Melting and solidification

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*<b>[[Integral approximate solution of melting and solidification problems|Integral Approximate Solution]]</b>
*<b>[[Integral approximate solution of melting and solidification problems|Integral Approximate Solution]]</b>
*<b>[[Numerical simulation of melting and solidification|Numerical Solution]]</b>
*<b>[[Numerical simulation of melting and solidification|Numerical Solution]]</b>
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:[[Enthalpy method]], [[equivalent heat capacity method]], and [[temperature-transforming model]].
 
*<b>[[Solidification of a binary solution system|Solidification of a Binary Solution System]]</b>
*<b>[[Solidification of a binary solution system|Solidification of a Binary Solution System]]</b>
:[[Integral approximate method for solidification of a binary solution system|Integral approximate method]], [[Mixture model for solidification of a binary solution system|mixture model]] and [[Volume-averaging model for solidification of a binary solution System|volume-averaging model]].
:[[Integral approximate method for solidification of a binary solution system|Integral approximate method]], [[Mixture model for solidification of a binary solution system|mixture model]] and [[Volume-averaging model for solidification of a binary solution System|volume-averaging model]].

Revision as of 00:15, 4 July 2010

Melting and solidification find application in the geophysical sciences; industrial forming operations such as casting and laser drilling; latent heat energy storage systems; and food and pharmaceutical processing. Any manmade metal products must undergo liquid forms at some point during manufacturing processes and solidify to form intermediate or final products.

Integral approximate method, mixture model and volume-averaging model.
Convection-controlled melting problem, and an enthalpy model for melting and solidification.


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