Skip to main navigation
Skip to search
Skip to main content
Research Explorer The University of Manchester Home
Home
Profiles
Research units
Research output
Projects
Impacts
Activities
Press/Media
Prizes
Equipment
Datasets
Student theses
Search by expertise, name or affiliation
Kun Yan
Dr
Lecturer in Metallurgy
,
Materials Engineering
https://orcid.org/0000-0001-5779-6394
Overview
Fingerprint
Network
Research output
(42)
Projects
(1)
Similar Profiles
(6)
Supervised Work
(5)
Fingerprint
Dive into the research topics where Kun Yan is active. These topic labels come from the works of this person. Together they form a unique fingerprint.
Sort by
Weight
Alphabetically
Material Science
Neutron Diffraction
100%
Deformation Mechanism
91%
Stainless Steel
62%
TWIP Steel
62%
Plastic Deformation
50%
Synchrotron X-Ray Diffraction
48%
Martensite
43%
X-Ray Diffraction
43%
Stacking Fault
37%
Residual Stress
37%
High Entropy Alloys
37%
Austenite
35%
Grain Refinement
31%
Transmission Electron Microscopy
30%
Bulk Metallic Glass
29%
Intermetallics
29%
Microstructural Evolution
27%
Zirconium Alloys
25%
Crystal Structure
25%
Anisotropy
25%
Magnesium
25%
Creep
25%
Refractory Material
25%
Crystallite
25%
Strain Rate
20%
Amorphous Metal
19%
Thermal Expansion
18%
Building Material
18%
Powder
18%
Yield Stress
18%
Coarsening
17%
Tensile Loads
16%
Grain Size
16%
Diffraction Pattern
16%
Mechanical Property
15%
Carburization
14%
Powder Metallurgy
14%
Electron Microscopy
14%
Ultimate Tensile Strength
14%
Solidification
14%
Thermomechanical Processing
14%
Volume Fraction
14%
Novel Material
12%
Shear Band
12%
Titanium Aluminide
12%
Nucleation
12%
Glass Transition
12%
Low-Cycle Fatigue
12%
Nickel Alloys
12%
Molybdenum
12%
Engineering
Ray Diffraction
66%
Stainless Steel
62%
Deformation Mechanism
60%
Dynamic Recrystallization
53%
TWIP Steel
50%
Microstructure
45%
Hot Working
37%
Deformation Behavior
37%
Residual Stress
37%
Room Temperature
29%
Austenite
27%
Plastic Deformation
26%
Martensite
25%
Creep
25%
Microstructural Feature
25%
Crystallite
25%
Microstructural Evolution
23%
Strain Rate
20%
Tensiles
19%
Dynamic Recovery
18%
Jet Engine
18%
Increasing Temperature
18%
Gas Environment
17%
Austenitic Stainless Steel
17%
Bulk Metallic Glass
16%
Compressive Deformation
16%
Texture Evolution
16%
Deposited Energy
15%
Mn Steel
14%
Situ Observation
12%
Multiscale
12%
Situ Study
12%
Shock Loads
12%
Flexible Pipe
12%
Polycrystalline
12%
Structural Materials
12%
Retained Austenite
12%
Defects
12%
Vegards Law
12%
Grain Orientation
12%
Nucleation Site
12%
Melting Temperature
12%
Dynamic Equilibrium
12%
Tensile Loads
12%
Low-Temperature
12%
Polycrystal
12%
Austenite Grain Size
12%
Bragg Reflection
12%
Crystallite Size
12%
Induced Plasticity
12%