Details

Title

Flaw Detection of Cast-Steel Safety Parts in Automotive Application

Journal title

Archives of Foundry Engineering

Yearbook

2022

Volume

vol. 22

Issue

No 1

Affiliation

Dizdar, K.C. : Istanbul Technical University, Turkey ; Sahin, H. : Istanbul Technical University, Turkey ; Ardicli, M. : Bosch Powertrain Solutions, Bursa, Turkey ; Dispinar, D. : Foseco Non-Ferrous Metal Treatment, Netherlands

Authors

Keywords

NDT ; Cast steel ; CT ; Porosity ; Leakage

Divisions of PAS

Nauki Techniczne

Coverage

13-17

Publisher

The Katowice Branch of the Polish Academy of Sciences

Bibliography

[1] Stefanescu, D.M. (2005). Computer simulation of shrinkage related defects in metal castings–a review. International Journal of Cast Metals Research. 18(3), 129-143.
[2] Kweon, E.S., Roh, D.H., Kim, S.B. & Stefanescu, D.M. (2020). Computational modeling of shrinkage porosity formation in spheroidal graphite iron: a proof of concept and experimental validation. International Journal of Metalcasting. 14, 601-609.
[3] Campbell, J. (2015). Complete casting handbook: metal casting processes, metallurgy, techniques and design. Butterworth-Heinemann.
[4] Duckers, (2015). AISI Materials Content Analysis: Final Report.
[5] Meola, C., Squillace, A., Minutolo, F.M.C. & Morace, R.E. (2004). Analysis of stainless steel welded joints: a comparison between destructive and non-destructive techniques. Journal of Materials Processing Technology. 155, 1893-1899.
[6] Menzies I. & Koshy, P. (2009). In-process detection of surface porosity in machined castings. International Journal of Machine Tools and Manufacture. 49(6), 530-535.
[7] Ushakov, V.M., Davydov, D.M. & Domozhirov, L.I. (2011). Detection and measurement of surface cracks by the ultrasonic method for evaluating fatigue failure of metals. Russian Journal of Nondestructive Testing. 47(9), 631-641.
[8] Vazdirvanidis, A., Pantazopoulos, G. & Louvaris, A. (2009). Failure analysis of a hardened and tempered structural steel (42CrMo4) bar for automotive applications. Engineering Failure Analysis. 16(4), 1033-1038.
[9] Gupta, R.K., Ramkumar, P. & Ghosh, B.R. (2006). Investigation of internal cracks in aluminium alloy AA7075 forging. Engineering Failure Analysis. 13(1), 1-8.
[10] Smokvina Hanza S. & Dabo, D. (2017). Characterization of cast iron using ultrasonic testing, HDKBR INFO Mag. 7(1), 3-7.
[11] Krautkrämer, J. & Krautkrämer, H. (1990). Ultrasonic Testing of Materials” Springer-Verlag.
[12] Ziółkowski, G., Chlebus, E., Szymczyk, P. & Kurzac, J. (2014). Application of X-ray CT method for discontinuity and porosity detection in 316L stainless steel parts produced with SLM technology. Archives of Civil and Mechanical Engineering. 14(4), 608-614.
[13] A. du Plessis, A., le Roux, S.G. & Guelpa, A. (2016). Comparison of medical and industrial X-ray computed tomography for non-destructive testing. Case Studies in Nondestructive Testing and Evaluation. 6(A), 17-25.
[14] Kurz, J.H., Jüngert, A., Dugan, S., Dobmann, G. & Boller, C. (2013). Reliability considerations of NDT by probability of detection (POD) determination using ultrasound phased array. Engineering Failure Analysis. 35, 609-617.
[15] Sika, R., Rogalewicz, M., Kroma, A. & Ignaszak, Z. (2020). Open atlas of defects as a supporting knowledge base for cast iron defects analysis. Archives of Foundry Engineering. 20(1), 55-60.

Date

2022.01.20

Type

Article

Identifier

DOI: 10.24425/afe.2022.140211
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