...way to reliability

Applications

Importance of Vibration Testing in the laboratory is quite crucial as vibration is considered to be one of the most damaging real world environmental conditions often causing premature failure/ malfunctioning of the product. It is used for qualification of the product during design phase, stress screening to precipitate failures in materials & manufacturing process, simulation of life cycle, ensure quality & reliability, identify noise source and many more.


Vibration testing is applicable for the products ranging from small switches and circuit boards to household appliances, vehicles, aircrafts and satellites as per MIL, IEC, ISO, BS, DIN, ASTM, JIS, IS and other applicable standards.


Some of the universal common vibration testing applications are described below.

   Sine Vibration Testing

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In sine vibration testing, the sinusoidal force with fixed or sweeping frequency is induced into the component under testing with controlled amplitude (displacement/ velocity/ acceleration). It is useful in determining the natural frequency/ resonance of the component as only one frequency is present at a particular instance and also to carry out the study of structural response for fatigue simulation. The product is tested for all the frequencies in the given bandwidth to ensure it’s robustness and durability.

  • Aerospace
  • Electronics & Telecom
  • Railways
  • Transport & Packaging
  • Defence
  • Ships
  • Structural Analysis
  • Transmission Hardware
  • Automotive
  • Seismic & Earthquake
  • Nuclear
  • Rubber-to-Metal Parts

   Random Vibration Testing

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In random vibration testing, the random force containing a band of frequencies is induced into the component under testing with average targeted frequency content and amplitude over the duration of the test. Random vibration represents real world data which is encountered by the component during usage. As it excites all resonant frequencies simultaneously, it is well suited for production stress screening, prototype testing and vibration qualification of products to various standards.

  • Aerospace
  • Electronics & Telecom
  • Railways
  • Transport & Packaging
  • Defence
  • Ships
  • Structural Analysis
  • Automotive
  • Seismic & Earthquake
  • Nuclear

   Shock Vibration Testing

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Shock and bump testing is though also conducted using various dedicated shock machines for product qualification, but advent of advanced control algorithms and pulse synthesis techniques have resulted better control accuracy and repeatability in drop simulations on electrodynamic shakers. These shock and short duration transient vibrations are produced and controlled with real time adaptive control process. However, electrodynamic shakers do pose certain restrictions because of limited stroke length and power output capability of amplifier which drive the shaker. It’s quite easy for the user to select any kind of waveform (half sine, saw tooth, square, rectangular, trapezoidal, user defined shapes etc.) through software and perform the test without any hassle.

  • Aerospace
  • Electronics & Telecom
  • Railways
  • Transport & Packaging
  • Defence
  • Ships
  • Structural Analysis
  • Automotive
  • Seismic & Earthquake
  • Nuclear

   Mixed Mode Testing (SOR,ROR,SROR)

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Mixed mode testing is applicable in the case where the component is likely to be exposed to vibration environment consisting of wideband energy in addition to sinusoidal and narrowband energies superimposed on it for continuous or short durations. The vehicle engine in automobiles and rotor blade in helicopters are well known examples generating continuous sine vibration onboard with broadband random vibration being induced by turbulence.

  • Aerospace
  • Railways
  • Defence
  • Ships
  • Automotive

   Combined Testing

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Demand of combined testing (vibration + temperature together) is growing in all sectors as this method not only reduces the evaluation period but also creates more realistic environmental conditions in which the component has to function. The vibration shaker can be attached/ detached with the environmental chamber for vertical and horizontal integrated operation with vibration cycling and temperature cycling (hot/cold/humidity) running simultaneously in interlocked mode.

  • Aerospace
  • Electronics & Telecom
  • Defence
  • Ships
  • Automotive
  • Railways

   Fatigue Testing

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Fatigue testing is generally done on mechanical components simulating the resonating conditions for longer period. Initially, resonant frequencies of the component are identified by sweeping sine method and then resonance dwelling and tracking test is performed which is also called Tracked Dwell. Tracked dwells are applied for fatigue testing of high-cycle critical components such as crank shafts, turbine blades, aircraft blades etc.

  • Aerospace
  • Defence
  • Automotive
  • Railways