The analysis runs in the following slides are based on a W8 x 58.0 wide beam with dimensions shown bellow.

Slides:

Advertisements

Similar presentations

Structural Steel Construction

Advertisements

FEA - Stress Levels & Concentration A change in the shape of a component carrying a load will have the effect of increasing the stress, nearly always at.

Orthographic Projection

Shear and Diagonal Tension

1 Design and drawing of RC Structures CV61 Dr. G.S.Suresh Civil Engineering Department The National Institute of Engineering Mysore Mob:

Mechanics of Materials – MAE 243 (Section 002) Spring 2008 Dr. Konstantinos A. Sierros.

Computer-Aided Engineering Design

CUFSM Advanced Functions

What is a shell structure?

FDR Station 3 lift fixture, laser screens and brackets T. Brown and L. Morris with analysis support from A. Brooks December 3, 2007.

Bridge Design Project Using SolidWorks and SolidWorks Simulation to design, test and build structures.

Ch 1 Sec 3,4,5 Definition of Stress – Sec 3 Average Normal Stress – Sec 4 Average Shear Stress – Sec 5.

October 21, 2003LST Mechanical Design Review - SLACN. Yu BaBar IFR Upgrades An FEA Study of the Effects of Adding Brass Plates in the IFR.

CE En 112 Engineering Drawing with CAD Application

Sean Dalton Chapter 3 Slope and deflection of beams.

ENGR 220 Section 12.1~12.2.

Ch.8 Section Views Objective: Learn how to create section views and

Higher order ODE’s and systems of ODE’s Recall: any higher ODE a system of first order ODEs How to solve? - same as before only more steps.

BEAMS SHEAR AND MOMENT.

Beams Beams: Comparison with trusses, plates t

8. SHEAR FORCE AND BENDING MOMENT

Shear Forces & Bending Moments Shear & Moment Diagrams

Structural Member Properties Moment of Inertia (I) is a mathematical property of a cross section (measured in inches 4 ) that gives important information.

Shear stress versus shear strain For homogeneous & isotropic materials pure shear causes angular distortion of a material as shown above. Pure shear is.

SHEAR AND BENDING MOMENT DIAGRAMS IN HORIZONTAL BEAMS WITH

Extra Examples.

1 Presentation by: Jesse Conklin Group Members: J.P. Telemaque & Mike Milano First National Educational Competition on Predicting Progressive Collapse.

Production Design Presentation By Mr Dalton. Car Project Key Points Sketching Create Features Constraints 2D and 3D Drawings Creating Balloon Part Lists.

© 2011 Autodesk Freely licensed for use by educational institutions. Reuse and changes require a note indicating that content has been modified from the.

BL1U at TRIUMF UCN Beamline Kicker Magnet (April 12, 2010)

1 MC Assembly over the VV FPA Station 3 FDR Review July 17, 2007 T. Brown.

12.5 Method of Superposition:

Vacuum Vessel lateral loading (Neutral beam port only)

NSTX Supported by NSTX Centerstack Upgrade Project Meeting P. Titus January 27, 2010 Umbrella Leg Sliding Blocks TF OOP Support to the Vessel Seismic (Static.

Mechanics of Materials – MAE 243 (Section 002) Spring 2008

PMG Meeting February 2000 A Split Central Silicon Tracker W. E. Cooper on Behalf of the D0 Silicon Group 3 February 2000.

Frame Overview A36 Steel square tubing and plate Frame will rest on four wheels or two air skids 90” Long, 30” wide- outside CG envelope Two carts for.

Sectional Views Advanced Drawing Abilities Teacher © J Lewis 2004.

HiRadMat box relative to beam position and vertical lift table.

1 MC Assembly over the VV FPA Station 3 FDR Review July 13, 2007 T. Brown.

Structure Analysis I. Lecture 7 Internal Loading Developed in Structural Members Ch.4 in text book.

1 CHAP 8 STRUCTURAL DESIGN USING FINITE ELEMENTS FINITE ELEMENT ANALYSIS AND DESIGN Nam-Ho Kim Edited and audio Raphael Haftka.

Nonlinear Analyses of Modular Coils and Shell structure for Coil Cool-down and EM Loads Part 1 – Results of Shell Structure and Modular Coils H.M. Fan.

FEM Analysis of the Stage3 Support Frame H.M. Fan March 14, 2007.

MC inner leg bolts.ppt1 MC Inner Leg Bolts ProE model: stb_added_mc_holes.asm 1/31/07.

Structural Integrity UNDERSTAND STRUCTURAL STRENGTH OF LOAD BEARING COMPONENTS IN MECHANICAL SYSTEM.

Coil-pack assembly procedure Paolo Ferracin LQS01 readiness review #3 Assembly LBNL July 28, 2009.

Examples. Finding the Maximum capacity - Example To find maximum capacity... Can be solved to find b = 56mm or 175mm Therefore 56mm is maximum Substitute.

ORKA support - status report Scope of conceptual design task Develop a conceptual design for how to support the ORKA detector inside the CDF detector Develop.

Principal Stresses in Beams

STRUCTURES & WEIGHTS PDR 1

Sectional Views Advanced

Basic Aircraft Structure

Shear in Straight Members Shear Formula Shear Stresses in Beams

Development of a low material endplate for LP1 and ILD

CHAP 8 STRUCTURAL DESIGN USING FINITE ELEMENTS

“ENERGY PRINCIPLE:UNIT LOAD FOR DETERMINATE STRUCTURE”

MOMENTS OF INERTIA FOR AREAS

Installation step 4. (3 days)

Sample Problem 9.8 For the uniform beam and loading shown, determine the reaction at each support and the slope at end A. SOLUTION: Release the “redundant”

Warm-Up – 9/5 – 10 minutes Utilizing your notes and past knowledge answer the following questions: What are the four forces of flight? Describes what.

Material Joining and Beam Bending

Stress Analysis of Universal Tilt Kit Attachment Points

Alwest Holding Tank Relocation

COLUMNS SLIDE SHOW.

MOMENTS OF INERTIA FOR AREAS

Writing Linear Equations

Section 4.5 The Slope of a Line Goal: Find the slope of a line.

Orthographic Projection

Section 4.6 Direct Variation Direct Variation

Presentation transcript:

The analysis runs in the following slides are based on a W8 x 58.0 wide beam with dimensions shown bellow.

24,000 load in direction of CG Original design of cantilever beam section Peak stress 85 ksi (see next sheet)

Peak stress 21 ksi 24,000 load in direction of CG Cantilever beam section changed

Peak stress: 24,000 load in direction of CG Adding local web increased the peak stress and moved its location as shown ksi (single pass)

Peak stress 19.5 ksi (single pass) 24,000 load in direction of CG

Peak stress: ksi (single pass) ksi (multi pass) 24,000 load in direction of CG See next sheet for deflected shape

24,000 load normal to beam

Peak stress: 37.4 ksi (single pass) 24,000 load normal to beam

Peak stress: 36.0 ksi (single pass) 33.1 ksi (multi pass) 24,000 load normal to beam Extended local rib

The analysis runs in the following slides are based on a W8 x 67.0 wide beam with dimensions shown bellow.

Peak stress: 24.7 ksi (single pass) xxx ksi (multi pass) 15,600 vertical load at each lift point

11.8 ksi 24.7 ksi 9.5 ksi 13.6 ksi

Peak stress: 15,600 vertical load at each lift point 22.9 ksi (multi pass)

22.9 ksi peak stress is located in the bolt area

Deflected shape with 15,600 vertical load at each lift point

18,000 lb vertical load at inner lift point Peak stress is 22.9 ksi (multi pass)

Bolt stresses: 20.0 ksi 14.4 ksi 17.3 ksi 14.4 ksi

Peak stress is 21 ksi (multi pass with bolt supperts) Full left side, position 247 lift support

Peak stress is 16.7 ksi (multi pass with full pad constraints)

Full left side, position 247 lift support Peak stress is 20 ksi (multi pass with full pad constraints) Removed local ribs on inside

Full left side, position 247 lift support Peak stress is 20 ksi (multi pass with full pad constraints) Removed local ribs on inside

Full left side, position 247 lift support Peak deflection:.003” (multi pass with full pad constraints) Removed local ribs on inside

18,000 lb load at inner lift point only Multi-pass run