Team Fuzzy Balls Waqas Abbasi Dusty Ashberry Daniel Grant Chadwick Harris Gene Karshenboym Robert Ricaud.

Slides:

Advertisements

Similar presentations

Mast Storage Rack NNSY Sean Ellis, Philip Crist, Max Carpenter, Gershom Obeng.

Advertisements

Professor Joe Greene CSU, CHICO

Course Title: Strength of Materials (CVE 202)

Fundamentals for the Up-and-Coming Bridge Engineer Forces on Beams and Material Properties OSU College of Engineering Summer Institute - Robotics.

Bending Moments A bending moment exists in a structural element when an external force is applied to the element so that the element bends (or wishes to.

Lecture #1 Student Objectives: * You should know what the instructor expects from you to final grade * You should be able to assess your level of knowledge.

MSE 201 – Laboratory IThe University of Tennessee Materials Science and Engineering Kurt Johanns MSE Laboratory I Mechanical Properties of Metals.

Designing for Stiffness

More Discussions of the Flip Axle (Continued on “Flip Axle” Report #1 by Andy Stefanik) PPD/MD/ME September 08, 2008 Edward Chi.

Slide HALLD TAGGER MAGNET STRUCTURAL ANALYSIS Presented by William Crahen 6/10/09 Pole Plate analysis Vacuum chamber analysis Vacuum chamber tie rods and.

Feasibility MSA P Base Plate Feasibility 3 plastics were looked at for MSA mounting board material: ABS, Acrylic, and polypropylene. Due to cost.

Structures and stress BaDI 1.

Structure Analysis of 6061-T651 Aluminum Bridge Team Blackboard Mechanical Engineering University of Rochester Team Blackboard Department of Mechanical.

Week 2 Overview Monday, February 2 –Read Hall, Ch 3 on Kinetic Concepts –Take web-based practice exam

Slide 1 Assignment 3. Slide 2 PROBLEM 1 Calculate the maximum deflection in a beam clamped at the both ends as shown in Figure below where the thickness.

Tensile Test The most common static test is the uniaxial tensile test, which provides information about a variety of properties. As a load is applied to.

Team K-TRON Team Members: Ryan Vroom Geoff Cunningham Trevor McClenathan Brendan Tighe.

Chapter 12 Equilibrium and Elasticity Key contents Conditions for mechanical equilibrium Indeterminate structure Stress, strain, modulus of elasticity.

Mechanics of Elastic Materials

Team Fuzzy Balls Waqas Abbasi Dusty Ashberry Daniel Grant Chadwick Harris Gene Karshenboym Robert Ricaud.

Engineering Analysis Presentation ME 4182 Team: 5 Guys Engineering + 1 Nathan Bessette, Rahul Bhatia, Andrew Cass, Zeeshan Saiyed, Glen Stewart YJ Chok.

Jerid Sutton Daniel Smith.  To prove an already employed analysis tool, improve it, or create new analysis tools for joints and fasteners. In doing this.

Front Suspension Greg Habiak, Nicole Simon, Joe Vuto.

Mechanical Engineering Analysis. Material Selection Process WoodStainless Steel HDPEAluminumPTFE Cost Machinability Strength Durability

Linking Technology and Education A proposal for a collaborative arrangement between Early Light and Ball State University 旭日實業有限公司.

Team Wrecked Week 9 Deliverables: Engineering Analysis.

Engineering Practicum Baltimore Polytechnic Institute M. Scott A single iron rod, radius R, has a critical buckling load B and a tensile fracture force.

Team Fuzzy Balls presents: The Ball Stinger Waqas Abbasi Dusty Ashberry Daniel Grant Chadwick Harris Gene Karshenboym Robert Ricaud.

Design and Construction of a Spaghetti Bridge Michael Karweit Department of Chemical Engineering Johns Hopkins University.

FYI: All three types of stress are measured in newtons / meter2 but all have different effects on solids. Materials Solids are often placed under stress.

The ratio of stress and strain, called modulus of elasticity. Mechanical Properties of Solids Modulus of Elasticity.

Statics Activities. Stress  Force per unit area (  ) Typical engineering units – psi (lb f /in 2 ) – N/m 2 Stress = Force/Area – Applied by external.

Axial Members AXIAL MEMBERS, which support load only along their primary axis, are the most basic of structural members. Equilibrium requires that forces.

Part Drawings October 30, 2006 Team Moondogs Chris Culver Rahul Kirtikar Elias Krauklis Christopher Sampson Michael Widerquist.

Engineering 309: Machine Design I Instructor: Dr. Min Lu Presented by: Mike Kraft Thanh Nguyen.

Tool-Free Adjustable Foot Stretcher For Hudson Rowing Shells Brent Davis Casey Haddock Audrey Harper Jennifer Hoover Wes McGee Georgia Institute of Technology.

T HE CRUSHED E XPERIMENT By: Carlos Sanabria Justin Roose Phillip Munday.

A Study of the Effect of Imperfections on Buckling Capability in Thin Cylindrical Shells Under Axial Loading Lauren Kougias.

CTC / MTC 222 Strength of Materials Chapter 1 Basic Concepts.

P13458: Dresser-Rand Compressor Assembly Line Team Members: Lauren Kraft –Project Manager, Nick Feng – IE Cole Bowden – ME, Shawn Moseley – ME Jordon Boggs.

Team Fuzzy Balls Waqas Abbasi Dusty Ashberry Daniel Grant Chadwick Harris Gene Karshenboym Robert Ricaud.

ENGR 211 Bridge Design Project

MAST STORAGE RACK Philip Crist Max Carpenter Sean Ellis Gershom Obeng.

Equilibrium and Elasticity

Mechanical Properties of Materials

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.

An Introduction to engineering analysis

Engineering/Failure Analysis

Team Fuzzy Balls Waqas Abbasi Dusty Ashberry Daniel Grant

Engineering Analysis October 23, 2006 Team Moondogs Chris Culver Rahul Kirtikar Elias Krauklis Christopher Sampson Michael Widerquist.

Engineering Analysis ME 4182 Submitted 6/28/06 Yuki Miyasaka, Anthony Palladino, David Price, Whitney Price, Ricky Sandhu.

Beam Design Beams are designed to safely support the design loads.

Week 8 Deliverables. Assisted Living Facility Visit Talked with elderly who are currently using walkers, a few who were using the same model as the one.

Team INASAD Members: Jose Medina Joseph Leone Andrew Merk Alex Sanders Michael Fox.

The HOPPER: Engineering Analysis Update Team Meathead March 9, 2005.

Mechanics of Elastic Materials. Why study mechanics? Useful for the analysis and design of load-bearing structures, such as: buildings bridges space shuttles.

ME 330 Engineering Materials Lecture 3 Tension/Bending/Torsion/Material Selection Bending Torsion Material Selection Techniques Please read Chapter 6.

Team Fuzzy Balls Waqas Abbasi Dusty Ashberry Daniel Grant Chadwick Harris Gene Karshenboym Robert Ricaud.

BIM Bridge Inspection and Maintenance Technical Standards Branch Class B Bridge Inspection Course Bridge Structural Considerations BASIC STRUCTURAL CONSIDERATIONS.

Engineering Analysis & Updated Layout Drawings SofaKing 9 March 2005.

PRESSURE VESSEL. 1.Determine the bursting steam pressure of a steel shell with diameter of 10 inches and made of ¼ in thick steel plate. The joint efficiency.

Chapter VIII Packer and Tubing Forces.

2K Cold Box Structural Analysis

Team Members: Sagar Sheth Team Leader Leonardo Silva Industrial Eng.

Cymbal Stand Surface Mount Hinge Light Rail Structure Bracket

Team Members: Sagar Sheth Team Leader Leonardo Silva Industrial Eng.

Compression Test of Steel Columns

Team Members: Sagar Sheth Leonardo Silva Stephen Bennice

SENIOR DESIGN PROJECT P08455

Presentation transcript:

Team Fuzzy Balls Waqas Abbasi Dusty Ashberry Daniel Grant Chadwick Harris Gene Karshenboym Robert Ricaud

Presentation Overview Finished Layout Drawings Engineering Analysis Force Analysis Deflection Analysis Required Clamping Force Buckle Tensile Strength Tolerances and Cart Force Analysis Weight and Dimensions Material Selection Analysis

Finished Layout Drawings New layout drawings with air compressor and latches

Engineering Analysis Force Analysis Total Force Calculations

Engineering Analysis Cont. Deflection Analysis

Engineering Analysis Cont. Deflection Analysis Cont. for deflection in the center lines of all lips, this is unacceptably high change quantity of supports from 4 supports to 8 supports

Engineering Analysis Cont. Clamping Force

Engineering Analysis Cont. Buckle Tensile Strength Total tensile strength must be greater than 600 lb. Assume using steel as the buckle material with a UTS of psi. With a safety factor of 2, d=.08 in

Engineering Analysis Cont. Buckle Tensile Strength Cont. Use 1/8” diameter rods for the buckles, this will give 1473 lbs of force per side, this yields a total force of 2945 lb.N. Areas of ConcernSolutions -Where the buckle meets the plastic-Expand Contact Area of Buckler -Deflection of the lid.-Brace Lid - Bowing of the sides of the container-Brace sides or choose different materials

Engineering Analysis Cont. Tolerances Around the seal, 1/32” Elsewhere on the box, 1/8” The cart tolerances are ¼” Cart Analysis Cart Load Analysis F = 28 lbs F/4 = 7 lbs Compressive force on all four legs is 7 lbs

Engineering Analysis Cont. Weight and Dimensions H x W x D Weight -18” x 18” x 18”, Container-18 lbs for box -6” x 6” x 18”, Compressor-10 lbs for compressor -30” x 30” x 20”, Cart-30 lbs for Cart

Engineering Analysis Cont. Material Selection Analysis CES Software of Price/Density vs. Young’s Modulus (stiffness)/ Density

Engineering Analysis Cont. Material Selection Analysis Cont. CES software of the Tensile Strength vs. price for the latches of the buckles

Deliverables Next Week Part Drawings Ongoing Website Maintenance