Fatigue Strength Assessment of AlSi7Cu0.5Mg T6W Castings Supported by Computed Tomography Microporosity Analysis

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Fatigue Strength Assessment of AlSi7Cu0.5Mg T6W Castings Supported by Computed Tomography Microporosity Analysis. / Garb, Christian; Leitner, Martin; Grün, Florian.
In: Procedia Engineering, Vol. 160.2016, 17.09.2016, p. 53-60.

Research output: Contribution to journalArticleResearchpeer-review

Harvard

Garb, C, Leitner, M & Grün, F 2016, 'Fatigue Strength Assessment of AlSi7Cu0.5Mg T6W Castings Supported by Computed Tomography Microporosity Analysis', Procedia Engineering, vol. 160.2016, pp. 53-60. https://doi.org/10.1016/j.proeng.2016.08.862

APA

Garb, C., Leitner, M., & Grün, F. (2016). Fatigue Strength Assessment of AlSi7Cu0.5Mg T6W Castings Supported by Computed Tomography Microporosity Analysis. Procedia Engineering, 160.2016, 53-60. https://doi.org/10.1016/j.proeng.2016.08.862

Vancouver

Garb C, Leitner M, Grün F. Fatigue Strength Assessment of AlSi7Cu0.5Mg T6W Castings Supported by Computed Tomography Microporosity Analysis. Procedia Engineering. 2016 Sept 17;160.2016:53-60. doi: 10.1016/j.proeng.2016.08.862

Author

Garb, Christian ; Leitner, Martin ; Grün, Florian. / Fatigue Strength Assessment of AlSi7Cu0.5Mg T6W Castings Supported by Computed Tomography Microporosity Analysis. In: Procedia Engineering. 2016 ; Vol. 160.2016. pp. 53-60.

Bibtex - Download

@article{ad566035defc450a9543e2f98c825ebb,
title = "Fatigue Strength Assessment of AlSi7Cu0.5Mg T6W Castings Supported by Computed Tomography Microporosity Analysis",
abstract = "The fatigue strength of the casted aluminum alloy AlSi7Cu0.5Mg T6W is investigated, whereat different eutectic modifiers, Sr and Na, are used for the two fatigue testing series. The tested specimens are extracted from three different locations of casted cylinder heads. The high-cycle fatigue testing is executed with cylindrical specimens at a load ratio of R = -1. The investigations are supported by CT-scans of the specimens and a comprehensive fractographic analysis. The obtained micro pore sizes from CT-scans are compared with thus of the fractography. It is shown that the maximum micro pore sizes near the surface of both examinations are comparable. The database is statistically evaluated using extremal distribution based functions. To assess the fatigue strength of the imperfected specimen, the simplified crack propagation based approach according to Tiryakioglu is applied. The cumulative distribution function matches well to the experimental results. This methodology features the incorporation of extremal micro pore sizes into finite life fatigue strength.",
author = "Christian Garb and Martin Leitner and Florian Gr{\"u}n",
year = "2016",
month = sep,
day = "17",
doi = "10.1016/j.proeng.2016.08.862",
language = "English",
volume = "160.2016",
pages = "53--60",
journal = "Procedia Engineering",
issn = "1877-7058",
publisher = "Elsevier",
note = "XVIII International Colloquium Mechanical Fatigue of Metals ; Conference date: 05-09-2016 Through 07-09-2016",
url = "http://icmfm18.org/",

}

RIS (suitable for import to EndNote) - Download

TY - JOUR

T1 - Fatigue Strength Assessment of AlSi7Cu0.5Mg T6W Castings Supported by Computed Tomography Microporosity Analysis

AU - Garb, Christian

AU - Leitner, Martin

AU - Grün, Florian

PY - 2016/9/17

Y1 - 2016/9/17

N2 - The fatigue strength of the casted aluminum alloy AlSi7Cu0.5Mg T6W is investigated, whereat different eutectic modifiers, Sr and Na, are used for the two fatigue testing series. The tested specimens are extracted from three different locations of casted cylinder heads. The high-cycle fatigue testing is executed with cylindrical specimens at a load ratio of R = -1. The investigations are supported by CT-scans of the specimens and a comprehensive fractographic analysis. The obtained micro pore sizes from CT-scans are compared with thus of the fractography. It is shown that the maximum micro pore sizes near the surface of both examinations are comparable. The database is statistically evaluated using extremal distribution based functions. To assess the fatigue strength of the imperfected specimen, the simplified crack propagation based approach according to Tiryakioglu is applied. The cumulative distribution function matches well to the experimental results. This methodology features the incorporation of extremal micro pore sizes into finite life fatigue strength.

AB - The fatigue strength of the casted aluminum alloy AlSi7Cu0.5Mg T6W is investigated, whereat different eutectic modifiers, Sr and Na, are used for the two fatigue testing series. The tested specimens are extracted from three different locations of casted cylinder heads. The high-cycle fatigue testing is executed with cylindrical specimens at a load ratio of R = -1. The investigations are supported by CT-scans of the specimens and a comprehensive fractographic analysis. The obtained micro pore sizes from CT-scans are compared with thus of the fractography. It is shown that the maximum micro pore sizes near the surface of both examinations are comparable. The database is statistically evaluated using extremal distribution based functions. To assess the fatigue strength of the imperfected specimen, the simplified crack propagation based approach according to Tiryakioglu is applied. The cumulative distribution function matches well to the experimental results. This methodology features the incorporation of extremal micro pore sizes into finite life fatigue strength.

U2 - 10.1016/j.proeng.2016.08.862

DO - 10.1016/j.proeng.2016.08.862

M3 - Article

VL - 160.2016

SP - 53

EP - 60

JO - Procedia Engineering

JF - Procedia Engineering

SN - 1877-7058

T2 - XVIII International Colloquium Mechanical Fatigue of Metals

Y2 - 5 September 2016 through 7 September 2016

ER -

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