Engineering & Materials Science
Palm oil
100%
Fibers
73%
Buckling
42%
Load limits
29%
Clamping devices
27%
Concretes
26%
Brick
26%
Hose
26%
Reinforcement
25%
Reinforced concrete
20%
Composite materials
20%
Tendons
19%
Fiber reinforced concrete
17%
Softwoods
17%
Hardwoods
17%
Washers
16%
Timber
16%
Cements
15%
Lime
13%
Shape memory effect
13%
Constitutive models
12%
Mortar
12%
Defects
12%
Glass fibers
12%
Titanium
11%
Tensile strength
11%
Stainless steel
10%
Retrofitting
10%
Repair
10%
Steel
10%
Soils
9%
Boundary conditions
9%
Shear deformation
9%
Polymers
9%
Equations of motion
8%
Mechanical properties
8%
Numerical models
7%
Physical properties
7%
Masonry materials
6%
Water absorption
6%
Bagasse
6%
Engineers
5%
Chemical stability
5%
Sustainable development
5%
Natural fibers
5%
Degradation
5%
Bending strength
5%
Physics & Astronomy
masonry
59%
free vibration
42%
Timoshenko beams
33%
Euler-Bernoulli beams
32%
polymers
30%
grids
30%
glass fibers
25%
reinforcement
21%
load carrying capacity
20%
shear
20%
durability
20%
glass fiber reinforced plastics
19%
buckling
19%
tensile strength
18%
washers
18%
arches
17%
thickness ratio
17%
boundary conditions
17%
bricks
17%
composite materials
15%
tiles
14%
shape memory alloys
13%
equations of motion
13%
maintenance
13%
cycles
11%
hollow
11%
beams (supports)
10%
differential equations
9%
fibers
9%
water
9%
textiles
9%
degradation
9%
resonant frequencies
8%
laminates
7%
mechanical properties
7%
aqueous solutions
7%
liquids
6%
vibration
6%
upgrading
5%
stress-strain relationships
5%
axial stress
5%
deflection
5%
potential energy
5%
safety
5%
Chemical Compounds
Palm Oil
68%
Fiber
50%
Strength
24%
Hose
22%
Resistance
20%
Shape Memory Alloys
18%
Shear
17%
Reinforced Plastic
15%
Column Like Crystal
14%
Composite Material
12%
Environmental Friendliness
11%
Simulation
11%
Chemical Stability
11%
Rod Like Crystal
11%
Soil
10%
Plate Like Crystal
9%
Tensile Strength
8%
Glass
8%
Application
7%
Bend Strength
7%
Strain
7%
Ductility
6%
Dissipation
6%
Surface
5%
