What do the symbols in da/dN=A(^K)m represent in material fatigue and stress?

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Homework Help Overview

The discussion revolves around the symbols in the equation da/dN=A(ΔK)m, which pertains to material fatigue and crack propagation. Participants are trying to clarify the meanings of the symbols and their relationships within the context of fatigue analysis.

Discussion Character

  • Conceptual clarification, Assumption checking

Approaches and Questions Raised

  • The original poster attempts to identify the meanings of the symbols da and dN, while another participant corrects these interpretations and provides additional context about the equation and its components.

Discussion Status

Participants are actively engaging in clarifying the definitions of the symbols involved in the equation. Some guidance has been offered regarding the interpretation of the equation and the role of the stress intensity factor range. There is ongoing exploration of how to determine the crack geometry factor.

Contextual Notes

There is mention of reliance on external resources, such as textbooks and online materials, to find additional information about the crack geometry factor, indicating a potential gap in the original poster's resources.

Ashley
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Could you please explain what each of the following symbols stand for:
da/dN=A(^K)m

I have worked out that da is the crack length
i have worked out that dN is the number of cycles
Are both of these correct?

Thanks
 
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What you have is a simplified model of the rate of crack propagation:

[tex]\frac{da}{dN} = A\Delta K^m[/tex]

2*a is the crack length (not da), N is the number of cycles (not dN).

ΔK is the stress intensity factor range:

[tex]\Delta K = Y\sqrt{\pi a}(\sigma_{\rm max} - \sigma_{\rm min})[/tex]

(Y is a crack geometry factor).

A and m are empirical constants (found by plotting log(da/dN) versus log(ΔK)).
 
Thanx for the help.
 
One more thing

you said that Y is a crack geometry factor, how do you find the crack geometry factor??
 
It depends on the shape/aspect ratio of the crack. Hopefully, there is a table or explanation in your textbook. Here's a page I found with a bunch of them that might help:

http://www.ems.psu.edu/~green/436-8C.pdf
 
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