University of Nebraska-Lincoln
Research Area
Equipment
Digital Image Correlation (DIC)
We have a high-speed 3D DIC system that we use for non-contact measurements for systems where discrete sensors affect the dynamics, can't be used due to geometry, or where full-field data is needed. The cameras are capable of recording up to 500,000 frames per second (FPS) at reduced resolution and at 4,000 FPS at 1-megapixel resolution. We typically film vibrations and dynamic responses around 4k to 10k FPS. We have previously performed measurements on strongly nonlinear vibrating structures and high-speed catastrophic failure (e.g., 3D-printed pressure vessel exploding).
Equipment List:
- VIC-3D Digital Image Correlation System (Correlated Solutions)
- Two Photron AX100 540K-M-32GB (1024 x 1024 @ 4,000 fps) high-speed digital cameras
- Lenses: two Nikon 24mm wide angle manual focus, two Nikon 50mm and two Tokina 100mm 1:1 macro lenses
- One 6000 Lumen High-Speed LED lighting System with Flood Controller
- Workstation with rackmount Quad-core PC, 64GB RAM, Win 10 64 bit, 1TB SSD, 8TB HD, dual 24" LCD monitors
- One 8-Channel USB analog data acquisition system for high-speed measurements with maximum sampling rate of 1 MS/s (National Instruments NI 6361)
- Accompanying accessories (cases, speckle paint, etc.)
Standard Vibration Measurement Equipment
- Thirty-six channel data acquisition and digital signal processing hardware (24 input and. 12 programmable channels), 80kHZ bandwidth, 24 bit ADC (Data Physics Abacus 906)
- Full SignalCalc DP900 software suite for Data Physics DAQ and modal shaker
- One modal test shaker, 18 lbf (80 N) maximum force, 1 in (25.4 mm) maximum displacement, 60 in/s (1.5 m/s) max velocity, with accompanying amplifier (Data Physics SignalForce GW-M20/PA100EC)
- Thirty-five uniaxial and ten triaxial accelerometers (PCB 353B15 and 356A03)
- Eight channel, ICP sensor signal conditioner (PCB 483C05)
- Four modally tuned impact hammers of various load ratings (PCB 086E80, 086C03, 086D05 and 086D20)
https://engineering.unl.edu/MoDAL/
Current Members
| Researcher | Research |
|---|---|
| Keegan | Focus on nonlinear dynamics and vibrations, data analytics, data-driven modeling, machine learning, reduced-order modeling, passive redirection of mechanical energy, and others. |
| Cristian López | PhD student studying data-driven nonlinear system identification. |
| Manal Mustafa | PhD student investigating the effect of mass on energy exchanges in nonlinear oscillators and the passive manipulation of energy flows in nonlinear structures. |
| Javier Arroyo | PhD student studying the physics of bolted joint loosening. |
| Felipe Kobayashi | PhD student working on physics-based, reduced-order modeling of bolted joint loosening. |
| Geoffrey Soneson | PhD student working on solitary wave control using engineered defects in metamaterials. |
| Mohammad Nasr | MS student working on smart, predictive automatic modal impact hammers. |
Summary of our recent work on reduced-order modeling of joint loosening mechanics. Sponsored by an
NSF CAREER award.