MTS Series 244 Actuators User Manual

Sideload Forces

Description

Item

Sideload Forces

1

2. Calculate the actuator bearing load (L) using the following formula:

where:

S = Actuator stroke

A = Constant based on actuator bearing spacing

D = Constant based on actuator bearing size

3. Divide the actuator bearing load (L) by the actuator area constant (E) to determine the bearing pressure

(V).

where:

V = maximum allowable bearing pressure

E = Constant based on actuator bearing area

The maximum allowable bearing pressure (V) is 5.6 MPa (950 psi).

If the value produced by this step exceeds 5.6 MPa (950 psi), then you will have to select an actuator with
a larger piston rod diameter.

4. Calculate the bending stress placed on the actuator piston rod.

where:

(PRS) = piston rod stress

G = actuator piston rod diameter

The maximum allowable piston rod stress is 275.8 MPa (40,000 psi).

If the value produced by this step exceeds 275.8 MPa (40,000 psi), then you will have to select an actuator
with a larger piston rod diameter.

5. If the sideload force is applied to the actuator continuously, then determine the maximum allowable actuator

piston rod velocity for the bearing pressure (V) calculated in Step 3. This is the highest velocity that the
actuator can be allowed to experience when the current sideload is present.

Use the following equation:

Series 244 Actuators Product Information 61

Operation