Hoop stress results are less affected by irregular

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Unformatted text preview: lane Shear .982 23 .293 66 .986 7 .272 66 .959 31 .969 18 Out-Of-Plane Shear .215 67 .958 33 .960 23 Twist .854 16 .910 24 .903 8 Trapezoidal (θ = 30°) Extension .997 6 .999 4 1.000 4 .993 6 .993 11 .994 3 In-Plane Shear .976 26 .109 64 .982 17 .100 64 .954 32 .957 23 .072 64 .954 34 .954 25 Out-Of-Plane Shear ANSYS Verification Manual . ANSYS Release 9.0 . 002114 . © SAS IP, Inc. 2–33 Benchmark D1 Tip Loading Shape/Direction Tip Displacement Ratio / % Error In Energy Norm PLANE2 PLANE42 PLANE82 SOLID45 Twist SOLID92 SOLID95 .742 27 .910 25 .903 8 Trapezoidal (θ = 45°) Extension .997 6 .999 3 1.000 4 .994 4 .993 11 .994 3 In-Plane Shear .961 32 .052 59 .967 36 .047 59 .939 37 .891 34 Out-Of-Plane Shear .030 60 .941 38 .921 36 Twist .563 40 .910 25 .903 8 Parallelogram (θ = 15°) Extension .998 6 .997 4 .999 5 .991 5 .993 11 .994 3 In-Plane Shear .983 22 .812 38 .988 1 .798 40 .959 31 .971 18 Out-Of-Plane Shear .749 49 .958 33 .960 23 Twist .886 19 .910 24 .903 8 Parallelogram (θ = 30°) Extension .998 6 .999 4 .999 5 .993...
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This note was uploaded on 12/09/2010 for the course DEPARTMENT E301 taught by Professor Kulasinghe during the Spring '09 term at University of Peradeniya.

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