destructive magnet (2000) (20)
Development of high strength pure copper wires by cryogenic deformation for magnet applications (2000) (19)
Structural aspects of the Bauschinger effect (1987) (13)
Ductile-to-Brittle Transition in MoSi 2 (1992) (10)
Residual stress, mechanical behavior and electrical properties of Cu/Nb thin-film multilayers (1995) (9)
Plastic behavior of Cu/Ni multilayers (1998) (8)
A structure investigation of epitaxial Fe-Pt multilayers (2002) (7)
New Cryogenic Processing for the Development of High Strength Copper Wire for Magnet Applications (2000) (6)
Modelling of material behavior and design (1990) (6)
The influence of microstructural features on the formability of aluminium alloys (1986) (5)
On the Tensile Fracture of Aluminium Alloys (1974) (4)
Dislocation accumulation at large plastic strains -- An approach to the theoretical strength of materials (1999) (4)
Electron microscopy of electrodeposited films (1966) (4)
Some aspects of the fracture behaviour of high strength, low alloy steels (1975) (4)
Erratum deformation mechanism maps for polycrystalline metallic multilayers (1999) (4)
Survey of Processing Methods for High Strength High Conductivity Wires for High Field Magnet Applications (1998) (4)
A structure investigation of epitaxial Fe–Pt multilayers (2002) (2)
Fabrication Routes for High Strength High Conductivity Wires (1998) (2)
Microstructures and Mechanical Properties of Nanostructured Copper-304 Stainless Steel Multilayers Synthesized by Magnetron Sputtering (2002) (1)
The Development of Ultra High Strength Materials by Microstructural Refinement (2003) (1)
The Influence of a Fine Particle Dispersion on the Recrystallization Behaviour ofa Two Phase Aluminium Alloy (1975) (1)
The Fracture Behaviour of a Medium Strength Al-Zn-Mg Alloy (1973) (1)
Internal Stresses in Wires for High Field Magnets (1998) (1)
The Structure and Mechanical Properties of Ru-Cu and Ru-Ti Nanolayer Composites (1993) (0)
UNUSUAL METAL BEHAVIOR IN TAYLOR MICROWIRES (2001) (0)
Phase transformation and layer evolution in molybdenum disilicide-silicon carbide nanolayered coatings (1994) (0)
A Survey of Processing Methods Conductivity Wires for High Field for High Strength High Magnet Applications (0)
Properties and Applications of Ultrafine-Scaled Composites (2021) (0)
Some Views on the Future of Composite Materials (2020) (0)
Cyclic loading and residual strains in Cu25%Ag composites (2000) (0)
Development of materials related to the 60T and 100T magnets (1997) (0)

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Other Resources About J. David Embury

en.wikipedia.org

What Schools Are Affiliated With J. David Embury?

J. David Embury is affiliated with the following schools:

J. David Embury's Academic­Influence.com Rankings

J. David Embury's Degrees

Why Is J. David Embury Influential?

J. David Embury's Published Works

Published Works

Other Resources About J. David Embury

What Schools Are Affiliated With J. David Embury?

J. David Embury's AcademicInfluence.com Rankings