Page 31 - Handbook of Materials Failure Analysis

P. 31

References 23

[13] Gore P, Sujata M, Bhaumik SK. Stress corrosion cracking of ring type joint of reactor
pipeline of a hydrocracker unit. J Fail Anal Prev 2014;3:307–13.
[14] Jan MM, Jalil A, Ahmad Z, Khan MA. Application of fracture mechanics and non-
destructive techniques for the condition assessment of naphtha hydrotreater furnace
tubes in oil refinery. Eng Fail Anal 2014;40:15–24.
[15] Mansor NII, Abdullah S, Ariffin AK, Syarif J. A review of the fatigue failure mechanism
of metallic materials under a corroded environment. Eng Fail Anal 2014;42:353–65.
[16] Tawancy HM, Al-Hadhrami LM, Al-Yousef FK. Analysis of corroded elbow section of
carbon steel piping system of an oil-gas separation vessel. Case Stud Eng Fail Anal
2013;1:6–14.
[17] Wang Z, Yang C, Zhu L. Corrosion analysis and inhibition studies in the process of nat-
ural gas wet desulfurization. Eng Fail Anal 2014;44:66–73.
[18] Khan MI, Yasmin T. Erosion corrosion of low carbon (AISI 1008 steel) ring gasket under
dynamic high pressure CO 2 environment. J Fail Anal Prev 2014;4:537–48.
[19] Mohtabi-Bonab MA, Szpunar JA, Razavi-Tusi SS. A comparative study of hydrogen
induced cracking behavior in API 5 L X60 and X70 pipeline steels. Eng Fail Anal
2013;33:163–75.
[20] Psyllaki P, Pantazopoulos G, Lefakis H. Metallurgical evaluation of creep-failed super-
heater tubes. Eng Fail Anal 2009;16:1420–31.
[21] Jones DRH. Creep failures of overheated boiler, superheater and reformer tubes. Eng Fail
Anal 2004;11:873–93.
[22] Hyde TH, Becker AA, Sun W, Williams JA. Influence of geometry change on creep fail-
ure life of 90° pressurised pipe bends with no initial ovality. Int J Pres Ves Pip
2005;82:509–16.
[23] Wulpi DJ. Understanding how components fail. 2nd ed. Materials Park, OH: ASM Inter-
national; 2000.
[24] Psyllaki PP, Pantazopoulos G, Pistoli A. Degradation of stainless steel grids in chemi-
cally aggressive environment. Eng Fail Anal 2013;35:418–26.
[25] Traubert TD, Jur TA. Use of mechanical and metallurgical analysis to evaluate cause of
fractures in a cast 310 stainless steel pintle chain. J Fail Anal Prev 2012;12:318–29.
[26] Didenko T, Zak M. Turbine shroud cracking investigation and repair. J Fail Anal Prev
2012;12:314–7.
[27] Pardal JM, Carvalho SS, Barbosa C, Montenegro TR, Tavares SSM. Failure analysis of
AISI 310S plate in an inert gas generator used in off-shore oil platform. Eng Fail Anal
2011;18:1435–44.
[28] Swaminathan J, Guguloth K, Gunjan M, Roy P, Ghosh R. Failure analysis and remaining
life assessment of service exposed primary reformer heater tubes. Eng Fail Anal
2008;15:311–31.
[29] Pridemore WD. Stress-rupture characterization in nickel-based superalloy gas turbine
engine components. J Fail Anal Prev 2008;8:281–8.
[30] Timoshenko S. Strength of materials. Part 2: advanced theory and problems. 3rd ed. New
Delhi: CBS Publishers; 2000.
[31] Butt MA, Virk MA, Chughtai A, Khan IH, Ahmad M. T-type naphtha pump strainer
mesh failure analysis. Proc Pakistan Acad Sci 2007;44:295–303.
[32] Tavares SSM, Pardal JM, Costa VC, Ferreira MLR. Microstructural changes and corro-
sion resistance of AISI 310S steel exposed to 600–800 °C. Mater Charact
2009;60:573–8.

26 27 28 29 30 31 32 33 34 35 36