02812nam a2200361 i 4500952012900000999001100129001000900140005001700149008004100166010001700207020002900224040003300253042000800286050002300294082003100317100003000348245006700378250001900445264004300464300006100507336002600568337002800594338002700622504005100649505099800700520060301698650002702301942001202328998002802340998002802368263000902396906004502405 00102ddc40718EngineeringaKNOWbKNOWd2023-03-05l0o620.00151825 LO.F 2017p190095r2023-03-05 00:00:00w2023-03-05yBK c87d871908370520220329121624.0160505s2017 maua 001 0 eng d a 2016940946 a9781305637344qpaperback aDLCbengerdacDLCdEG-CaTKH apcc aTA347.F5bL64 201700223a620.00151825 LO.F 20171 aLogan, Daryl L.,eauthor.12aA first course in the finite element method /cDaryl L. Logan. aSixth edition. 1aBoston, MA :bCengage Learning,c2017. axviii, 955 pages :billustrations (some color) ;c24 cm. atextbtxt2rdacontent aunmediatedbn2rdamedia avolumebnc2rdacarrier aIncludes bibliographical references and index.0 aIntroduction -- Introduction to the stiffness (displacement) method -- Development of truss equations -- Development of beam equations -- Frame and grid equations -- Development of the plane stress and plane strain stiffness equations -- Practical considerations in modeling; interpreting results; and examples of plane stress/strain analysis -- Development of the linear-strain triangle equations -- Axisymmetric elements -- Isoparametric formulation -- Three-dimensional stress analysis -- Plate bending element -- Heat transfer and mass transport -- Fluid flow in porous media and through hydraulic networks; and electrical networks and electrostatics -- Thermal stress -- Structural dynamics and time-dependent heat transfer -- Appendix A. Matrix algebra -- Appendix B. Methods for solutions of simultaneous -- Appendix C. Equations from elasticity theory -- Appendix D. Equivalent nodal forces -- Appendix E. Principle of virtual work -- Appendix F. Properties of structural steel shapes. aDiscover a simple, direct approach that highlights the basics you need within A FIRST COURSE IN THE FINITE ELEMENT METHOD, 6E. This unique book is written so both undergraduate and graduate students can easily comprehend the content without the usual prerequisites, such as structural analysis. The book is written primarily as a basic learning tool for students, like you, in civil and mechanical engineering who are primarily interested in stress analysis and heat transfer. The text offers ideal preparation for utilizing the finite element method as a tool to solve practical physical problems. 0aFinite element method. 2ddccBK ahuda.mahmoudbMd202203 amona.romiabRd20220329 a1606 a0bibccorignewd2eepcnf20gy-gencatlg