Vibration Analysis for Gearboxes

Specialized Vibration Analysis programs for Industrial Gearbox Reliability & Maintenance.

47% Reduction in unplanned downtime
85% Faults detected before failure
3-6mo Average fault lead time
5:1 Typical program ROI

47% — Reduction in unplanned downtime

85% — Faults detected before failure

3-6mo — Typical fault lead time


Why it matters

What Are the Key Benefits?

Gear Tooth Defect Detection

Sideband analysis around gear mesh frequencies identifies pitting, scuffing, and tooth cracking in gearboxes. Early detection allows planned gear replacement during scheduled outages.

Bearing Fault Isolation by Stage

Multi-channel vibration analysis with speed references isolates bearing defects to specific shaft locations within multi-stage gearboxes. Targeted diagnosis prevents unnecessary disassembly of healthy gear stages.

Internal Misalignment Diagnosis

Phase analysis and axial vibration trending identify internal misalignment between gear stages in gearboxes. Correcting alignment reduces tooth loading and extends gear life significantly.

Context

What Challenges Does This Solve?

The Reliability Challenge

Gearboxes produce gear mesh frequency (GMF = teeth × RPM) and harmonics as dominant spectral features. Sideband spacing around GMF indicates which shaft carries the fault, but requires accurate tooth counts for interpretation. Ghost frequencies from manufacturing errors appear at non-integer multiples of GMF. Hunting tooth frequency produces very slow modulation that demands long data captures. Bearing defect frequencies must be calculated for every shaft at its actual speed, including intermediate shafts that may not have tach references. Helical gears generate axial thrust loads that accelerate thrust bearing wear.

Our Approach

We document the complete gear train geometry—tooth counts, shaft speeds, bearing part numbers—before the first survey. Spectra are collected at each bearing with Fmax set to capture at least the 3rd GMF harmonic. Sideband patterns around GMF are mapped to specific shafts and fault types (distributed wear, eccentric gear, cracked tooth). Cepstrum analysis detects periodic sideband families. Envelope analysis at each bearing location targets calculated defect frequencies for the specific bearing installed. Time waveform analysis confirms gear tooth impacts. Reports follow AGMA gear condition criteria and include severity ratings per ISO 10816 for the bearing housings.


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Common Questions

FAQ

Questions our clients ask most often about this reliability program.

Vibration analysis detects mechanical faults in gearboxes including gear tooth pitting, scuffing, bearing wear, and misalignment between stages by analyzing frequency domain signatures specific to each component. Bearing defect frequencies, running speed harmonics, and component-specific patterns such as those related to the gear sets, input and output shafts, bearings, and oil distribution system are all identifiable through proper spectral analysis techniques.

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