INIS
lasers
86%
aluminum
86%
polyamides
71%
interfaces
54%
polymers
48%
laser welding
46%
chemical bonds
37%
metals
36%
ablation
34%
sims
33%
reaction mechanisms
28%
adhesion
28%
design
28%
surfaces
27%
xps
23%
hybrids
22%
thin films
21%
sheets
17%
processing
17%
nylon
17%
aluminium oxides
17%
titanium
17%
oxides
17%
titanium alloys
17%
welds
17%
diffusion
17%
industry
13%
mirrors
13%
joining
12%
layers
11%
spin
9%
applications
9%
information
9%
range
7%
x-ray photoelectron spectroscopy
7%
roots
7%
data
6%
corrosion resistance
5%
transport
5%
time-of-flight method
5%
residues
5%
demand
5%
information needs
5%
rapidity
5%
electron microscopy
5%
adhesives
5%
molecules
5%
shear
5%
Material Science
Polyamide
100%
Aluminum
86%
Laser Beam Welding
54%
Chemical Bonding
37%
Laser Ablation
34%
Titanium Alloys
34%
Secondary Ion Mass Spectrometry
29%
Titanium
27%
Thin Films
21%
Mechanical Strength
17%
Ti-6Al-4V
17%
Aluminum Oxide
17%
Aluminum Sheet
17%
Welding
10%
Surface Property
6%
Shear Loads
6%
Corrosion Resistance
5%
Keyphrases
Ti-6Al-4V (Ti64)
17%
Profile Evolution
17%
Thermal Joints
17%
Joint Quality
17%
Thermal Transfer
17%
Laser Ablation Method
17%
Processing Parameters
17%
Aluminum Sheet
17%
Polyamide Thin Film
17%
Process Parameters Influence
17%
Titanium Alloy
17%
Weight Reduction
11%
Ablation Parameters
8%
Joining Dissimilar Materials
8%
Design Freedom
8%
Interface Information
8%
Laser-arc Hybrid Welding
8%
Nylon
8%
Secondary Electron Microscopy
8%
Al 1050
6%
Laser Power
6%
Weld Defects
6%
Welding Parameters
6%
Welded Joint
6%
Intermediate Material
5%
Hybrid Polymer
5%
High Design Freedom
5%
Common Materials
5%
Biomedical Purposes
5%
Adhesion Theory
5%
Chemical Bonding Interaction
5%
Thin Polymer Layer
5%
N-methylformamide
5%
Complex Solvent
5%
Mechanical Fastening
5%
Optimum Solution
5%
Geometry-free
5%
Welding Method
5%
Aluminum Plate
5%
First Mirror
5%
Polymer-metal Hybrid Structures
5%
Recombination Effect
5%
Dissimilar Materials
5%
Mechanical Interlocking
5%
Aluminum Hydroxide
5%
