Issue 35
S. Barter et alii, Frattura ed Integrità Strutturale, 35 (2016) 132-141; DOI: 10.3221/IGF-ESIS.35.16 135 At higher ∆ K and K max values, the fracture surface appears less crystalline in nature where significant plasticity is evident. In this condition, striations are easily found and the crack growth behaviour at large inclusions (inherent in these materials) are involved in the crack extension and these features influence the crack path. For this reason, the paths taken by fatigue cracks for the two typical regimes; 1) ∆ K and K max below ~5MPa√m, and 2) above this value to failure, of crack growth have notable differences 4 . While both references [16] discuss striation formation, this paper investigates crack paths in AA7050-T7451 for ∆ Ks <5MPa√m (growth rates of <2x10 -7 m/cycle), with emphasis on ∆ Ks less than 3 MPa√m (growth rates <2x10 -8 m/cycle). This regime includes the transition growth from no striations being observable to striations being easily observed. Previous work on striation formation can be found in [16]; noting that the explanation in these papers is in some respects at odds with classical descriptions of striation formation such as those found in [17, 18]. The main difference is the observation that matching crack faces appear asymmetric with striation peaks on one face matching striation depressions on the other rather than peak to peak or depression to depression as suggested in the classical descriptions. The observation that the formation of striations is asymmetric does, in-part, explain how changes in loading can produce changes in striation appearance so that with in-completed load cycles the ridges and depressions seen in Fig. 2B are formed rather than completed striations. This has direct implications to crack paths at growth rates below those that result in observable striations. Figure 2 : Examples of fatigue crack surfaces produced by simple spectra applied to AA7050-T7451 coupons, showing the macro crack path variation (A) through the crystal structure resulting in a faceted fracture surface (taken at a high angle of tilt); and at the micro level (B) with additional features from crack path changes marked (from [15]). E XPERIMENTAL METHOD imple load sequences were designed with significant variations in R to investigate a range of crack path deviations. AA7050-T7451 coupons, which were hourglass-shaped, and a low stress concentration were tested to failure in ambient conditions (about 21°C and humidity 50-70%) with a servo hydraulic fatigue test machine. Various loading sequences were employed, consisting of sub-blocks of VA and CA cycles of various R and max values. To limit retardation effects, the max levels were held constant within each test loading sequence. To make the tests physically representative of cracks that may be found in service aircraft structures, the fatigue cracks were grown to failure from small discontinuities approximately 20µm deep, produced by either surface etching or micro laser cutting 5 on the coupon surface. The coupons were all cut from a thick plate with a large effective grain size 6 . After 4 After striations become obvious in this material it is often found that the crack becomes rougher with obvious intersections with large second phase particles that tend to be to either side of the main growth plane. This results in a different sort of roughness developing. The striations themselves become more plastic (smoother) in appearance although they may show rumpling or slip traces on their flanks and evidence of contact on their leading edges. The secondary paths created by fissures tend to steer parts of the crack front away from the average path and finally the crack path may deviate wildly from the average path and grow in odd local directions due to the involvement of the fissuring and inclusions. 5 Polished coupons were cut with a regular array of slots by a Coherent Industrial AVIA pulsed frequency tripled Nd-YAG LASER operated at S
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