INIS
machining
100%
surfaces
80%
optimization
76%
wires
51%
abrasives
49%
roughness
49%
water
48%
jets
44%
removal
41%
investigations
41%
electric discharges
37%
fibers
31%
rice
29%
straw
29%
polymers
29%
pulses
28%
steels
27%
mechanical properties
27%
actuators
24%
width
21%
particles
21%
alloys
19%
applications
19%
performance
18%
epoxides
17%
graphite
16%
hybrids
15%
walls
15%
speed
15%
modeling
14%
drilling
14%
suspensions
14%
physical properties
14%
reviews
14%
rubbers
14%
volume
12%
distance
11%
fiberglass
11%
wastes
10%
levels
10%
tools
10%
thickness
9%
inflation
9%
numerical analysis
9%
kinetic energy
9%
silicon
9%
tires
9%
values
9%
design
9%
voltage
9%
Engineering
Process Parameter
57%
Material Removal Rate
45%
Electric Discharge Machining
25%
Response Surface Method
24%
Pulse-off Time
22%
Pulse-on Time
21%
Control Parameter
18%
Relational
17%
Feed Rate
15%
Abrasive Water Jet Machining
14%
Abrasive Water Jet
14%
Rice Straw
14%
Current Pulse
14%
Operating Pressure
14%
Ti-6al-4v Alloy
12%
Machining Performance
12%
Fibre-Reinforced Polymer Composite
12%
Ti-6al-4v
9%
Inflation Pressure
9%
Silicon Particle
9%
Energy Engineering
9%
Engineering
9%
Optimum Setting
8%
Machined Surface
7%
Recast Layer
7%
Composite Material
7%
Automotives
7%
Desired Level
7%
Cut Material
7%
Inlet Pressure
6%
Wall Shear Stress
6%
Epoxy Composite
6%
Experimental Investigation
6%
Artificial Ageing
5%
Ultimate Tensile Strength
5%
Material Science
Machining
45%
Polymer Composite
27%
Ultimate Tensile Strength
27%
Surface Roughness
26%
Natural Fibre
22%
Abrasive Waterjet Machining
19%
Density
17%
Flexural Strength
17%
Reinforced Plastic
16%
Machinability
11%
Composite Material
11%
Actuator
9%
Soft Actuator
7%
Mechanical Strength
7%
Thermal Stability
7%
Natural Material
6%
Scanning Electron Microscopy
5%