A Study of Fixture Layout and Clamping Force for a Ti-6Al-4V Disk in a Vertical Turning Lathe Numerically Controlled Machine Maureen Fang Sept 17, 2009.

Slides:

Advertisements

Similar presentations

A Study of Fixture Layout and Clamping Force for a Ti-6Al-4V Disk in a Vertical Turning Lathe Numerically Controlled Machine Maureen Fang Sept 17, 2009.

Advertisements

By: Rachel Sorna and William weinlandt

LOCATING PRINCIPLES and LOCATORS

Mechanical Analysis of Dipole with Partial Keystone Cable for the SIS300 A finite element analysis has been performed to optimize the stresses in the dipole.

An Experimental Study and Fatigue Damage Model for Fretting Fatigue

ME 450 Group Adrian Conrad Chris Cook Thomas Hylton Nathan Wagers High Pressure Water Fixture Conceptual Design Analysis December 10, 2007.

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

Beams and Frames.

EMA 405 Coordinate Systems. Introduction There are many coordinate systems in ANSYS Global and Local: used to locate geometry items (nodes, keypoints,

Chapter Outline Shigley’s Mechanical Engineering Design.

Manufacturing Rounded Shapes ManufacturingProcesses.

Chapter 17 Design Analysis using Inventor Stress Analysis Module

Finite Element Primer for Engineers: Part 2

Copyright 2001, J.E. Akin. All rights reserved. CAD and Finite Element Analysis Most ME CAD applications require a FEA in one or more areas: –Stress Analysis.

Chapter 20: Fundamentals of Machining/Orthogonal Machining

DID YOU KNOW: slender or thin structures can be modelled with Shells in ANSYS? Consider a flat plate of dimensions 6m x 6m x 0.002m (thick); evaluate the.

Copyright © 2002J. E. Akin Rice University, MEMS Dept. CAD and Finite Element Analysis Most ME CAD applications require a FEA in one or more areas: –Stress.

Introduction to ABAQUS 27 th February, Units Before starting to define any model, you need to decide which system of units you will use. ABAQUS.

Seal Analysis Jeremy Osguthorpe Mitchell Woolf Jon Blotter 7 / 12 / 2007.

Identified Company (CompositeX) to manufacture Custom Composite Pressure Vessel ● Working pressure 1000psi ● Holds 8 kg Nitrous Oxide ● 700 cubic inch.

Status of Coil Structural Design and Magnetic-Structural Analysis Presented by X.R. Wang Contributors: ORNL: D. Williamson UCSD: S. Malang, A.R. Raffray.

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.

Can Bottom Snap-through

Computer Numerical Control CNC by Anil Gajjar. Computer Numerical Control Computer Numerical control is a method of automatically operating a manufacturing.

Mechanics of Materials Goal:Load Deformation Factors that affect deformation of a structure P PPP Stress: intensity of internal force.

Chapter 20 Fundamentals of Machining/Orthogonal Machining (Part I Review) EIN 3390 Manufacturing Processes Spring,

Plate and shell elements All the following elements enable to create FE mesh of a thin-walled body, with the thickness being one of the important input.

Project M.E.T.E.O.R. P07109: Flying Rocket Team Andrew Scarlata, Geoff Cassell, Zack Mott, Garett Pickett, Brian Whitbeck, Luke Cadin, David Hall.

Gesture-Based Interactive Beam- Bending By Justin Gigliotti Mentored by Professor Tarek El Dokor And Dr. David Lanning Arizona/NASA Space Grant Symposium.

Tutorial 3: Plane Beam.

Cutting Technology –chip removing –the largest class of manufacturing activities in engineering production –~1.87 million machine tools –~$168 billion.

WORKSHOP 11 SPACECRAFT FAIRING

Vector Addition – Computational Method Example 1 Slide 3.

Numerical Simulations of Silverpit Crater Collapse: A Comparison of TEKTON and SALES 2 Gareth Collins, Zibi Turtle, and Jay Melosh LPL, Univ. of Arizona.

The Finite Element Method A Practical Course

9-Beam Element with Axial Force Dr. Ahmet Zafer Şenalp Mechanical Engineering Department Gebze Technical.

Copyright Prentice-Hall Chapter 23 Machining Processes Used to Produce Round Shapes: Turning and Hole Making.

MECHANICS OF MATERIALS Fourth Edition Ferdinand P. Beer E. Russell Johnston, Jr. John T. DeWolf Lecture Notes: J. Walt Oler Texas Tech University CHAPTER.

Chapter 20 Fundamentals of Machining/Orthogonal Machining (Part I Review) EIN 3390 Manufacturing Processes Fall, 2010.

Features: 1. 2D structural analysis (plane stress) 2. Static analysis 3. Quarter symmetric 4. SI units 5. Only the yoke is modeled 6. Material properties.

Ladder development update Results from SiC 01 test Profile from SiC 03 Mechanical properties of foams.

Chapter 20 Fundamentals of Machining/Orthogonal Machining (Part I) EIN 3390 Manufacturing Processes Spring,

Project M.E.T.E.O.R. P07109: Flying Rocket Team

Methods of mounting of jobs and cutting tools in machine tools The job or blank and the cutting tools essentially need to be properly mounted in the machine.

Finite Element Analysis of the18 Turn Beam H. F. Fan November 5, 2004.

Stress and Strain ( , 3.14) MAE 316 – Strength of Mechanical Components NC State University Department of Mechanical & Aerospace Engineering Stress.

Lathe Ontology. 1. Tooling Components 2. Maintenance Process 3. isFluidsUsed 4. Electrical Inputs 5. isPneumatic Inputs 6.cutting tools 7. Forming tools.

Snap Fit Workshop Seventeen Introduction to Contact REFERENCE: Training Manual Introduction to Contact (7-69)

CAD and Finite Element Analysis Most ME CAD applications require a FEA in one or more areas: –Stress Analysis –Thermal Analysis –Structural Dynamics –Computational.

Modeling of the Broaching Process By: Sara Whitby Matthew Glisson Anton Galkin.

Workshop 9-1 NAS101 Workshops Copyright  2001 MSC.Software Corporation WORKSHOP 9 Buckling Analysis of Plate.

ME 160 Introduction to Finite Element Method-Spring 2016 Topics for Term Projects by Teams of 2 Students Instructor: Tai-Ran Hsu, Professor, Dept. of Mechanical.

Date of download: 5/31/2016 Copyright © ASME. All rights reserved. From: Collagen Structure and Mechanical Properties of the Human Sclera: Analysis for.

Chapter 20 Fundamentals of Machining/Orthogonal Machining (Part 2) EIN 3390 Manufacturing Processes Summer A,

Review Questions: Chapter 0 Given, calculate all the possible binary products of a, a T, b and b T What are the eigenvalues of the matrix ? Is it positive.

5. Torsional strength calculation. 5.1 Torsional loads acting on a ship hull.

MESF593 Finite Element Methods

Multi-objective optimization of nitinol stent design

Date of download: 11/13/2017 Copyright © ASME. All rights reserved.

CAD and Finite Element Analysis

ENFORCED MOTION IN TRANSIENT ANALYSIS

Distributed Forces: Centroids and Centers of Gravity

FEA convergence requirements.

Manufacturing Rounded Shapes

326MAE (Stress and Dynamic Analysis) 340MAE (Extended Stress and Dynamic Analysis)

Distributed Forces: Centroids and Centers of Gravity

Distributed Forces: Centroids and Centers of Gravity

Presentation transcript:

A Study of Fixture Layout and Clamping Force for a Ti-6Al-4V Disk in a Vertical Turning Lathe Numerically Controlled Machine Maureen Fang Sept 17, 2009

Overview Vertical Turning Lathe (VTL) Machine Fixture-Disk Assembly Cutting Forces Finite Element Models in ANSYS Initial Fixture Layout Deflections within Disk Questions

Vertical Turning Lathe (VTL) Machine

Fixture-Disk Assembly Clamp Plate Disk Inner Diameter=0.457m (18 in) Outer Diameter=0.508m (20 in) Height=0.0508m (2 in) Locator

Machining an Outer Diameter Cutting Tool

Cutting Forces Orientations

Cutting forces calculation Flow Diagram

Input Variables Tool Geometry Machining Parameters

Cutting Forces Results are generated by Matlab codes for both oblique and orthogonal cutting Orthogonal cutting has only two cutting forces components Tangential force is the dominate component. Tangential Force Orthogonal Cutting

Finite Element Model in ANSYS Number of elements32000 Number of Nodes38720 Degree of Freedom per Node6 Type of ElementsBrick Material of Workpiece Ti-6Al- 4V Modulus of Elasticity110 GPa Poisson Ratio0.34

Deflections during a complete cut The “U” shape curve presents the magnitude of deflection changes as the cutting tool travels from the top to the bottom surface of the disk. The displacement vector sum is largest at the top. The subsequent models will have the cutting forces applied at the top surface.

Initial Fixture Layout

Circumferential locations Circumferential locations of one set of clamp and locator with respect to cutting forces

Displacement Vector Sum A B C

Displacement Components Z-component = axial direction Y-component = circumferential direction

Contour Plots from ANSYS

Questions