Engineering & Materials Science
Selective laser melting
100%
Bacteria
55%
Lasers
52%
Metallic glass
48%
Texturing
44%
Hot isostatic pressing
44%
Surface treatment
39%
Powders
36%
Fusion reactions
35%
Surface roughness
34%
Biofilms
33%
Oxidation
33%
Biocompatibility
32%
Mechanical properties
28%
Metals
26%
Fatigue of materials
26%
Escherichia coli
25%
Biomaterials
25%
Pathogens
23%
Microstructure
23%
Silk
23%
Hydrogels
22%
Zirconium
21%
Antibiotics
21%
Microstructural evolution
21%
Scaffolds
20%
Composite materials
20%
Alloying
20%
Adhesion
19%
Struts
19%
3D printers
19%
Silver
18%
Shape memory effect
18%
Ions
18%
Tissue
18%
Etching
18%
Tensile properties
17%
Cells
16%
Thin films
16%
Wear of materials
15%
Surface properties
15%
Copper
14%
Tuning
13%
Substrates
13%
Oxides
13%
Titanium
11%
Bone
11%
Microscopic examination
10%
Contact angle
10%
Scanning
10%
Chemistry
Antimicrobial Agent
60%
Implant
54%
Alloy
51%
Melting
47%
Metallic Glass
45%
Surface
34%
Shape Memory Alloys
25%
Biofilm Formation
24%
Microstructure
23%
Wear
22%
Wear Rate
21%
Etching
21%
Additive
21%
Ciprofloxacin
20%
Resistance
19%
Oxidation Reaction
19%
Mammalian Cell
18%
Biomaterial
17%
Alloying
17%
Modification
17%
Composite Material
17%
Biological Property
16%
Surface Modification
14%
Hydrogel
13%
Ductility
13%
Polishing
13%
Martensitic Transformation
13%
Application
12%
Metal
10%
Oxide
10%
Ambient Reaction Temperature
9%
Sandblasting
9%
Fatigue Strength
9%
Ion
9%
Tensile Strength
7%
pH Value
7%
Musculoskeletal
7%
Yield Point
6%
Grain Boundary
6%
Slip Band
6%
Pipeline
6%
Strain Hardening
6%
Reduction
5%
Process Control
5%
Pressure
5%
Magnetron Sputtering
5%
Physics & Astronomy
biocompatibility
41%
metallic glasses
35%
tribology
23%
composite materials
21%
rapid solidification
21%
integrity
18%
laser plasmas
18%
zirconium oxides
17%
alloying
15%
lasers
15%
shock waves
15%
melting
13%
tuning
13%
bacteria
12%
copper
12%
ceramics
11%
mechanical properties
11%
trinitrotoluene
11%
shock
10%
microstructure
10%
void ratio
9%
characterization
9%
ions
9%
thin films
8%
oxidation
8%
microscopy
7%
cells
6%
grinding
6%
corrosion
5%
casts
5%