Keyphrases
Spark Plasma Sintering
66%
ZrB2-based Composites
66%
Fracture Toughness
55%
Vol%
52%
Square Shape
50%
ZrB2
38%
Sintering Temperature
33%
Al-B4C Composite
33%
Structural Inhomogeneity
33%
TiB2
33%
C-core
33%
Plasma Characterization
33%
TiB2-C
33%
Core-shell Microstructure
33%
Spark Plasma Sintering Technique
33%
Self-propagating High-temperature Synthesis
33%
Mechanical Properties
25%
ZrB2 Addition
19%
Boron Carbide
19%
Controlled Experiment
16%
Argon Atmosphere
16%
Phase Composition
16%
Sintering Pressure
16%
Fracture Microstructure
16%
In Situ Synthesis
16%
Molecular Dynamics Simulation
16%
Reaction Enthalpy
16%
Boron Carbide Ceramics
16%
Synthesis Reaction
16%
Ti Addition
16%
Synthesis Methods
16%
Ceramic Matrix Composites
16%
X-ray Transmission
16%
Transmission Electron Microscopy
16%
In Situ
16%
X Ray Diffraction
16%
Relative Density
16%
Physical Properties
16%
Uniaxial Pressure
16%
Dwell Time
16%
Carbon Core
16%
Titanium Metal Powder
16%
Temperature Range
16%
Low Density
11%
Boron Carbide B4C
11%
Dense Structure
11%
Abrasive Material
11%
Zirconium Diboride
11%
Wear-resistant
11%
High Hardness
11%
Material Science
Spark Plasma Sintering
100%
Density
61%
Fracture Toughness
58%
Boron
45%
Carbide
45%
Sintering Temperature
33%
Sintering
27%
Titanium
16%
Transmission Electron Microscopy
16%
X-Ray Diffraction
16%
Ceramic Composite
16%
Synthesis Reaction
16%
Phase Composition
16%
Pressure-Assisted Sintering
11%
Zirconium Diboride
11%
Wear Resistance
11%
Vickers-Indentation
6%
Volume Fraction
6%
Crack Branching
6%
Crack Bridging
6%