tool angle
TRANSCRIPT
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An introduction to Cutting Tools with special reference to
SPCT
by
Jatinder GargAssociate Professor
Baba Hira Singh Bhattal Institute of Engineering & Technology Lehragaga (Sangrur)
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Machining Process• Cast, formed and shaped products may need
further machining operations to give them the desired final shape, after removal of extra material in the form of chips.
• Machining processes remove material from a work piece by
• CUTTING ( As in case of machine tools like lathe, shaper etc)• ABRASIVE ( As in case of a grinding wheel)• NON TRADITIONAL ( Processes such as EDM, ECM Etc.)
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Metal Cutting Processes
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Turning• High proportion of work machined in shop
turned on lathe• Turning tool set to given depth of cut, fed parallel to
axis of work (reduces diameter of work)• Chip forms and slides along cutting tool's upper surface
created by side rake
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Planing or Shaping• Workpiece moved back and forth under
cutting tool• Fed sideways a set amount at end of each table
reversal
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Plain Milling• Multi-tooth tool having several equally spaced cutting
edges around periphery• Each tooth considered single-point cutting tool (must have
proper rake and clearance angles)• Workpiece held in vise or fastened to table
• Fed into horizontal revolving cutter• Each tooth makes successive cuts• Produces smooth, flat, or profiled surface depending on
shape of cutter
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Inserted Blade Face Mill• Consists of body that holds several equally spaced
inserts• Cutting action occurs at lower corner of insert
• Corners chamfered to give strength
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End Milling• Multi-fluted cutters held vertically in vertical
milling machine spindle or attachment• Used primarily for cutting slots or grooves• Workpiece held in vise and fed into revolving
cutter• End milling
• Cutting done by periphery of teeth
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Drilling• Multi-edge cutting tool that cuts
on the point
• Drill's cutting edges (lips) provided with lip clearance to permit point to penetrate work piece as drill revolves
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What is a Cutting Tool• A cutting tool is any tool that is used to remove
metal from the work piece by means of shear deformation.
• It is one of most important components in machining process
• It must be made of a material harder than the material which is to be cut, and the tool must be able to withstand the heat generated in the metal cutting process.
• Two basic types• Single point• Multiple point
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Single Point Cutting Tool
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Multi Point Cutting Tool
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Cutting-Tool Materials• Cutting tool bits generally made
• High-speed steel• Cast alloys• Cemented carbides• Ceramics• Cermets• Cubic Boron Nitride• Polycrystalline Diamond
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Cutting Tool Properties• Hardness
• Cutting tool material must be 1 1/2 times harder than the material it is being used to machine.
• Capable of maintaining a red hardness during machining operation• Red hardness: ability of cutting tool to maintain sharp
cutting edge at elevated temp.• It is also sometimes referred to as hot hardness or hot
strength
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Cutting Tool Properties• Wear Resistance
• Able to maintain sharpened edge throughout the cutting operation
• Same as abrasive resistance
• Shock Resistance• Able to take the cutting loads and forces
• Shape and Configuration• Must be available for use in different sizes and
shapes.
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Single Point Cutting Tool
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Single Point Cutting Tool
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Know the Single Point Cutting Tool
• Shank: Main body of tool, it is part of tool which is gripped in tool holder
• Face: Top surface of tool b/w shankand point of tool. Chips flow along this surface
• Flank: Portion tool which faces the work. It is surface adjacent to & below the cutting edge when tool lies in a horizontal position.
• Point: Wedge shaped portion where face & flank of tool meet.• Base: Bearing surface of tool on which it is held in a tool holder.• Nose radius: Cutting tip, which carries a sharp cutting point. Nose
provided with radius to enable greater strength, increase tool life & surface life. Typical Value : 0.4 mm – 1.6 mm
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SPC Tool Geometry
SIDE RELIEFSIDE CLEARANCE
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The most significant terms in the geometry of a cutting tool angles are:
• Relief or clearance angle• Side relief• End relief
• Rake angle• Back Rake angle• Side Rake angle
• Cutting edge angle• Side Cutting edge angle• End Cutting edge angl• Nose Radius
Nomenclature of Single Point Lathe Tool
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Cutting-Tool TermsRelief or Clearance angle:
• Ground on the end and side faces of a tool to prevent it from rubbing on the work piece.
• To enable only the cutting edge to touch the work piece.
Side Relief angle:• Angle ground directly
below the cutting edge on the flank of the tool
End Relief angle:• Angle ground from the
nose of the tool
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Cutting-Tool TermsCutting edge angle
• Ground on a tool so that it can be mounted in the correct position for various machining operations.
Side Cutting edge angle• Allows flank of the tool to
approach the work piece first• Spreads the material over a
greater distance on the cutting edge, thereby thinning out the chip.
• Approximately 150
End Cutting edge angle• Allows the cutting tool to
machine close to the work piece during turning operations
• Usually 20 – 300
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Rake angle:• Ground on a tool to provide a smooth flow of the chip over the tool
so as to move it away from the work piece
Cutting-Tool Terms
Back Rake angle• Ground on the face of the tool• Influences the angle at which
chip leaves the nose of the tool• Generally 8 - 100
Side Rake angle• Ground on the tool face away
from the cutting edge• Influences the angle at which
the chip leaves the work piece• A lathe tool has 140 side rake.
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Side Rake• Large as possible to allow
chips to escape• Amount determined
• Type and grade of cutting tool• Type of material being cut• Feed per revolution
• Angle of keenness• Formed by side rake and side
clearance
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Back Rake
• Angle formed between top face of tool and top of tool shank• Positive
• Top face slopes downward away from point
• Negative• Top face slopes upward
away from point• Neutral
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Rake Angles
• Small to medium rake angles cause: • high compression• high tool forces• high friction• result = Thick—highly deformed—hot chips
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Negative Rake Tools• Typical tool materials which utilize negative rakes are:
• Carbide• Diamonds• Ceramics
• These materials tend to be much more brittle than HSS but they hold superior hardness at high temperatures. The negative rake angles transfer the cutting forces to the tool which help to provide added support to the cutting edge.
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Cutting-Tool Terms
Functions:• Strengthens finishing
point of tool • Improves surface finish
on work• Should be twice amount
of feed per revolution• Too large – chatter; too
small – weakens point
Nose Radius:• Rounded tip on the point of the tool
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Tool Angle Application
• Factors to consider for tool angles• The hardness of the metal• Type of cutting operation• Material and shape of the cutting tool• The strength of the cutting edge
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