Full-time:

1. Multi-scale sensing and quantitative evaluation of structural damages in pipe casings of ultra-deep production well shafts via pulse width modulation eddy current technique  (Funded by National Natural Science Foundation of China, 52577013)

2. High-accuracy imaging and probabilistic evaluation of anomalies in functional coating systems via transient eddy current testing and probability of detection (Funded by National Natural Science Foundation of China, 52311540018)

3. Quantitative assessment of damages in high-temperature aero-blades via transient eddy current near-field and remote-field hybrid testing (Funded by National Natural Science Foundation of China, 52177007);
4. Optimisation of the transient eddy current probe for inspection of tubular structures (collaborating with Tianjing Shunjiean Co. LTD., 20200301); 
5. GUI for density evaluation of PBX structures (collaborating with Institute of Chemical Materials, China Academy of Engineering Physics, 20180773);
6. Quantitative evaluation of deformation and damages in pipe casings of deep production wells via integrated transient eddy current technique (the Fundamental Research Funds for the Central Universities of China, XJJ2018027);
7. Quantitative evaluation of multi-scale defects via gradient-field transient eddy current testing with uniform field excitation (Funded by National Natural Science Foundation of China, 51777149);
8. Pulsed eddy current evaluation of subsurface defects in structures of Titanium alloy (Funded by Natural Science Basic Research Plan in Shaanxi Province of China, 2016JM5075);
9. Teaching Innovation Project of Massive Open Online Course (MOOC): Mechanical Measurement and Nondestructive Testing (Funded by Graduate School of Xi'an Jiaotong University);
10. On-site dynamic stress testing and evaluation of MPAP (collaborating with Buhler Equipment (Xi'an) Co., LTD. 20150687);
11. Quantification techniques of electrical properties of casing pipes employed in oil field (collaborating with GOWell Petroleum Equipment Co., LTD, China, 20150508);
12. Dynamic stress testing and evaluation of MPAP-8 (collaborating with Buhler Equipment (Xi'an) Co., LTD. 20150431);
13. Evaluation of electromagnetic properties of ferromagnetic materials (collaborating with Jiangnan University, China, 20150105);
14. Quantitative evaluation of thermal barrier coating systems based on high-frequency eddy current technique (collaborating with AVIC Beijing Institute of Aeronautical Materials, 20141010);
15. Quantitative Evaluation of Subsurface Corrosion based on Pulse-modulation-based Eddy Current technique (Funded by National Natural Science Foundation of China, 51477127);
16. EMAT-PEC integrated ENDE technique (collaborating with Hefei Institutes of Physical Science, Chinese Academy of Sciences, 20140636);
17. Electrical measurement of static force on aircraft wheels (collaborating with AVIC Aircraft Co., LTD Xi'an Brake Branch, J20140206);
18. 3D analytical modelling of pulsed eddy current testing (collaborating with Jiangnan University, China, 20130409);
19. Pulsed eddy current testing of thermal barrier coating of turbine blades (the Scientific Research Foundation for the Returned Overseas Chinese Scholars, State Education Ministry, China, 2013回国基金10);
20. Fast solvers for forward and inverse problems regarding quantitative evaluation of wall-thinning in pipe casings using pulsed eddy current testing (collaborating with GOWell Petroleum Equipment Co., LTD, China, 20120556);
21. Pulsed eddy current technique and its application to structural health evaluation (Science fund of ShaanXi Province);
22. Nondestructive evaluation and structural health monitoring of critical components of nuclear power plants (the Chinese Fundamental Research Funds, 2011JDHZ20);
23. Pulsed Eddy Current Inspection of complex-geometrical conductors (Funded by National Natural Science Foundation of China, 51007069);
24. 3D magnetic field sensing for smart Pulsed  Eddy Current (the Chinese Fundamental Research Funds);
25. People screening for threats with automatic detection and localisation (Funded by Home Office Scientific Development Branch);
26. Deployable sensors for concealed gun detection at a standoff distance (Funded by EPSRC UK, EP/D079179/1);
27. Bridge the gap of theoretical and experimental eddy current NDT (Funded by EPSRC UK, EP/E010458/1);
28. Theoretical and experimental investigations on Electromagnetic Non-destructive Testing and  Evaluation (Funded by the Secretary of State for Education and Science UK);
29. Borehole Weight-drop Seismic Cylinder Linear Motor design and the Control System (Funded by Xi’an Xiyi Oil Tech Ltd.).

Part-time:
 

1. Multi-frequency Eddy Current Inspection of Gas turbine blades
2. ENDT&E of integrity of pipe wall (collaborating with AkzoNobel Marine & Protective Coatings UK);
3. Pulsed Eddy Current inspection on coatings of pipeline (collaborating with TWI UK);
4. Pulsed Magnetic Flux Leakage inspection on pipeline (collaborating with Advanced Engineering Solutions Ltd UK);
5. Detection and identification of guns and knives using Ground Penetrating Radar (collaborating with Advanced Engineering Solutions Ltd UK);
6. Magnetically Actuated Micromirrors for magnetic field measurement (collaborating with Science and Technology Facilities Council UK);
7. Modelling of Pulsed Eddy Current inspection (collaborating with University of Sheffield UK)；
8. Magnetic field imaging in ENDT&E using Magnetic Field Cameras;
9. Object localisation and identification using Acoustic Cameras;
10. Pulsed Eddy Current stimulated thermographic NDE;
11. 3D magnetic field measurement for Pulsed Eddy Current inspection on samples with complex geometrical defects;
12. 3D residual magnetic field measurement for evaluation of rail tracks;
13. Dynamic inspection of rail tracks using Pulsed Eddy Current and Magnetic Flux Leakage;
14. RFID and its application in localisation and identification of objects