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PRODUCT
FL 120 Stress and Strain Analysis on a Membrane
Education / GUNT Hamburg / Engineering Mechanics and Machine Elements / Strength of Materials /
description

In experimental stress and strain analysis, strain gauges are used to determine stresses and strains in components and structures. The maximum stresses and strains are key variables in terms of the structure, and ultimately dictate the design of a component. Strain gauges provide the means required to evaluate mechanical stress and strains.

  The FL 120 experimental unit can be used to measure the deflection and strain of a disc under different pressure loads. For the purpose, a thin disc - also termed a membrane or diaphragm - is clamped into place and subjected to pressure. A cylinder with a hand-operated piston generates pressure in a maintenance-free hydraulic system. This pressure is indicated on a gauge.

  Strains on the surface of the membrane are recorded by strain gauges. The layout of the strain gauges at optimally selected points provides a comprehensive view of the stresses and strains all over the disc. The maximum stresses and strains are calculated, applying the appropriate equations of elasticity.

  The strain gauge measurements are recorded and displayed with the aid of measurement amplifier FL 151. To assist and visualise evaluation of the experiment, the measurement data can be imported into the application software. At the same time, the deflection of the membrane is measured by a dial gauge. The dial gauge can be moved along a cross-arm, enabling measurements to be taken at any radius.

  The well-structured instructional material sets out the fundamentals and provides a step-by-step guide through the experiments. 

Learning Objectives / Experiments

- Measurement of radial and hoop strain by strain  gauges

- Measurement of deflection by a dial gauge
- Calculation of the stresses and strains from the  measured strains: radial stress, hoop stress

- Determination of the direction of principal stress
- Application of Mohr’s Circle to determine the  principal stresses and strains

- Basic principle: measurement of strain using strain  gauges

 

Specification
[1] Investigation of the deflection and strain of a thin disc under internal pressure 
[2] Strain gauge configured as half-bridge
[3] Strain gauges measure the radial and hoop strain
[4] Dial gauge with scale, adjustable mounting
[5] Measurement of deflection possible at any radius
[6] Hydraulic cylinder with hydraulic pump to generate pressure
[7] Hermetically sealed hydraulic system, maintenance-free
[8] Multi-pin connector for measurement amplifier FL 151 provided 
 
Technical Data
Aluminium disc
- outer diameter: d=230mm
- diameter used in experiment: d=200mm
- thickness: 3mm
Strain gauge application
- 8 strain gauges: half-bridges, 350 Ohm
- gauge factor: 2,00 +/-1%
- supply voltage: 10V
Dial gauge
- 0...20mm, graduations: 0,01mm Pressure gauge
- 0...1bar, accuracy: class 1.0
System pressure: max. 0,6bar 
 
Dimensions and Weight
LxWxH: 700x350x350mm
Weight: approx. 25kg
Scope of Delivery
1 experimental unit
1 set of instructional material
Order Details
021.12000  FL 120  Stress and Strain Analysis on a Membrane