fea lab practice questions
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HKBK COLLEGE OF ENGINEERING
DEPARTMENT OF MECHANICAL ENGINEERING
COMPUTER AIDED MODELING & ANALYSIS LAB
PROBLEMS FOR PRACTICE
Problems based on Beams
Determine the nodal deflection, reaction forces and stress for the following cantilever beamsubjected to a pointed load of 200N? Youngs Modulus ! 2"0#pa, $oissons ratio !0%&
Determine the nodal deflection, reaction forces and stress for the following cantilever beamsubjected to a pointed load of 200N? Youngs Modulus ! 2"0#pa, $oissons ratio !0%&
Determine the nodal deflection, reaction forces and stress for the following ''( subjected toa )D*? Youngs Modulus ! 2"0#pa, $oissons ratio !0%&
Determine the nodal deflection, reaction forces and stress for the following ''( subjected toa pointed load of "+N? Youngs Modulus ! 2"0#pa, $oissons ratio !0%&
Determine the nodal deflection, reaction forces and stress for the following ''( subjected to
a )*? Youngs Modulus ! 2"0#pa, $oissons ratio !0%&
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HKBK COLLEGE OF ENGINEERING
DEPARTMENT OF MECHANICAL ENGINEERING
COMPUTER AIDED MODELING & ANALYSIS LAB
Determine the nodal deflection, reaction forces and stress for the following ''( subjected to a
different loads? Youngs Modulus ! 2"0#pa, $oissons ratio !0%&
Problems based on Bars and Trusses
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Determine the nodal deflection, reaction forces and stress for the following (ar YoungsModulus ! 2"0#pa, $oissons ratio !0%& , -a.e / ! "00mm2
Determine the nodal deflection, reaction forces and stress for the following 'tructure% -a.eYoungs Modulus ! 200#pa, $oisson ratio !0%&, /" ! "mm2, and /2 ! 2mm2
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HKBK COLLEGE OF ENGINEERING
DEPARTMENT OF MECHANICAL ENGINEERING
COMPUTER AIDED MODELING & ANALYSIS LAB
Determine the nodal deflection, reaction forces and stress for the following structure% -a.eYoungs Modulus ! 200#pa, $oissons ratio !0%&, /rea of -russ Member ! &20mm 2
Determine the nodal deflection, reaction forces and stress for the following structure%-a.eYoungs Modulus ! 200#pa, $oissons ratio !0%&,/rea of -russ Member ! "000mm2
Determine the nodal deflection, reaction forces and stress for the following structure% -a.eYoungs Modulus ! 200#pa, $oissons ratio !0%&, /rea of -russ Member ! "000mm 2
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HKBK COLLEGE OF ENGINEERING
DEPARTMENT OF MECHANICAL ENGINEERING
COMPUTER AIDED MODELING & ANALYSIS LAB
Problems based on Dynamic Analysis
Determine the natural fre1uenc of the structure as shown in fig and Modal shapes%-a.e Youngs Modulus ! 200#pa, $oissons ratio !0%&, Densit ! 345"067N8mm&
Determine the natural fre1uenc of the structure as shown in fig and Modal shapes -a.e
Youngs Modulus ! 200#pa, $oissons ratio !0%&,Densit ! 345"067N8mm&
Determine the natural fre1uenc of the structure as shown in fig and Modal shapes% -a.eYoungs Modulus ! 200#pa, $oissons ratio !0%&, Densit ! 345"067N8mm&
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HKBK COLLEGE OF ENGINEERING
DEPARTMENT OF MECHANICAL ENGINEERING
COMPUTER AIDED MODELING & ANALYSIS LAB
Problems based on Rectangular late !it" #ole
Determine the 'tress in the structure as shown in fig% -a.e Youngs Modulus ! 200#pa,
$oissons ratio !0%&% -he thic.ness of the plate is 2mm%
Problems based on #eat Trans$er
Determine the -emperature Distribution in the 9urnace as shown in fig%+" ! "0w8m + and .2
! 2 w8 m .
Determine the -emperature Distribution in the 9urnace as shown in fig% +" ! "0w8m+ , +2 !2 w8 m+ and +& ! &0:8m+
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7/25/2019 FEA Lab Practice Questions
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HKBK COLLEGE OF ENGINEERING
DEPARTMENT OF MECHANICAL ENGINEERING
COMPUTER AIDED MODELING & ANALYSIS LAB