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• Hellier C. J., (2003), “Handbook of Nondestructive Evaluation”, vol.70, pp.466-470.
• Petrisa C. D., Siteb C.D., Lenzunic P., Mazzocchib V., Mennutia C., (2004), “An Innovative AE Technique For The Verification of Underground and Buried Pressure Equipment”, ICEM12- 12th International Conference on Experimental Mechanics, Politecnico di Bari, Italy
• Turkish Standard TS EN 12817, (2010), “LPG Equipment and Accessories - Inspection and Requalification of LPG tanks up to and including 13 m³”, ICS 23.020.30.
• Turkish Standard TS EN 12819, (2009), “LPG equipment and accessories - Inspection and requalification of LPG tanks greater than 13 m3”, ICS 23.020.30.
• Turkish Standard TS EN 14584, (2013), “Non-destructive testing - Acoustic emission testing- Examination of metallic pressure equipment during proof testing - Planar location of AE sources”, ICS 17.140.20&77.040.20.
• Gao L., Zai F., Su F., Wang H., Chen P. and Liu L. (2011), “Study and Application of Acoustic Emission Testing in Fault Diagnosis of Low-Speed Heavy-Duty Gears”, Sensors (Basel). 11(1), pp.599-611.
• Rashid M.S. and Pullin R., (2014), “The Sound of Orthopaedic Surgery - The Application of Acoustic Emission Technology in Orthopaedic Surgery: A Review”, Eur J. Orthop. Surg. Traumatol 24:1–6.
• Safari A., (2006), “Acoustic Emission Analysis of the Effect of a 2D Wedge Shaped Blade on the Compact Bone Cutting Process”, Department of Mechanical and Electronic Engineering School of Engineering Institute of Technology Sligo.
• Muravin B (2009), “Acoustic Emission Science and Technology”, J Build Infrastruct Eng Israeli Assoc. Eng. Archit Israel.
• Nielson A (1980), “Acoustic Emission Source Based on Pencil Lead Breaking”, Report 80-15, Danish Welding Institute.
• Huang M.,Jiang L., Liaw P.K., Brooks C.R., Seeley R., and Klarstrom D.L., (2009),” Using Acoustic Emission in Fatigue and Fracture”, Materials Research, Nondestructive Evaluation: Overview, University of Tennessee.
• Federal Institute for Materials Research and Testing (2008), “Evaluation of Composite Cylinders Using Acoustic Emission”, Hydrogen Storage Systems for Automotive Application. Acoustic
• Emission Instrumentations, http://iti.northwestern.edu.
• Akustik Emisyon, http://www.tr-tuv.com.tr.
• McCormick R.R., (2007), “Advancements In Acoustic Emission Testing Of Steel Highway Bridges”, Report, Infrastructure Technology Institute, School of Engineering and Applied Science, Northwestern University.
• Gholizadeh S., Leman Z. and Baharudin B.T.H.T, (2015), “A Review of The Application of Acoustic Emission Technique in Engineering”, Structural Engineering and Mechanics, Vol. 54, No. 6, pp. 1075-1095.
• Turkish Standard TS 11634, (1995), “Nondestructive Testing-Guidelines for mounting Piezoelectric Acoustic Emission Sensors”, ICS 77.040.20.100.
• Turkish Standard TS EN 15495, (2008), “Non-destructive testing-Acoustic emission- Examination of metallic pressure equipment during proof testing Zone location of AE sources”.
• European Standard EN 13554, (2011), “Non-destructive testing - Acoustic emission - General principles”, ICS 19.100.
• European Standard EN 13477-1, (2004), “Non-destructive testing - Acoustic emission- Equipment characterization- Part 1: Equipment description”, ICS 19.100.
• European Standard EN 13477-2, (2010), “Non-destructive testing-Acoustic emission - Equipment characterization- Part 2: Verification of operating characteristic”, ICS 19.100.
• ISO/DIS 16148.2, “Gas cylinders- Refillable seamless steel gas cylinders-Acoustic emission examination (AEE) for periodic inspection”.