Fatigue and Durability Tests

A fatigue test or durability test is required to validate the lightweight construction of vehicle and machinery components. HBM offers complete measurement chains optimized for these tests including strain gauges, force and displacement transducers, data acquisition systems and software.

Fatigue Test of Materials and Structures

Driven by the need to increase the energy efficiency of vehicles and machines, lightweight construction of mechanical parts and components need to go close to the fatigue life limits of established or new materials. Nevertheless, for safety relevant structural components such as vehicle axes and wheels, a fatigue failure during operation must be excluded by all means. Likewise, a fatigue failure of critical functional components such as crank shafts or connecting rods leading to a defect of the entire vehicle or machine must also be avoided.

For a lightweight construction, a simulation model is used in combination with durability testing: A fatigue test of each material is used to determine its fatigue life, i.e. their fatigue curve (Woehler curve) or variable amplitude fatigue curve (Gassner curve). These material characteristics are an important input for durability simulation models. FEM based simulation models are typically used in early design phases to assess design alternatives or to identify critical spots of structural components.

The durability test in the lab begins with the first physical prototypes of parts or components. In early stages, dynamic load test may use a simplified block program to compare design variants. In later stages, real-world load data recorded in the field are replayed on the durability test stand to determine and verify the absolute fatigue life of the chosen construction.

Besides the long-term dynamic load test to determine the fatigue life of the test specimen, the durability test may also include a static load test to determine the maximum static force or stress that the test specimen can tolerate, such as a tensile test, compression test, flexure test or torsion test. In a characterization test, the stress distribution across a structure is determined to validate an FEM model.

Benefits

For fatigue testing and durability testing from HBM:

  • Complete measurement chain of strain gauges, data acquisition systems and software, with all components working together perfectly
  • Complete software solution for the application, ready-to-start without programming
  • High immunity against electromagnetic interference and thermal drift due to carrier frequency technology, distributable amplifier modules and auto-adjustment on all channels
  • Compensation of cable effects with 4-, 5-, and 6-wire circuit-based patented amplifier technology
  • Broad portfolio of electrical strain gauges with short delivery times, including pre-wired gauges for immediate use
  • Optical strain gauges and interrogators for high strain fatigue tests of compound materials

Screenshots of HBM's catman data acquisition software

Span pair cycle counting

Online and post-process cycle counting of the applied load collective using the span-pair cycle counting method, e.g. visual comparison of load collectives

Rainflow cycle counting

Online and post-process Rainflow cycle counting of the applied load collective, either as Range-Mean matrix or as From-To matrix

Trend plots

Visualization of peak values of response over stimulus (e.g. displacement over force) for all cycles to detect a possible onset of damage to the test specimen, including alarming upon exceedance of tolerance limits

Alarms upon unexpected events

E-Mail, visual or sound notification of the user and log messages when measurement values move outside of expected ranges

Stress analysis

Pre-defined online and post-process calculation of principal strains and stresses from rosette strain measurements

Easy channel configuration

Quick and comfortable channel configuration by simply dragging and dropping the suitable strain gauge bridge type from the sensor database onto the channels to be configured

Health check of strain gauge channels:

Check of strain gauge channels for correct wiring by comparison of measured vs. expected bridge unbalance when applying a shunt resistor

Recording of selected cycles

Sequence plans to record selected cycles only during long-term tests (e.g.: record 1 full cycle out of every 10 cycles), including automatic detection of the cycles

Integration into Zwick material testing machines

Integration of complementary strain measurements with strain gauges on the probe into Zwick material testing machines, e.g. for the verification of the alignment of the probe holders or for Compression After Impact (CAI) tests of compound materials

Optical strain measurements

Integration of interrogators for optical Fiber Bragg strain gauges and automatic conversion of the measured peak wavelengths (in nm) into strains (in µm/m)

Recording of peaks and valleys

Sequence plans to record peaks and valleys only during long-term tests (e.g.: record peaks and valleys of all cycles, or just for 1 cycle out of every 10 cycles), including automatic detection of the cycles

Related Products

Strain Gauges
HBM strain gauges (stress gauges) for all strain measurement applications: Experimental stress analysis, durability testing, transducer manufacturing.
catman DAQ Software
catman DAQ (data acquisition) software allows for data visualization, automation and storage even during the measurement.
Strain Gauge Amplifier QuantumX MX1615B/MX1616B
The strain gauge amplifier for measuring all mechanical sizes: For all sensors using full-bridge, half-bridge or quarter-bridge configuration.

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