Engineering & Materials Science
Soldering alloys
100%
3D printers
45%
Strain rate
33%
Honeycomb structures
32%
Fatigue of materials
27%
Constitutive models
25%
Creep
22%
Cracks
19%
Lead-free solders
19%
Fracture mechanics
19%
Biomimetics
18%
Lasers
16%
Powders
15%
Fusion reactions
15%
Crack propagation
15%
Energy absorption
14%
Fused Deposition Modeling
13%
Microstructure
12%
Fatigue crack propagation
12%
Geometry
11%
Silica
10%
Fibers
10%
Plastics
10%
Mechanical properties
10%
Thin films
9%
Adhesion
9%
Hot isostatic pressing
8%
Polymers
8%
Metamaterials
8%
Plasticity
7%
Stiffness
7%
Struts
7%
Thermal cycling
7%
Information theory
7%
Characterization (materials science)
6%
Volume fraction
6%
Design of experiments
6%
Micromechanics
6%
Densification
6%
Finite element method
6%
Crowdsourcing
6%
Cluster analysis
5%
Composite materials
5%
Scanning electron microscopy
5%
Carbon fibers
5%
Failure analysis
5%
Gages
5%
Lead
5%
Shape optimization
5%
Thermodynamics
5%
Chemical Compounds
Solder
59%
Additive
38%
Honeycomb Structure
28%
Fracture Mechanics
24%
Alloy
20%
Shape
20%
Strain
15%
Crystal System
14%
Creep
12%
Fiber
11%
Hexagonal Space Group
8%
Creep Behavior
8%
Simulation
8%
Thermal Cycling
7%
Application
7%
Microstructure
7%
Plate Like Crystal
6%
Flexural Modulus
6%
Volume
6%
Energy
6%
Bend Strength
5%
Dissipation
5%
Nylon
5%
Carbon Fiber
5%
Composite Material
5%
Foam
5%
Torsion
5%
Physics & Astronomy
honeycomb structures
28%
foams
20%
manufacturing
17%
solders
11%
fracture mechanics
8%
spicules
7%
baskets
7%
biomimetics
6%
strain rate
6%
carbon fibers
6%
Venus (planet)
6%
stiffening
6%
micromechanics
6%
design optimization
6%
thin plates
5%
fiber composites
5%
methodology
5%
composite materials
5%
optimization
5%
fibers
5%