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Mesh Size Strainer Filter Particle Diameter

Reference data and engineering information about mesh size strainer filter particle diameter for mechanics applications.

meshsizestrainerfilter

Overview

Engineering reference data for Mesh Size Strainer Filter Particle Diameter in mechanics.

Key Formulas

Newton's Second Law

F=maF = ma

Force = mass × acceleration.

Work

W=FdcosθW = Fd\cos\theta

Work = force × displacement × cos(angle).

Kinetic Energy

Ek=12mv2E_k = \frac{1}{2}mv^2

Energy of motion.

Potential Energy

Ep=mghE_p = mgh

Gravitational potential energy.

Variables

SymbolDescriptionUnit
FFForceN
mmMasskg
aaAccelerationm/s²
vvVelocitym/s

Mesh Sizes vs. Particle Diameter Data

A strainer with a cleanable screen can generally retain particles larger than 45 μm (325 mesh). Smaller particles must be retained in a filter. The following tables detail the relationship between mesh size and particle diameter for both strainers and filters.

22 rows
Strainer Mesh Sizes vs. Retained Particle Diameter
Mesh Size
Particle Diameter(μm)
45205
82487
101923
141307
181000
20840
25710
30590
35500
40420
45350
50297
60250
70210
80177
100149
120125
140105
17088
20074
23062
27053

Source: engineeringtoolbox.com

5 rows
Filter Mesh Sizes vs. Retained Particle Diameter
Mesh Size
Particle Diameter(μm)
32544
40037
55025
80015
125010

Source: engineeringtoolbox.com

Interactive Charts

Mesh size vs particle diameter

Filter Mesh Sizes vs. Retained Particle Diameter

References