INIS
aluminium alloys
100%
welding
92%
heat
69%
cracking
69%
tubes
58%
welds
53%
maraging steels
46%
air
46%
performance
46%
heat affected zone
35%
alloys
30%
increasing
28%
cracks
28%
yield strength
27%
aging
23%
electron beam welding
23%
lasers
23%
magnesium alloys
23%
evaluation
23%
plasma
23%
superalloys
23%
residual stresses
23%
hybrids
23%
nanofluids
23%
carbon
23%
exchange (heat)
23%
mechanical properties
23%
titanium alloys
23%
paraffin
23%
shape
23%
magnesium alloy-az31b
23%
tungsten alloys
23%
inconel 718
23%
cross sections
23%
heat exchangers
20%
flow rate
19%
high temperature
17%
values
15%
elongation
15%
restraints
14%
work hardening
13%
production
13%
metals
12%
strains
12%
thermal storage
11%
stainless steels
11%
levels
11%
efficiency
11%
filler metals
9%
tensile strength
7%
Material Science
Welding
75%
Characterization
69%
Crack
46%
Magnesium Alloys
46%
Aluminum Alloys
46%
Thermal Conductivity
34%
Yield Stress
32%
Particle
30%
Temperature
30%
Maraging Steel
23%
Phase Change Material
23%
Air
23%
Morphology
23%
Mechanical Strength
23%
Al2O3
23%
Superalloys
23%
Laser
23%
Residual Stress
23%
Oxide
23%
Titanium Alloys
23%
Diamond-Like Carbon Coating
23%
Mechanical Property
23%
Brittle Fracture
23%
Microstructure
23%
Gas
20%
Flow Forming
17%
Titanium Dioxide
17%
Nanocrystalline Material
15%
X-Ray Diffraction
15%
Viscosity
15%
Arc Welding
14%
Tungsten
14%
Scanning Electron Microscopy
13%
Zirconia
11%
Ti-6Al-4V
11%
Stainless Steel
11%
Weld Metal
10%
Filler Metal
10%
Solidification
10%
Material
7%
Vapor
7%
Nanoparticle
7%
Heat Transfer
7%
Homogenization
7%
Brittleness
7%
Electrical Conductivity
7%
Alloy
7%
Raman Spectroscopy
7%
Field Emission Scanning Electron Microscopy
7%
Fluid
7%
Engineering
Hot Cracking
69%
Cracking Susceptibility
50%
Butt Welding
46%
Welds
46%
Arc Plasma
30%
Fusion Zone
28%
Welding
26%
Butt Joint
26%
Hybrid
23%
Performance
23%
Exchanger
23%
Section Shape
23%
Plasma
23%
Superalloys
23%
High Strength Aluminum Alloy
23%
Maraging Steel
23%
Electron Beam Welding
23%
Stress Relief
23%
Residual Welding Stress
23%
Titanium Alloys
23%
Angular Distortion
23%
Inconel
23%
Tungsten Alloys
23%
Weldment
20%
Circular Tube
16%
Yield Strength
15%
Heat Affected Zone
14%
Hot Crack
14%
Crack Length
14%
Ultimate Tensile Strength
13%
Plasma Welding
12%
Aging
11%
Hardness Increase
11%
Complete Penetration
11%
5083 Aluminium Alloy
9%
Flow Rate
9%
Travel Speed
9%
Thermal Cycle
8%
Az61 Magnesium Alloy
7%
Tensile Specimen
7%
Fibrous Fracture
7%
Solid Solution
7%
Tensile Residual Stress
6%
Equilibrium Temperature
6%
High Temperature
5%
Strain
5%
Electronic Scanning
5%
Small Tube
5%
Strain Hardening
5%
Strength Requirement
5%