INIS
fires
100%
steels
97%
machining
96%
performance
88%
fabrication
88%
optimization
84%
modeling
83%
surfaces
80%
filaments
78%
beams
77%
manufacturing
76%
mechanical properties
68%
additives
65%
investigations
62%
ceramics
58%
deposition
54%
accuracy
54%
layers
53%
powders
52%
geometry
50%
values
45%
finite element method
44%
roughness
42%
comparative evaluations
42%
applications
40%
design
40%
removal
37%
reviews
36%
failures
34%
tensile strength
33%
alloys
32%
fibers
30%
compression
28%
thickness
27%
bending
27%
shells
27%
investment
26%
casting
26%
density
26%
polymers
25%
buckling
25%
aluminium nitrides
25%
simulation
22%
nylon
21%
levels
21%
stiffness
20%
3d printing
20%
increasing
18%
curves
18%
prediction
18%
Engineering
Electrodischarge Machining
77%
Additive Manufacturing
73%
Elevated Temperature
67%
Process Parameter
58%
Fused Deposition Modeling
56%
Dimensional Accuracy
49%
Finite Element Method
49%
Ultimate Tensile Strength
38%
Layer Thickness
38%
Experimental Investigation
34%
Experimental Result
32%
Fire Resistance
27%
Investment Casting
25%
Conductive
23%
Nitride
22%
Buckling
22%
Material Removal Rate
22%
Design of Experiments
20%
Reinforced Concrete Beam
20%
Numerical Modeling
20%
Material Removal Mechanism
20%
Eurocodes
19%
Yield Strength
19%
Strength Concrete
18%
Failure Load
17%
Fibre Reinforced Polymer
17%
Acrylonitrile Butadiene Styrene
17%
Buckling Coefficient
17%
Heat Treatment
17%
Tensile Property
17%
Extrusion Temperature
16%
Steel Beam
16%
Young's Modulus
15%
Mixed Micro
14%
Computer Simulation
14%
Electric Discharge Machining
14%
Fire Condition
14%
Strut Diameter
13%
Concrete Structure
13%
Antibacterial Property
13%
Steel Structure
13%
Fits and Tolerances
13%
Recycled Concrete Aggregate
13%
Room Temperature
13%
Composite Floor
13%
Experimental Value
13%
Dimensional Surface
13%
Biomedical Application
13%
Sandwich Structures
13%
Machining Parameter
13%
Keyphrases
Fused Filament Fabrication
50%
Electrical Discharge Machining
48%
Mechanical Properties
45%
Elevated Temperature
44%
Fused Deposition Modeling
34%
Steel Column
34%
Dimensional Accuracy
30%
Additive Manufacturing
29%
Aluminum Nitride Ceramics
22%
Steel Structures
22%
Nylon
21%
Machining Process
21%
Solid-shell Element
20%
Concrete Structures
20%
Fire Resistance
20%
Printing Parameters
18%
Tensile Strength
18%
Layer Thickness
18%
Normal Strength Concrete
18%
Surface Roughness
17%
Material Removal Mechanism
16%
SAFIR
14%
Micro-electrical Discharge Machining (Micro-EDM)
13%
Numerical Investigation
13%
Acrylonitrile Butadiene Styrene
13%
Concrete Performance
13%
Partially Filled
13%
Geometric Properties
13%
Recycled Aggregate Concrete
13%
Process Parameters Influence
13%
Concrete Beams
13%
Thin Shell
13%
Die-sinking
13%
Metal Powder
13%
Theoretical Development
13%
Non-conductive Ceramics
13%
Material Removal Rate
13%
Failure Load
13%
Ultimate Tensile Strength
12%
Fire Conditions
12%
Machined Surface
11%
Pulse on Time
11%
High Strength Concrete
11%
Machining Parameters
11%
Extrusion Temperature
10%
Peak Current
10%
Printing Speed
10%
Lattice Structure
10%
Printer
10%
Tensile Properties
10%