Academic Research
Academic Research
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3. Postdoctoral research: Effect of Insulating Layer on Polyaniline-Based Lightning Strike Protection Coatings for CFRP Aircraft
3. Postdoctoral research: Effect of Insulating Layer on Polyaniline-Based Lightning Strike Protection Coatings for CFRP Aircraft
Title: Effect of Insulating Layer on Polyaniline-Based Lightning Strike Protection Coatings for CFRP Aircraft.
Objective
Optimize doped-polyaniline (PANI/DBSA, PD or PDD) conductive coating thickness for 40 kA lightning current exposure.
Evaluate the effect of introducing an insulating layer between the conductive coating and CFRP laminate.
Determine optimal insulating-layer thickness for improved lightning strike protection and post-strike repairability.
Approach / Technology
Fabricated CFRP laminates with various PANI-based conductive film thicknesses, with and without insulating layers.
Employed microscopy, ultrasonic inspection, conductivity measurements, and mechanical (bending) tests pre- and post-strike to quantify damage and residual performance.
Performed grounding response measurements (ns-scale) for different coating/insulation configurations under simulated lightning conditions.
Key outcomes / metrics
Identified optimal PANI coating and insulation combinations for fast, stable grounding under lightning currents.
Demonstrated that thicker coatings (~0.48 mm) with double insulation deliver the best grounding performance (~12 ns).
Established clear correlations between coating thickness, insulation strategy, and lightning-induced damage behavior.
2. PhD research: Polyaniline-based multifunctional structural composites
2. PhD research: Polyaniline-based multifunctional structural composites
Title: Design and development of polyaniline-based multifunctional structural composites.
Objective
Create a structural conductive polymer system that provides strain sensing, EMI shielding, and lightning strike protection without materially increasing mass.
Approach / Technology
Polyaniline (PANI) doped with DBSA + DVB crosslinker.
Fabrication as impregnated composite or as bonded conductive layers on GFRP/CFRP.
Characterisation for piezoresistive sensing, shielding (X-band), and lightning-strike robustness.
Key outcomes / metrics
Piezoresistive strain sensing with linear response and verified reliability.
EMI shielding up to ~20 dB (bulk) and ~45 dB when bonded to CFRP at ~90 S/m conductivity.
Lightning strike protection demonstrated; a 0.4 mm conductive layer at ~50 S/m retained ≈90% residual strength after −40 kA tests.
1. Master thesis: Damage study of CFRP composites using infrared thermography
1. Master thesis: Damage study of CFRP composites using infrared thermography
Title: Damage study of CFRP composites using infrared thermography.
Objective
Detect and characterise damage initiation and progression in CFRP under static and quasi-static loading.
Approach / Technology
Passive and active infrared thermography (lock-in, transient).
Thermoelastic stress analysis and image processing.
Microscopic validation of thermogram-identified damage regions.
Key outcomes
Demonstrated correlation between thermoelastic temperature signatures and micro-damage.
Validated active thermography (lock-in & transient) for early damage detection.
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