Content deleted Content added
m Fixing extra text in CS1 - "edition" doesn't need an "ed" suffix - plus standard AWB fixes |
Added reference to ASTM standard |
||
Line 1:
'''Crack tip opening displacement''' ('''CTOD''') or <math>\delta_\text{t}</math> is the distance between the opposite faces of a [[fracture|crack]] tip at the 90° intercept position. The position behind the crack tip at which the distance is measured is arbitrary but commonly used is the point where two 45° lines, starting at the crack tip, intersect the crack faces.<ref name="suresh04">{{cite book |last1=Suresh |first1=S. |date=2004 |title=Fatigue of Materials |publisher=Cambridge University Press |isbn=978-0-521-57046-6}}</ref> The parameter is used in [[fracture mechanics]] to characterize the loading on a crack and can be related to other crack tip loading parameters such as the [[stress intensity factor]] <math>K</math> and the elastic-plastic [[J-integral]].
For [[plane stress]] conditions, the CTOD can be written as: <ref>{{Cite book|last=Janssen|first=Michael|url=https://www.worldcat.org/oclc/57491375|title=Fracture mechanics|date=2004|publisher=Spon Press|others=Zuidema, J. (Jan), Wanhill, R. J. H.|year=|isbn=0-203-59686-2|edition=2nd|___location=London|pages=150|oclc=57491375}}</ref><ref name=":0">{{Cite book|last=Soboyejo|first=W. O.|url=http://worldcat.org/oclc/300921090|title=Mechanical properties of engineered materials|date=2003|publisher=Marcel Dekker|year=|isbn=0-8247-8900-8|___location=|pages=|chapter=11.6.3 Plastic Zone Size|oclc=300921090}}</ref>
<math>\delta_\text{t} = \left(\frac{8\sigma_\text{ys}a}{\pi E}\right)\ln\left[\sec\left(\frac{\pi \sigma^\infty}{2\sigma_\text{ys}}\right)\right]</math>
where <math>\sigma_\text{ys}</math> is the [[Yield (engineering)|yield stress]], <math>a</math> is the crack length, <math>E</math> is the [[Young's modulus]] , and <math>\sigma^\infty</math> is the remote applied stress.
Under [[fatigue (material)|fatigue]] loading, the range of movement of the crack tip during a loading cycle <math>\Delta\delta_\text{t}</math> can be used for determining the rate of fatigue growth using a [[crack growth equation]]. The crack extension for a cycle <math>da/dN</math>, is typically of the order of <math>\Delta\delta_\text{t}</math>.<ref name="suresh04" />
== History ==
Line 19:
== Relation with other crack tip parameters ==
=== K and CTOD ===
CTOD can be expressed in terms of stress intensity factor <math>K</math> as: <ref>{{cite book |first=T. L. |last=Anderson |title=Fracture Mechanics: Fundamentals and Applications |edition=Third |url={{google books |plainurl=y |id=MxrtsC-ZooQC}}|date=24 June 2005|publisher=CRC Press|isbn=978-0-8493-1656-2 |ref=harv |pp=104–105}}</ref>
:<math>\delta_\text{t} = \frac{4}{\pi}\frac{K^2}{m\sigma_\text{y} E} </math>
Line 26:
=== J-integral and CTOD ===
The relationship between the CTOD and J is given by: <ref name="suresh04"/><ref>{{Cite book|last=Zehnder|first=Alan T.|url=https://www.worldcat.org/oclc/773034407|title=Fracture mechanics|publisher=|year=|isbn=978-94-007-2595-9|___location=Dordrecht|pages=172|oclc=773034407}}</ref>
:<math>\delta_\text{t} = d_n \frac{J}{\sigma_\text{y}}</math>
Line 34:
== Testing ==
A CTOD test is usually done on materials that undergo plastic deformation prior to failure. The testing material more or less resembles the original one, although dimensions can be reduced proportionally. Loading is done to resemble the expected load. More than 3 tests are done to minimize any experimental deviations. The dimensions of the testing material must maintain proportionality. The specimen is placed on the work table and a notch is created exactly at the centre. The crack should be generated such that the defect length is about half the depth. The load applied on the specimen is generally a three-point bending load. A type of [[strain gauge]] called a crack-mouth clip gage is used to measure the crack opening.<ref
Standards for CTOD testing can be found in the ASTM E1820 - 20a code.<ref>{{Cite journal|last=E08 Committee|title=Test Method for Measurement of Fracture Toughness|url=http://www.astm.org/cgi-bin/resolver.cgi?E1820-20A|language=en|doi=10.1520/e1820-20a}}</ref>
=== Laboratory measurement ===
| |||