References
- RajB, SubramanianCV, JayakumarT. Non-destructive testing of welds. Pangbourne: Alpha Science; 2000.
- BrobergP, SjödahlM, RunnemalmA. Comparison of NDT-methods for automatic inspection of weld defects. Int J Mater Prod Technol. Forthcoming2014.
- RunnemalmA, BrobergP, AppelgrenA. Possibilities and limitations of automated non-destructive testing of welds. In: BjörkmanM, editor. The 5th International Swedish Production Symposium. Proceedings; 2012 Nov 6–8; Linköping (Sweden): The Swedish Production Academy; 2012.
- AlmondDP, WeekesB, LiT, PickeringSG, KostsonE, WilsonJ, TianGY, DixonS, BurrowsS. Thermographic techniques for the detection of cracks in metallic components. Insight: Non-Destr Test Cond Monit. 2011;53:614–620.
- BurrowsSE, DixonS, PickeringSG, LiT, AlmondDP. Thermographic detection of surface breaking defects using a scanning laser source. NDT & E Int.2011;44:589–596.
- StrezaM, DadarlatD, FedalaY, LonguemartS. Depth estimation of surface cracks on metallic components by means of lock-in thermography. Rev Sci Instrum. 2013;84:074902.
- SchlichtingJ, MaierhoferC, KreutzbruckM. Defect sizing by local excitation thermography. Qirt J. 2011;8:51–63.
- Broberg P, Runnemalm A. Detection of surface cracks in welds using active thermography. Paper presented at: 18th World Conference on Nondestructive Testing; 2012 April 16–20; Durban, South Africa; 2012.
- BrobergP. Surface crack detection in welds using thermography. NDT & E Int. 2013;57:69–73.
- MeolaC, CarlomagnoGM, SquillaceA, GiorleoG. The use of infrared thermography for nondestructive evaluation of joints. Infrared Phys Technol. 2004;46:93–99.
- AnQ, HortigD, MerkleinM. Infrared thermography as a new method for quality control of sheet metal parts in the press shop. Arch Civ Mech Eng. 2012;12:148–155.
- VranaJ, GoldammerM, BaumannJ, RothenfusserM, ArnoldW. Mechanisms and models for crack detection with induction thermography. AIP conference Proceedings, 34th Annu Rev of Prog in Quant Nondestr Eval. 2007 July 22–27, Golden, CO; 2008.
- WeekesB, AlmondDP, CawleyP, BardenT. Eddy-current induced thermography—probability of detection study of small fatigue cracks in steel, titanium and nickel-based superalloy. NDT & E Int. 2012;49:47–56.
- ZenzingerG, BambergJ, SatzgerW, CarlV. Thermographic crack detection by eddy current excitation. Nondestr Test Eval. 2007;22:101–111.
- MorbidiniM, CawleyP, BardenT, AlmondD, DuffourP. Prediction of the thermosonic signal from fatigue cracks in metals using vibration damping measurements. J Appl Phys. 2006;100:104905.
- MaldagueXPV, MoorePO, editors. Nondestructive testing handbook: Vol 3. Infrared and thermal testing. 3rd ed.Columbus, OH: American Society for Nondestructive Testing; 2001.
- PickeringSG, ChatterjeeK, AlmondDP, TuliS. LED optical excitation for the long pulse and lock-in thermographic techniques. NDT & E Int. 2013;58:72–77.
- IncroperaFP, LavineA, DeWittDP. Fundamentals of heat and mass transfer. 6th ed.New York: John Wiley & Sons; 2007.