Structural Integrity & Fatigue Assessment
We determine whether structures operating in high-vibration environments are at risk of fatigue failure. Our assessments are based on measured vibration and real structural response—not assumed loading conditions.
Is Your Structure Operating Within Safe Limits?
Structural failure in vibration environments is rarely sudden - it develops through cyclic loading, stress concentration, and dynamic amplification. We quantify whether your structure is operating safely and reliably under real operating conditions.
We carry out on-site vibration measurement to capture true operating conditions. This data is used to determine structural behaviour, including resonance, mode shapes, and dynamic amplification effects.
We derive cyclic stress from measured vibration and assess fatigue life using Eurocode methodologies. This allows remaining life and probability of failure to be quantified based on real conditions.
Where cracking or failure is observed, we identify the governing mechanism—whether resonance, stress concentration, or structural response—and define corrective action at source.
From Measurement to Engineering Decision
Our work follows a proven engineering methodology that ensures decisions are based on evidence, not assumption:
Identify critical structural areas susceptible to vibration-induced fatigue.
Capture real vibration data under operating conditions using on-site instrumentation.
Convert measured data into structural response and cyclic stress for fatigue evaluation.
Develop targeted modifications to reduce stress and eliminate the root cause of failure.
Provide engineering justification for continued operation, repair strategies, or redesign.
Defensible Engineering for Critical Decisions
We provide clear, evidence-based assessments used to support life extension, operational decisions, and compliance requirements—where structural failure is not an option.