Problem 4: The part below is modeled and simulated for buckling. The total force on the top of the structure is 200 Ibf

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Problem 4 The Part Below Is Modeled And Simulated For Buckling The Total Force On The Top Of The Structure Is 200 Ibf 1 (197.8 KiB) Viewed 33 times

Problem 4: The part below is modeled and simulated for buckling. The total force on the top of the structure is 200 Ibf compressing the top surface. Based on the results shown in figure 6 • What is the critical load P. for making the structure buckle? • Does this structure buckle based on the results shown in figure 6? • If this part doesn't fail under buckling can we also conclude that it will not fail under the static stress? DS SOLIDWORKS Search Com le to view it for multion Window Melp 18 Reply Fixtures Los Canton Shell Run The Study Materace Deformed compare Manager Resut Results Plato Report Indude Image for Report Assembly Layout Sketch Evaluate SOLIDWORKS Add-In Simulation SOLIDWORKS MBD SOLIDWORKS CAMP & Mode? Dude Budinge Default Potype Bunge Made Shape:2 Load Factor-1009 Deration 107 Pin2<T> DefaultDefaultDisplay State 173) List Mode D Table top 2<1>DefaultDefaultDisplay State 17 Mam Study பாயாழhy) y. Mode No Bucking Factory Bucking-assembly (-Delaut) 2 3 Parts 4 -161.80 . Connections 5 6 1345 Component Contacts 7 111.55 1615 Case Help - 1 literal loads Force 1 Per iteme 10016) Mesh Amplitude (Res Amp - Mode Shape 1-) Amplitude2 (Res Amp Mode Shape 2:1 Amplitude (-Res Amp - Mode Shape 3-) Amplitude (-es Amp - Mode Shape 4-) Amplitude (-Res Amp - Mode Shape 5-) SOLIDWORKS Educational Product. For instructional Use Only Model View Motion Studio Static.memba Buckdiensemble Figure 6.