Influence Of Crack Closure And Stress Ratio On Near Threshold Fatigue Crack Growth Behavior In Ti 1100

Influence of Crack Closure and Stress Ratio on Near-Threshold Fatigue Crack Growth Behavior in Ti-1100

Author : T. Nicholas

Publisher :

Page : 16 pages

File Size : 11,57 MB

Release : 1994

Category : Composite materials

ISBN :

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Book Description

In the present study, the fatigue crack growth behavior of a near-?, ?-processed titanium alloy, Ti-1100, was investigated with the objective of assessing the influence of crack closure and stress ratio on fatigue threshold. Measurement of the crack-opening load in single-edge tension [SE(T)] specimens was made by near-tip strain gage and DCPD methods. Fatigue threshold stress intensity ranges, ?Kth, determined under constant stress ratio and constant maximum stress intensity, variable stress ratio conditions indicate almost identical values for R above 0.5. It is postulated that while crack closure in the wake of the crack tip is responsible for the no-growth condition in the former case, lack of sufficient damage accumulation at the crack tip as a consequence of the formation of an insignificant reversed plastic zone and large planar slip band formations surrounding the crack tip appears to be responsible for no growth in the latter case. The use of an effective stress intensity based on closure data consolidates most of the threshold data, indicating the independence of the fatigue crack growth data to mean stress or R.



Cyclic Deformation, Fracture, and Nondestructive Evaluation of Advanced Materials

Author : Michael R. Mitchell

Publisher : ASTM International

Page : 405 pages

File Size : 39,84 MB

Release : 1994

Category : Composite materials

ISBN : 0803119895

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Book Description

Examines the initiation and growth of fatigue cracks and the fracture toughness of advanced materials such as silicon nitride, special alloys and steels, thermoplastics, and graphite-epoxy composites; and explains several non-destructive techniques to evaluate such materials for manufacturing defect



Mechanics of Fatigue Crack Closure

Author : Wolf Elber

Publisher : ASTM International

Page : 671 pages

File Size : 10,58 MB

Release : 1988

Category : Fracture mechanics

ISBN : 0803109962

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Fracture Mechanics

Author : Walter G. Reuter

Publisher : ASTM International

Page : 842 pages

File Size : 23,43 MB

Release : 1995

Category : Aluminum alloys

ISBN : 0803119968

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Influences of Crack Closure and Load History on Near-Threshold Crack Growth Behavior in Surface Flaws

Author : Jira, JR.

Publisher :

Page : 12 pages

File Size : 49,96 MB

Release : 1990

Category : Crack closure

ISBN :

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Book Description

Fatigue crack growth threshold tests are conducted on a high-strength titanium alloy using a surface flaw specimen geometry. A laser interferometer is used to monitor crack-mouth opening displacements, from which compliance determined crack length is computed. Four types of loading history involving both increasing-and decreasing-?K are used to reach a threshold condition. Two of the test conditions maintain constant Kmax under computer control. Crack closure is obtained from the load-displacement plots and used to determine an effective stress-intensity range, ?Keff. Results from all four test types indicate that a single value of an effective stress-intensity range is obtained which is independent of stress ratio, R, or load history. Crack growth rate data in the near-threshold regime, on the other hand, appear to have a dependence on R even when ?Keff is used as a correlating parameter.



Fatigue and Fracture Mechanics

Author : Tina Louise Panontin

Publisher : ASTM International

Page : 922 pages

File Size : 28,39 MB

Release : 1999

Category : Fatigue

ISBN : 0803124864

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On the Role of Crack Closure Mechanisms in Influencing Fatigue Crack Growth Following Tensile Overloads in a Titanium Alloy

Author : CM. Ward-Close

Publisher :

Page : 19 pages

File Size : 33,70 MB

Release : 1988

Category : Crack (fracturing)

ISBN :

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Book Description

A comparative study has been made of the transient fatigue crack growth rate behavior following tensile overloads at low (near-threshold) and high stress intensity ranges in an ?/?-type titanium alloy IMI 550, with specific emphasis of the role of crack closure mechanisms. After tensile overloads, fatigue cracks in both coarse-grained ?-annealed and fine-grained ?/? microstructures were observed initially to accelerate, followed by significant retardation, before growth rates returned to their baseline levels. The initial acceleration was attributed to an immediate reduction in near-tip closure, as indicated by metallographic sectioning, and a slight decrease in far-field closure, as measured by back-face compliance methods. Subsequent retardation was not associated with marked changes in far-field closure, although there were indications on compliance curves of a second "closure point" at a higher load, suggesting an approximate 50% increase in near-tip closure. Load interaction effects were found to be most severe where specific mechanisms of crack closure were prominant. Thus, the maximum post-overload retardations were seen in the coarse-grained ? microstructure, and when baseline stress intensity ranges were close to the threshold ?KTH, or when the maximum overload stress intensities approached the fracture toughness.