MEPE Gerät zur Untersuchung einfacher Stabilitätsprobleme

SIMPLE STABILITY PROBLEMS STUDY UNIT - MEPE

INNOVATIVE SYSTEME

The Simple Stability Problems Study Unit, "MEPE", has been designed to study the stability of a bar subjected to buckling by obtaining the critical load in different configurations.

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The Simple Stability Problems Study Unit, "MEPE", has been designed to study the stability of a bar subjected to buckling by obtaining the critical load in different configurations.

The unit consists of two bars of same length connected by a central low friction joint.

The upper bar is coupled to the fixed system by a movable jointed support. The lower bar is coupled to the fixed system by a fixed jointed support, which can be configured to study an elastic clamp by fixing a sheet made of steel supported at its two ends that acts as torsional spring.

Two springs may be added to the central joint that couples both bars to study an elastic joint. The assembly performs a torque, being equivalent to a torsional spring.

Besides, the unit includes a system to apply a lateral force, which allows to study its effect on the critical buckling load. That system consists of a cable and a mass, which generates a transverse force with respect to the joint in the buckling bar.

The compression load applied to the buckling bar can be continuously varied in all the practical exercises. Thus, the critical value of the load may be calculated more accurately. This system consists of a bar on which masses are applied. The force is transferred to the bar and can be measured with a millimeter ruler.

ÜBUNGEN UND GEFÜHRTE PRAKTIKEN

GEFÜHRTE PRAKTISCHE ÜBUNGEN IM HANDBUCH ENTHALTEN

  1. Theoretical calculation of the critical buckling load in a system with elastic joint.
  2. Experimental determination of the critical buckling load in a system with elastic joint.
  3. Theoretical calculation of the critical buckling load in a system with elastic support.
  4. Experimental determination of the critical buckling load in a system with elastic support.
  5. Theoretical study of the relationship between angle and load in a system with elastic joint and lateral force.
  6. Experimental determination of the load for the maximum rotation in a system with elastic joint and lateral force.

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