Project Unbreakable Debra Rich & Carmen Prieto ME 104Q Fall 2004 The purpose of this project was to design a bridge using Aluminum Alloy as the metal.

Slides:

Advertisements

Similar presentations

Michael Long– Eagle Project - Exhibit D-1 Plans/Drawings – Top View

Advertisements

Hello Builders- This is an early bird posting for those who want to get a quick start. All of the dimensions are just suggestions… size is up to you!!

Forging new generations of engineers

Living with the lab Prototyping with Sheet Metal.

AUXILIARY ELEVATION.

Graphic Communication.  The elevation and plan of an angled bearing block are shown.  Project an auxiliary elevation in the position indicated Auxiliary.

Intended Audience: This StAIR is intended for advanced second year students (10-12 grade) with a mechanical focus.Objective: Given the Applying GD&T StAIR.

Module 3: Marking out and Hand Tools

Here, we’ll show you how to draw a ray diagram for a convex mirror.

Dimensioning Standards

Introduction to Engineering Drawings By: Chris Vandelaar University Machine Services TEB Rm. 50 Resources: Doug Phillips – Previous MME259A presentation.

ANSYS Workbench Analysis Figure 7 Figure 6 Figure 5 Figure 4 Figure 3 Figure 5: This shows the normal stress of the part. Our maximum stress is at the.

1 Blueprint Reading for the Machine Trades, Sixth Edition Unit 12: Auxiliary Views Russ Schultz and Larry Smith PowerPoint presentation created by LaVonne.

Copyright © Texas Education Agency, All rights reserved.

The Paper River Chasm Project Team Canada ME104Q University of Rochester The Paper River Chasm is an opening that extends 8.5” over the Paper River. Several.

Mike Burgstrom Jeff Cosgrove Trevor DiMarco Laura Wong This picture shows the amount of Maximum Sheer Stress that is created when a load of 565 pounds.

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

Fundamentals of Engineering – Honors – ENGR H191 Lecture 16 - AutoCAD1 Question of the Day Who created the first practical light bulb? ANSWER: Joseph.

ME104Q PAPER RIVER CHASM BRIDGE Team Boomerang Mechanical Engineering University of Rochester Executive Summary The premise of this experiment is built.

Bridge of Arc’s Design Brief

Tutorial: Using Powerpoint as an Engineering Drafting Package Dave Quesnel ME 104Q Fall 2004.

Virginia Bourdeau, Professor Oregon 4-H Science Rich Inquiry Activity.

Dimensioning Standards

Orthographic, Oblique & Isometric Projections

Ch 17 communicating solutions 1.Alphabet of lines- technical lines used in multi-view drawings.

Aberdeen Grammar School

Sheet Metal Development Copyright © Texas Education Agency, All rights reserved.

Orthographic Projection: an introduction

Pyramid Construction Pyramids Square Rectangle Hex Cone.

Multi-View Drawing (Text Chapter 8)

How to Sketch a Horizontal Line

Vibration Technical Bulletin. Table of Contents Appearance Inspector Stamp.

Dimension Guidelines. 1. Dimensions should NOT be duplicated, or the same information given in two different ways. Incorrect.

Engineering Drawing and Design Chapter 10 Basic Dimensioning.

SHEAR AND BENDING MOMENT DIAGRAMS IN HORIZONTAL BEAMS WITH

J-FRM-0101 Revision with Reason No.DateInitials Drawing No. D’Vinyl Inc. Descriptive Part Name Designed byChecked by Engineer Drawing Type Foot Plate Date.

ENTC 1110 OBLIQUE PICTORIALS.

1 SheetCourse: Engineering Graphics 1504Memorial University of Newfoundland Engi 1504 – Graphics Lecture 5: Sectioning and Dimensioning l Sectioning an.

AEC DIE SHOP TRAINING CROSS-SECTIONAL DIMENSION TOLERANCE.

THE BASIC FUNDAMENTALS OF STATICS The physical laws used in this study that govern the action and reaction of forces on a body include Sir Isaac Newton’s.

How to mark out, cut, shape and finish. Marking Out For straight lines use a ‘scriber’ and an ‘engineers square’

Sheet Metal: Notes and Descriptions MachinesProceduresTools.

Wheels and Axles Model Assembly Instructions copyright Mechanical Kits Ltd

Extrusion Process.

Dimensioning Lecture 16 Instructor:

ADVANCED MECHANICAL DRAFTING

Basic Dimensioning.

Hexagonal Prisms Developments.  A development is a flat template of a 3D shape that when folded up in the correct way makes the actual shape of the 3D.

Learning Objectives Define the following: Dimension line, Extension line, Reference dimension, and Leader Be able to understand the basic rules of dimensioning.

Shaping operations are generally divided into three groups based upon how the parent metal flows or deforms during the shaping process ,namely Bending.

Unit D Structures and Forces

Sheet Metal Development

WELDING REPRESENTATION

CONSTRUCTION MASTERS BONUS BONUS

Engineering Graphics & Design

WELDING REPRESENTATION

Prototyping with Sheet Metal

Dimensioning Standards

Basic Dimensioning with AutoCAD

Detail Drawings and Assembly Drawings

Engineering Drawings ME 161

Technical Drafting –p401 Before a technical object can be manufactured, its shape and dimensions must be determined. A technical drawing must be created.

Three Types of Pictorial Sketches

Break down Lance rack Cut one of each of these for each rack

Dimensioning Chapter 10.

Forging new generations of engineers

AUXILIARY VIEWS C H A P T E R E I G H T.

Tolerances Introduction to Engineering Design TM

The elevation and plan of an angled bearing block are shown.

Presentation transcript:

Project Unbreakable Debra Rich & Carmen Prieto ME 104Q Fall 2004 The purpose of this project was to design a bridge using Aluminum Alloy as the metal. The goal is for the bridge to have the greatest ratio for weight it holds to actual weight of the bridge. The bridge should be able to hold approximately 500 pounds without any damage to the body. To design the bridge we used the program ANSYS Workbench. This program allowed us to build the bridge and apply a force in order to determine the amount of weight that it could potentially hold without experiencing any damage. After designing and performing the simulation in ANSYS Workbench, the application Microsoft PowerPoint was used to draw the blueprints for the bridge in order for it to be built. After performing the simulation process using ANSYS Workbench our bridge should be able to hold approximating 500 pounds with any damage. In fact, it should be able to hold 7,000 pounds before damage occurs to the body. As a result, our bridge has a safety factor of 15. Our bridge also has a Maximum Equivalent Stress of 3.539e7 and a Maximum Shear Stress of 2.035e7. The bridge also has a Total Deformation of.132e-3. In designing the bridge we also had to put into consideration the fact that a 3” by 5” index card needs to fit under the center of the bridge. All pieces touching the table also need to be able to fit in the area of a 3” by 5” index card as well. We designed our bridge to meet this factors and to be a strong and sturdy bridge. We also wanted it to be aesthetically pleasing to the eye, so we used arcs to support the bridge. To conclude, our bridge should be able to support approximately 500 pounds without any damage done to it. However, because aesthetics were a large factor in the designing of the bridge, it will probably not have the greatest ratio of weight that it holds to weight of the bridge. Abstract Methods Results Discussion Conclusion Revision with Reason No.DateInitials Drawing No. ME104Q-Project Descriptive Part Name Designed byChecked by Engineer Drawing Type Bridge Deck Date of This Revision Drawing Issue Date Drawing SizeScale as DrawnScale as Printed Engineer Phone # Quantity Required 1 DetailA 8 x10 1:1, 1in drawing =1in part D. Rich & C. Prieto D. Quesnel /08/04 1:1 =100% NOTES: Material 6061-T651 sheet Aluminum Shear to Size Break Sharp edges Drill Holes when flat (4 places) relative to exterior corners and the middle. Fold 90 degrees in two places along dotted fold lines to form part as shown in Drawing #A-004. Both Bent Legs should be same length. After bend the gap span should be 1 inch exactly. All dimensions in inch units. Unless otherwise indicated, use default tolerances below x.x +/ ” x.xx +/ ” x.xxx +/ ” Angles +/- 2 o Revision with Reason No.DateInitials Drawing No. ME104Q-Project Descriptive Part Name Designed byChecked by Engineer Drawing Type Bridge leg Date of This RevisionDrawing Issue Date Drawing SizeScale as DrawnScale as Printed Engineer Phone # Quantity Required 2 detailA 8 x10 1:1, 1in drawing =1in part Carm and Debb D. Quesnel Xxx-yyyy 12/08/04 1:1 =100% 1.5 in. 9.5 in. 1 in. 1.5 in. 1 in. 1.5 in. 1 in. 3.5 in in in. 5 in. Front view 5 in. 1/16 in Profile view NOTES: Material 6061-T651 sheet Aluminum Aloy Shear to Size Break Sharp edges Drill Holes when flat (6 places) relative to exterior corners. Fold 90 degrees upwards as if the sheet where laid on the table in the two places along dotted fold lines to form part as shown in Drawing #A-004. Both Bent Legs should be same length. The proceeding page shows holes for rivets to got through. All dimensions in inch units. Unless otherwise indicated, use default tolerances below x.x +/ ” x.xx +/ ” x.xxx +/ ” Angles +/- 2 o Fold on these two dotted lines Revision with Reason No.DateInitials Drawing No. ME104Q-Project Descriptive Part Name Designed byChecked by Engineer Drawing Type Bridge assembly Date of This RevisionDrawing Issue Date Drawing SizeScale as DrawnScale as Printed Engineer Phone # Quantity Required 1 detailA 8 x10 1:1, 1in drawing =1in part Carm and Debb D. Quesnel Xxx-yyyy 12/08/04 1:1 =100% NOTES: Material 6061-T651 sheet Aluminum Aloy Shear to Size Break Sharp edges Drill Holes when flat (12 places) relative to exterior corners. Circles represent rivets to be placed. Place A-002 exactly 3.25 from the ends of the bridge deck and Rivets that appear on the presentable surface of this bridge should be reflected onto the other bridge leg. All dimensions in inch units. Unless otherwise indicated, use default tolerances below x.x +/ ” x.xx +/ ” x.xxx +/ ” Angles +/- 2 o 1 in QuantitySupplier Bill of Materials 1 2 Item Bridge Deck Bridge deck Support Aluminum Pop Rivets 1/8”  Any supplier A Bridge Leg A-003 A-001