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CHAPTER 8 MaterialRemoval Processes: Cutting

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Manufacturing Processes for Engineering Materials, 4th ed. Kalpakjian Schmid ... inserts to a tool shank by clamping, (c) with wing lockpins, and (d) with ... – PowerPoint PPT presentation

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Title: CHAPTER 8 MaterialRemoval Processes: Cutting


1
CHAPTER 8Material-Removal Processes Cutting
2
Cutting Processes
  • FIGURE 8.1 Examples of cutting processes.

3
Orthogonal Cutting
  • FIGURE 8.2 Schematic illustration of a
    two-dimensional cutting process (also called
    orthogonal cutting).

4
Chip Formation
  • FIGURE 8.3 (a) Schematic illustration of the
    basic mechanism of chip formation in cutting. (b)
    Velocity diagram in the cutting zone.

5
Chips Produced in Metal Cutting
  • FIGURE 8.4 Basic types of chips produced in
    metal cutting and their micrographs (a)
    continuous chip with narrow, straight primary
    shear zone (b) secondary shear zone at the
    tool-chip interface (c) continuous chip with
    built-up edge (d) continuous chip with large
    primary shear zone (e) segmented or
    nonhomogeneous chip and (f) discontinuous chip.
    Source After M. C. Shaw, P. K. Wright, and S.
    Kalpakjian.

6
Continuous Chip Formation
  • FIGURE 8.5 Shiny (burnished) surface on the
    tool side of a continuous chip produced in
    turning.

7
Chips Produced In Turning
  • FIGURE 8.8 Various chips produced in turning
    (a) tightly curled chip (b) chip hits workpiece
    and breaks (c) continuous chip moving away from
    workpiece and (d) chip hits tool shank and
    breaks off. Source G. Boothroyd, Fundamentals of
    Metal Machining and Machine Tools.

8
Oblique Cutting
  • FIGURE 8.9 (a) Schematic illustration of
    cutting with an oblique tool. (b) Top view,
    showing the inclination angle i. (c) Types of
    chips produced with different inclination angles.

9
Right-Hand Cutting Tool
  • FIGURE 8.10 (a) Schematic illustration of a
    right-hand cutting tool. Although these tools
    have traditionally been produced from solid
    tool-steel bars, they have been largely replaced
    by carbide or other inserts of various shapes and
    sizes, as shown in (b).

10
Terminology in Lathe Turning
  • FIGURE 8.19 Terminology used in a turning
    operation on a lathe, where f is the feed
    (in./rev or mm/rev) and d is the depth of cut.
    Note that feed in turning is equivalent to the
    depth of cut in orthogonal cutting (Fig. 8.2),
    and the depth of cut in turning is equivalent to
    the turning is equivalent to the width of cut in
    orthogonal cutting. See also Fig. 8.42.

11
Types of Cutting Tool Wear
  • FIGURE 8.20 (a) Types of wear observed in
    cutting tools. The thermal cracks shown are
    usually observed in interrupted cutting
    operations, such as in milling. (b) Catastrophic
    failure of tools. (c) Features of tool wear in a
    turning operation. The VB indicates average flank
    wear. Source (a) and (b) After V. C. Venkatesh.
    (c) International Organization for
    Standardization (ISO).

12
Crater and Flank Wear on a Tool
  • FIGURE 8.21 (a) Crater wear and (b) flank wear
    on a carbide tool. Source J. C, Keefe, Lehigh
    University.

13
Range of Surface Rough-nesses
  • FIGURE 8.27 Range of surface roughnesses
    obtained in various machining processes. Note the
    wide range within each group. (See also Fig.
    9.27).

14
Carbide Inserts
  • FIGURE 8.32 (a) Typical carbide inserts with
    various shapes and chip-breaker features. Round
    inserts are also available. The holes in the
    inserts are standardized for interchangeability.
    Source Courtesy of Kyocera Engineered Ceramics,
    Inc., and Manufacturing Engineering, Society of
    Manufacturing Engineers. (b) Methods of attaching
    inserts to a tool shank by clamping, (c) with
    wing lockpins, and (d) with a brazed insert on a
    shank.

15
Relative Edge Strength
  • FIGURE 8.33 Relative edge strength and tendency
    for chipping and breaking of inserts with various
    shapes. Strength refers to that of the cutting
    edge shown by the included angles. Source
    Kennametal, Inc.

FIGURE 8.34 Edge preparation of inserts to
improve edge strength. Source Kennametal, Inc.
16
Properties of Tool Materials
  • FIGURE 8.38 Ranges of properties for various
    groups of tool materials. (See also various
    tables in this chapter.)

17
Construction of Insert
  • FIGURE 8.39 Construction of polycrystalline
    cubic-boron-nitride or diamond layer on a
    tungsten-carbide insert.

18
Machining Processes
  • TABLE 8.7 General characteristics of machining
    processes.

19
Lathe Operations
  • FIGURE 8.40 Various cutting operations that can
    be performed on a lathe.

20
Designations for a Right-Handed Cutting Tool
  • FIGURE 8.41 (a) Designations and symbols for a
    right-hand cutting tool solid high-speed-steel
    tools have a similar designation. The designation
    right hand means that the tool travels from
    right to left, as shown in Fig. 8.19 (b) Square
    insert in a right-hand toolholder for a turning
    operation. A wide variety of toolholder is
    available for holding inserts at various angles.
    Thus, the angles shown in (a) can be achieved
    easily by selecting an appropriate insert and
    toolholder. Source Kennametal, Inc.

21
Turning Operation
  • FIGURE 8.42 (a) Schematic illustration of a
    turning operation showing depth of cut, d, and
    feed, f. cutting speed is the surface speed of
    the workpiece at the tool tip. (b) Forces acting
    on a cutting tool in turning. Fc is the cutting
    force Ft is the thrust or feed force (in the
    direction of feed) and Fr is the radial force
    that tends to push the tool away from the
    workpiece being machined. Compare this figure
    with Fig. 8.11 for a two-dimensional cutting
    operation.

22
Range of Cutting Speeds
  • FIGURE 8.43 The range of applicable cutting
    speeds and fees for a variety of tool materials.
    Source Valenite, Inc.

23
Cutting Speeds in Turning
  • TABLE 8.8 Approximate range of recommended
    cutting speeds for turning operations.

24
Components of a Lathe
  • FIGURE 8.44 Schematic illustration of the
    components of a lathe. Source Courtesy of
    Heidenreich Harbeck.

25
Machine Tool Parts Example
  • FIGURE 8.46 Typical parts made on
    computer-numerical-control machine tools.

26
Chisel and Crankshaft-Point Drills
  • FIGURE 8.48 (a) Standard chisel-point drill,
    with various features indicated. (b)
    Crankshaft-point drill.

27
Drills and Drilling Operations
  • FIGURE 8.49 Various types of drills and
    drilling operations.

28
Speeds and Feeds in Drilling
  • TABLE 8.10 General recommendations for speeds
    and feeds in drilling.

29
Reamer and Tap Terminology
  • FIGURE 8.50 Terminology for a helical reamer.

FIGURE 8.51 Terminology for a tap.
30
Milling Operations
  • FIGURE 8.53 (a) Schematic illustration of
    conventional milling and climb milling. (b)
    Slab-milling operation, showing depth of cut, d
    feed per tooth, f chip depth of cut, tc and
    workpiece speed, v. (c) Schematic illustration of
    cutter travel distance to reach full depth of cut.
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