BEGLEY and LANDES – J-Integral Estimation Method: Difference between revisions

Latest revision as of 14:02, 28 November 2025

Sprachauswahl/Language selection

Dieser Artikel ist auch auf Deutsch verfügbar

A service provided by

Polymer Service GmbH Merseburg
Tel.: +49 3461 30889-50 E-Mail: info@psm-merseburg.de Web: https://www.psm-merseburg.de
Our further education offers: https://www.psm-merseburg.de/weiterbildung
PSM on Wikipedia: https://de.wikipedia.org/wiki/Polymer Service Merseburg

J-Integral estimation method according to BEGLEY and LANDES (BL)

Evaluation method according to Begley and Landes

Basic assumption of the estimation method

J-integral estimation methods are used for the determination of fracture mechanical values according to the J-integral concept.

The proposal for the determination of J_I^BL was made by BEGLEY and LANDES [1] and is based on the neglect of the deformation of the unnotched specimen:

J_{I}^{BL}={\frac {f({\frac {a}{W}})A_{G}}{B(W-a)}}

Fig. 1:

Determination of J integral according to BEGLEY and LANDES [1, 2]

Geometry function and determination equations for SENB and CT specimens

The following geometry function f (a/W) applies to the three-point bending test specimen (SENB):

f (a/W) = 2 for a/W > 0.45

This results in the following determination equation for the SENB specimen:

J_{I}^{BL}={\frac {2\ A_{G}}{B(W-a)}}

In the case of the Compact tension (CT) specimen, the following geometry function is used:

f({\frac {a}{W}})=2{\frac {1+\alpha }{1+\alpha ^{2}}}

with

\alpha ={\sqrt {({\frac {2a}{W-a}})^{2}+2({\frac {2a}{W-a}})+2-({\frac {2a}{W-a}}+1)}}

for a/W = 0.5 and f(a/W) = 2.26.

This results in the following determination equation for the CT specimen:

J_{I}^{BL}={\frac {2.26\ A_{G}}{B(W-a)}}

Evaluation procedure

The experimental procedure for determining geometry-independent fracture-mechanical characteristic values with the aid of the instrumented Charpy impact test (ICIT) under dynamic loading is explained in detail in the validated procedure of the testing laboratory "Mechanical Testing of Plastics": MPK procedure "MPK-ICIT" [3].

[1]	Landes, J. D., Begley, J. A.: Test Results from J-Integral-Studies: An Attempt to Established a J_IC Testing Procedure. ASTM STP 560 (1974) p. 170–186
[2]	Grellmann, W., Seidler, S. (Eds.): Polymer Testing. Carl Hanser, Munich (2022) 3. Edition, p. 258–59 and 267–270, (ISBN 978-1-56990-806-8; e-book 978-1-56990-807-5; see AMK-Library under A 22)
[3]	MPK procedure "MPK-ICIT" (2016-03): Testing of Plastics – Instrumented Charpy Impact Test (ICIT): Procedure for Determining the Crack Resistance Behaviour Using the Instrumented Impact Test; Part I: Determination of Characteristic Fracture Mechanics Parameters for Resistance Against Unstable Crack Propagation; Part II: Determination of Characteristic Fracture Mechanics Parameters for Resistance Against Stable Crack Propagation

Latest revision as of 14:02, 28 November 2025

Basic assumption of the estimation method

Geometry function and determination equations for SENB and CT specimens

Evaluation procedure

See also