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A fatigue fracture will have two distinct regions; One being smooth or burnished as a result of the rubbing of the bottom and top of the crack. The second is granular, due to the rapid failure of the material. Striations are thought to be steps in crack propagation, were the distance depends on the stress range. Beachmarks on the other hand may contain thousands of striations.
One can determine that a material failed by fatigue by examining the fracture sight. A fatigue fracture will have two distinct regions; One being smooth or burnished as a result of the rubbing of the bottom and top of the crack (steps 1 & 2); The second is granular, due to the rapid failure of the material.
Other features of a fatigue fracture are Beachmarks and Striations. Beachmarks, or clamshell marks, may be seen in fatigue failures of materials that are used for over a period of time, allowed to rest for an equivalent time period and then loaded again as in factory usage. Striations are thought to be steps in crack propagation, were the distance depends on the stress range. Beachmarks on the other hand may contain thousands of striations.
A very useful way to visualize time to failure for a specific material is with the S-N curve. The "S-N" means stress verse cycles to failure, which when plotted uses the stress amplitude, σa plotted on the vertical axis and the logarithm of the number of cycles to failure. An important characteristic of this model as seen in Figure 3 is the fatigue limit.
The significance of the fatigue limit is that if the material is loaded below this stress, then it will not fail, regardless of the number of times it is loaded. Material such as aluminum, copper and magnesium do not show a fatigue limit, therefore they will fail at any stress and at any number of cycles. Other important terms are fatigue strength and fatigue life. The stress at which failure occurs for a given number of cycles is the fatigue strength. The number of cycles required for a material to fail at a certain stress in fatigue life.
The rate of fatigue crack propagation is determined by subjecting fatigue-cracked specimens, like the compact specimen used in fracture toughness testing, to a constant-amplitude and cyclic loading. The incremental increase in crack length is recorded along with the corresponding number of elapsed load cycles to acquire the stress intensity (K), crack length (a), and cycle count (N) data during the test. The data is presented in an “a versus N” curve as shown in the image to the right. Various a versus N curves can be generated by varying the magnitude of the cyclic loading and/or the size of the initial crack.
Dependable design against fatigue-failure requires thorough education and supervised experience in structural engineering, mechanical engineering, or materials science. There are three principal approaches to life assurance for mechanical parts that display increasing degrees of sophistication:
Fatigue cracks that have begun to propagate can sometimes be stopped by drilling holes, called drill stops, in the path of the fatigue crack. This is not recommended as a general practice because the hole represents a stress concentration factor which depends on the size of the hole and geometry. There is thus the possibility of a new crack starting in the side of the hole. It is therefore always far better to replace the cracked part entirely.
Date Published: Dec-2010
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Total Materia Extended Range includes the largest database of fatigue data and cyclic properties for thousands of metal alloys, heat treatments and loading conditions. Both strain life and stress life parameters are given, with monotonic properties added for the reference, and statistical parameters and estimates where applicable.
Finding cyclic properties in the database is very easy and takes only seconds.
Enter the material of interest into the quick search field. You can optionally narrow your search by specifying the country/standard of choice in the designated field and click Search.
After selecting the material of interest to you, click on the Fatigue data link to view data for the selected material. The number of available fatigue data sets is displayed in brackets next to the link.
Because Total Materia Extended Range cyclic properties are neutral to standard specifications, you can review fatigue data by clicking the appropriate link for any of the subgroups. Strain life and stress life data are given in a tabular format, with graphs where applicable.
Explicit references to the data sources are given for each dataset. Please see example below.
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