03286nam a22005175i 4500999001700000001001800017003000900035005001700044006001900061007001500080008004100095020001800136024003500154040001100189050000900200072001600209072002300225072001500248082001400263100007900277245011300356250001800469264005900487300003300546336002600579337002600605338003600631347002400667505031900691520129501010650003202305650002502337650003402362650002302396650003202419650002402451650004302475650002302518710003402541773002602575776003602601776003602637776003602673856004602709942001302755  c27369d27369978-0-85729-661-0DE-He21320240716151254.0a|||||o|||| 00| 0 cr nn 008mamaa110804s2011    xxk|    s    |||| 0|eng d  a97808572966107 a10.1007/978-0-85729-661-02doi  cimu-kc 4aQ342 7aUYQ2bicssc 7aTEC0090002bisacsh 7aUYQ2thema04a006.32231 aOluwole, Oluleke.eauthor.4aut4http://id.loc.gov/vocabulary/relators/aut10aFinite Element Modeling for Materials Engineers Using MATLAB®h[electronic resource] /cby Oluleke Oluwole.  a1st ed. 2011. 1aLondon :bSpringer London :bImprint: Springer,c2011.  aXI, 120 p.bonline resource.  atextbtxt2rdacontent  acomputerbc2rdamedia  aonline resourcebcr2rdacarrier  atext filebPDF2rda0 a1. The Weak Formulation -- 2. Linear Interpolation Functions -- 3.Derivation of Element Matrices and Solution of the Finite Element Equation -- 4. Steps to Modeling Using PDEToolBox Graphics Interface -- 5. Application of PDEToolBox to Heat Transfer Problems -- 6. Application of PDEToolBox to Elasticity Problems.  aThe finite element method is often used for numerical computation in the applied sciences. It makes a major contribution to the range of numerical methods used in the simulation of systems and irregular domains, and its importance today has made it an important subject of study for all engineering students.   While treatments of the method itself can be found in many traditional finite element books, Finite Element Modeling for Materials Engineers Using MATLAB® combines the finite element method with MATLAB to offer materials engineers a fast and code-free way of modeling for many materials processes.   Finite Element Modeling for Materials Engineers Using MATLAB® covers such topics as: developing a weak formulation as a prelude to obtaining the finite element equation, interpolation functions, derivation of elemental equations, and use of the Partial Differential Equation Toolbox™. Exercises are given based on each example and m-files based on the examples are freely available to readers online. Researchers, advanced undergraduate and postgraduate students, and practitioners in the fields of materials and metallurgy will find Finite Element Modeling for Materials Engineers Using MATLAB® a useful guide to using MATLAB for engineering analysis and decision-making. 0aComputational intelligence. 0aComputer simulation. 0aMathematicsxData processing. 0aMaterials science.14aComputational Intelligence.24aComputer Modelling.24aComputational Science and Engineering.24aMaterials Science.2 aSpringerLink (Online service)0 tSpringer Nature eBook08iPrinted edition:z978085729660308iPrinted edition:z978144716144808iPrinted edition:z978085729662740uhttps://doi.org/10.1007/978-0-85729-661-0  2ddccEBK