MECH152-L23-1 (1.0) - 1 Metal Cutting. MECH152-L23-1 (1.0) - 2 Metal Cutting Operations Turning Drilling Horizontal Milling Vertical Milling.

Slides:



Advertisements
Similar presentations
Fundamentals of cutting
Advertisements

Trig Graphs. y = sin x y = cos x y = tan x y = sin x + 2.
Metal Cutting and Cutting Tools
FORMAT REPORT REPORT 1. Title and Front Cover 2. Objective
Chapter 21 THEORY OF METAL MACHINING
337: Materials & Manufacturing Processes
Chapter 20: Fundamentals of Machining/Orthogonal Machining
A Mechanistic Model of Cutting Force in the Micro End Milling Process I.S. Kang, J.S Kim, J.H. Kim, Y.W. Seo Corey Christensen 10/10/2007.
ENGR 225 Section 2.1. Review ~ Force per Area Normal Stress –The average normal stress can be determined from σ = P / A, where P is the internal axial.
Find the period of the function y = 4 sin x
59 4 、 Mechanical method of material removal Fundamental concept of material removal Method of material removal Powered mechanical methods of material.
Mechanics of Materials Lecture 3 Chapter1 - Part 3.
ME Manufacturing Systems Metal Machining Metal Machining.
THEORY OF METAL MACHINING
Chapter 20 Fundamentals of Machining/Orthogonal Machining (Part I Review) EIN 3390 Manufacturing Processes Spring,
THEORY OF METAL MACHINING
Instructional Design Document Machining Mechanics STAM Interactive Solutions.
What is a machining Process? Machining is the manufacturing process by which parts can be produced to the desired dimensions and surface finish from a.
Lecture # 7 THEORY OF METAL MACHINING
IE 337: Materials & Manufacturing Processes
Lecture No 111 Fundamentals of Metal removal processes Dr. Ramon E. Goforth Adjunct Professor of Mechanical Engineering Southern Methodist University.
Manufacturing processes
Thermodynamic Work consumed during Manufacturing Processes P M V Subbarao Professor Mechanical Engineering Department I I T Delhi Estimation of manufacturing.
Chapter 20 Fundamentals of Machining/Orthogonal Machining (Review) EIN 3390 Manufacturing Processes Spring,
IE 243 MANUFACTURING PROCESSES
Copyright Prentice-Hall Chapter 21 Fundamentals of Machining.
Machining Processes 1 (MDP 114) First Year, Mechanical Engineering Dept., Faculty of Engineering, Fayoum University Dr. Ahmed Salah Abou Taleb 1.
Chapter 20 Fundamentals of Machining/Orthogonal Machining (Part 2) EIN 3390 Manufacturing Processes Spring, 2012.
First Year, Mechanical Engineering Dept., Faculty of Engineering, Fayoum University Dr. Ahmed Salah Abou Taleb 1 Manufacturing Processes 1 (MDP 114)
Forces and Mechanics of Cutting
THEORY OF METAL CUTTING THEORY OF METAL MACHINING 1.Overview of Machining Technology 2.Theory of Chip Formation in Metal Machining 3.Force Relationships.
Machining Manufacturing Processes © 2012 Su-Jin Kim GNU Manufacturing Processes Cutting (Machining) 절삭가공 Su-Jin Kim School of Mechanical Engineering Gyeongsang.
Christopher A. Brown Mechanical Engineering Department
TEMPERATURES IN METAL CUTTING
MFGE 307 THEORY OF MANUFACTURING TECHNOLOGY II 1 Chapter 2 MECHANICS OF METAL CUTTING MECHANICS OF METAL CUTTING Prof. Dr. S. Engin KILIÇ.
Modeling Edging Forces in Skiing using Merchant's Theory for Metal Cutting Christopher A. Brown Mechanical Engineering Department Worcester Polytechnic.
Metal Cutting Manufacturing Processes. Outline Metal Cutting Chip Formation Processes ControlConditions Back rake angle Shear angle Chip Formation Continuous.
Machining: Family of Material Removal Processes  Material is removed from a starting work part to create a desired geometry.
Singulation. Pick & Place Pre-collated Components.
Metalworking Basics. © 2011 Kennametal Inc. l All rights reserved. l Proprietary and Confidential l 1 of 16 Metalworking 101 In a metal cutting operation.
THEORY OF METAL MACHINING
Abhishek yadav.
Lecture 1 EBB440 Applied Metallurgy Material Removal Process.
MFGE 541 THEORY OF METAL CUTTING Chapter 2 MECHANICS OF METAL CUTTING Prof. Dr. S. Engin KILIÇ.
(0, 1 ) (1,0)  (r,0) (0,r) Circle of radius r. (0,1) (1,0)  (r,0) (0,r) (cos ,sin  ) 1.
Chapter 20 Fundamentals of Machining/Orthogonal Machining (Part 2) EIN 3390 Manufacturing Processes Summer A,
CHAPTER 8 Material-Removal Processes: Cutting
Lecture # 7 THEORY OF METAL MACHINING 1.Overview of Machining Technology 2.Theory of Chip Formation in Metal Machining 3.Force Relationships and the Merchant.
Fundamentals of Metal cutting and Machining Processes THEORY OF METAL MACHINING Akhtar Husain Ref: Kalpakjian & Groover.
Machining: Family of Material Removal Processes
THEORY OF METAL CUTTING
By Dr. Saied Darwish (Prof. Industrial Engineering Department, KSU)
MECHANICS OF METAL CUTTING
FORCES IN MACHINING PREPARED BY SOUNDHAR.A.
Chapter 20 Fundamentals of Machining/Orthogonal Machining (Part 2) EIN 3390 Manufacturing Processes Summer A,
Metal Machining.
Orthogonal and Oblique cutting
THEORY OF METAL MACHINING
Material Removal Process (Metal Machining Process)
Manufacturing Processes
FUNDAMENTALS OF CUTTING
THEORY OF METAL MACHINING
Metal cutting. Introduction Metal cutting or “Machining” is a process which removing unwanted materials from the work piece by the form of chips. The.
Machining: Family of Material Removal Processes
THEORY OF METAL MACHINING
 Overview of Machining Technology  Theory of Chip Formation in Metal Machining  Force Relationships and the Merchant Equation  Power and Energy Relationships.
In practice we are given an angle (generally from the horizontal or vertical) and we use trigonometry 20N 20 sin 300N cos 300N.
Primary Machining Parameters
Manufacturing Processes
Presentation transcript:

MECH152-L23-1 (1.0) - 1 Metal Cutting

MECH152-L23-1 (1.0) - 2 Metal Cutting Operations Turning Drilling Horizontal Milling Vertical Milling

MECH152-L23-1 (1.0) - 3 Cutting Tools Single Point Cutter Multiple Point Cutter

MECH152-L23-1 (1.0) - 4 Cutting Force Metal Removal Rate = vfd Cutting Force  Metal Removal Rate

MECH152-L23-1 (1.0) - 5 Cutting Mechanics Orthogonal Cutting Model Reducing the model to two dimensional model. Chip thickness ratio, r = t o / t c, always less than 1. t o = d, d being the depth of cut; t c is the chip thickness. l s = length of the shear plane

MECH152-L23-1 (1.0) - 6 Cutting Mechanics

MECH152-L23-1 (1.0) - 7 Cutting Mechanics Forces on chip Tool forces: Normal force, N; Frictional force, F =  N;  = tan  Shear plane forces: Shear force, F s ; Normal force, F n Shear stress on shear plane:  = F s /A s ; A s = t o w/sin  A s = Shear plane area.

MECH152-L23-1 (1.0) - 8 Cutting Mechanics F = F c sin  + F t cos  F = F c cos  - F t sin  F s = F c sin  - F t co  F n = F c sin  + F t cos  F c = cutting force F t = thrust force

MECH152-L23-1 (1.0) - 9 Power & Energy Power, P = F c v Unit power, U = Specific energy = Power / Material Removal Rate = P / MRR = F c v / (vt o w) = F c / (t o w)

MECH152-L23-1 (1.0) - 10 Power & Energy

MECH152-L23-1 (1.0) - 11 Size Effect Correction

MECH152-L23-1 (1.0) - 12 Temperature Rise in temperature at tool chip interface, or, in general

Feedback: Privacy Policy Feedback
Do Not Sell My Personal Information
About project: SlidePlayer Terms of Service

© 2024 SlidePlayer.com Inc. All rights reserved.