Spectrum Fatigue Testing and Small-Crack Life Prediction Analysis on a Coupon Similar to a Critical Design Detail of a CF188 Hornet Component

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Volume 1, Issue 9 (October 2004)

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ISSN: 1546-962X
Published Online: 4 October 2004
Page Count: 14

Spectrum Fatigue Testing and Small-Crack Life Prediction Analysis on a Coupon Similar to a Critical Design Detail of a CF188 Hornet Component
Yanishevsky, M
Senior Research Officer, Institute for Aerospace Research, National Research Council Canada, ON

Everett, RA
Senior Aerospace Engineer, U.S. Army Vehicle Technology Directorate, ARL, Mechanics and Durability Branch,

(Received 28 May 2002; accepted 17 July 2003)

Abstract

Numerous studies have shown that small-crack methodology can be used to predict the total fatigue life of laboratory type (K^T = 1 and 3) specimens under variable amplitude loading. Prior to investigating how well this fatigue life prediction capability could be extended to “real” aircraft structures, an intermediary step was taken where total fatigue life was predicted for a laboratory type specimen similar to a critical design detail in a fighter aircraft fuselage bulkhead. Using the small-crack analysis in the computer code called FASTRAN and assuming an initial crack size of 20 microns, the time to catastrophic failure of the test coupons was predicted to within 10% of the average test times.

Keywords:
aircraft, small-crack life prediction, spectrum fatigue

Paper ID: JAI19032
DOI: 10.1520/JAI19032
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Author Title Spectrum Fatigue Testing and Small-Crack Life Prediction Analysis on a Coupon Similar to a Critical Design Detail of a CF188 Hornet Component Symposium Fatigue Testing and Analysis Under Variable Amplitude Loading Conditions, 2002-05-31 Committee E08

		Home Journals STPs Manuals Topics Subscriptions/Pricing Digital Library / Journals / Journal of ASTM International (JAI) / Citation Page Volume 1, Issue 9 (October 2004) Click here to download this paper now for $25 PDF (1.9M) View License Agreement ISSN: 1546-962X Published Online: 4 October 2004 Page Count: 14 Spectrum Fatigue Testing and Small-Crack Life Prediction Analysis on a Coupon Similar to a Critical Design Detail of a CF188 Hornet Component Yanishevsky, M Senior Research Officer, Institute for Aerospace Research, National Research Council Canada, ON Everett, RA Senior Aerospace Engineer, U.S. Army Vehicle Technology Directorate, ARL, Mechanics and Durability Branch, (Received 28 May 2002; accepted 17 July 2003) Abstract Numerous studies have shown that small-crack methodology can be used to predict the total fatigue life of laboratory type (K^T = 1 and 3) specimens under variable amplitude loading. Prior to investigating how well this fatigue life prediction capability could be extended to “real” aircraft structures, an intermediary step was taken where total fatigue life was predicted for a laboratory type specimen similar to a critical design detail in a fighter aircraft fuselage bulkhead. Using the small-crack analysis in the computer code called FASTRAN and assuming an initial crack size of 20 microns, the time to catastrophic failure of the test coupons was predicted to within 10% of the average test times. Keywords: aircraft, small-crack life prediction, spectrum fatigue Paper ID: JAI19032 DOI: 10.1520/JAI19032 ASTM International is a member of CrossRef. Author Title Spectrum Fatigue Testing and Small-Crack Life Prediction Analysis on a Coupon Similar to a Critical Design Detail of a CF188 Hornet Component Symposium Fatigue Testing and Analysis Under Variable Amplitude Loading Conditions, 2002-05-31 Committee E08