Skip to main navigation
Skip to search
Skip to main content
Northwestern Polytechnical University Home
English
中文
Home
Profiles
Research units
Research output
Search by expertise, name or affiliation
View Scopus Profile
Suo Tao
Professor
School of Aeronautics
h-index
3708
Citations
36
h-index
Calculated based on number of publications stored in Pure and citations from Scopus
2004
2025
Research activity per year
Overview
Fingerprint
Network
Research output
(243)
Similar Profiles
(10)
Fingerprint
Dive into the research topics where Tao Suo is active. These topic labels come from the works of this person. Together they form a unique fingerprint.
Sort by
Weight
Alphabetically
Engineering
Strain Rate
70%
Tensiles
33%
High Strain Rate
30%
Experimental Result
26%
Split Hopkinson Pressure Bar
23%
Loading Rate
23%
Strain Rate Sensitivity
21%
Plastic Deformation
21%
Equal Channel Angular Pressing
21%
Flow Stress
20%
Elevated Temperature
19%
Compression Strength
18%
Rates of Strain
18%
Compressive Strength
18%
Strain Hardening
16%
Compressive Behavior
16%
Digital Image Correlation
16%
Finite Element Analysis
16%
Hopkinson Bar
15%
Constitutive Model
15%
Hopkinson
14%
Room Temperature
13%
Bending Strength
13%
Static Loading
13%
Dynamic Loads
13%
Impact Loads
13%
Tensile Test
12%
Dynamic Behavior
12%
Impact Velocity
12%
Dynamic Loading Condition
12%
Deformation Behavior
11%
Adiabatic Shear
11%
Impact Response
11%
Failure Mode
11%
Adiabatic Shear Band
10%
Damage Evolution
10%
Deformation Mechanism
10%
Strain Hardening Rate
10%
Testing Machine
9%
Joints (Structural Components)
9%
Shear Localization
9%
Activation Volume
9%
Quasistatic Loading Condition
9%
Coupling Effect
9%
Correlation Method
9%
Loading Condition
8%
Finite Element Modeling
8%
Finite Element Simulation
8%
Face-Centered Cubic
8%
Failure Process
8%
Material Science
Strain Rate
100%
Composite Material
47%
Equal Channel Angular Extrusion
33%
Aluminosilicate
27%
Work Hardening
26%
Finite Element Method
23%
Density
22%
Static Loading
21%
Dynamic Loads
21%
Plastic Deformation
21%
Aluminum
17%
Magnesium Alloy
17%
Compressive Strength
14%
Adiabatic Shear Band
13%
Grain Boundary
12%
Flexural Strength
12%
Impact Loads
12%
Deformation Mechanism
12%
Grain Size
11%
Yield Stress
11%
Nanocrystalline
10%
Ti-6Al-4V
10%
Grain Refinement
10%
Damage Evolution
10%
Ultimate Tensile Strength
9%
Carbon Fiber
9%
High Entropy Alloys
8%
Scanning Electron Microscopy
8%
Medium-Entropy Alloy
8%
Effect of Strain
8%
Surface (Surface Science)
8%
Riveted Joint
8%
Finite Element Modeling
7%
Ceramic Matrix Composites
7%
Film
7%
Mechanical Testing
7%
Tensile Property
7%
Residual Stress
6%
Fracture Toughness
6%
Titanium Alloy
6%
Carbon Nanotube
6%
Delamination
5%
Composite Laminate
5%
Heat Treatment
5%
