iMechanica - Johnson Cook Mathematical model - Comments http://www.imechanica.org/node/1732 Comments for "Johnson Cook Mathematical model" en Johnson Cook model http://www.imechanica.org/node/1732#comment-3879 <p> Dear Biswajit Banerjee, </p> <p> Thanks a lot for this information. </p> <p> Have a nice day. </p> <p> &nbsp; </p> <p> -Balappa. Bhairnatti.&nbsp; </p> <br class="clear" /> Mon, 30 Jul 2007 13:18:09 -0400 balappa comment 3879 at http://www.imechanica.org Re: Johnson-Cook flow stress model http://www.imechanica.org/node/1732#comment-3848 <p> You can find some details of the model and some references in </p> <p> <a href="http://www.eng.utah.edu/~banerjee/Papers/CuPlasticCompare.pdf" target="_blank">http://www.eng.utah.edu/~banerjee/Papers/CuPlasticCompare.pdf&nbsp;</a> </p> <br class="clear" /> Fri, 27 Jul 2007 12:27:49 -0400 Biswajit Banerjee comment 3848 at http://www.imechanica.org Johnson Cook Mathematical model http://www.imechanica.org/node/1732 <p> <font size="2">Dear friends, </font> </p> <p> <font size="2">&nbsp;Can anybody give me information/Website/papers/... on below mentioned topic ??</font> </p> <p> <font size="2"><strong>on Johnson Cook plasticity model with analytical forms of the hardening law and rate dependence. I am trying to use this in my high-strain-rate transient dynamic simulations (metals). I am using ABAQUS as analysis tool.&nbsp;</strong></font> </p> <p> <font size="2">&nbsp;</font> </p> <p> <font size="2">Thanks a ton in advance !</font> </p> <p> <font size="2">&nbsp;</font> </p> <p> <font size="2">-Balappa Bhairnatti.</font> </p> <p> <strong><font size="2">Tooltech Deutschland</font></strong> </p> <p> <strong><font size="2">Munich.&nbsp;</font></strong> </p> <br class="clear" /> http://www.imechanica.org/node/1732#comments Johnson Cook Plasticity Model Fri, 27 Jul 2007 04:56:54 -0400 balappa 1732 at http://www.imechanica.org