Speed and Feed for the Lathe 301
Speed and Feed for the Lathe provides a thorough explanation of cutting variables for lathe operations, including how these variables are measured, selected, and set. Many variables affect speed and feed selection, especially the type of cutting operation, tool material, and workpiece material. The class covers speed and feed selection for both manual and CNC machines.
The proper selection of speed and feed is necessary to maximize tool life, productivity, and surface finish. Understanding cutting variables reduces tool wear, damage to machine components, and scrapped parts.
Number of Lessons 19
- Cutting Variables for the Lathe
- Cutting on the Lathe
- Workpiece Materials and Machinability
- Tool Properties and Tool Wear
- Materials and Machinability Review
- Balancing Cutting Variables
- Manual and CNC Lathes
- Machine Tool and Cutting Variable Review
- Speed and Feed Selection
- Speed Selection for the Lathe
- Speed Conversion Formulas
- Conversion Formulas: In Action
- Lathe Speed Review
- Constant Surface Speed
- Constant Surface Speed: In Action
- Feed for the Lathe
- Feed for the Lathe: In Action
- CSS and Feed Review
- Optimizing Speeds and Feeds
- Describe cutting variables for the lathe.
- Describe cutting variables for the lathe.
- Describe factors that affect machinability.
- Describe factors that affect tool wear.
- Describe various factors that affect cutting variable selection.
- Distinguish between selecting cutting variables for CNC and engine lathes.
- Describe how to select cutting variables using reference materials.
- Distinguish between rpm and sfm (m/min).
- Demonstrate how to convert between rpm and sfm or rpm and m/min.
- Explain constant surface speed.
- Explain constant surface speed.
- Describe lathe feed measurements.
- Describe lathe feed measurements.
- Identify methods and reasons for adjusting cutting variables.
A substance that has been intentionally added to a metal to improve its properties. Additives often improve machinability.
A silvery white metal that is soft, light, and has a high strength-to-weight ratio. Aluminum alloys contain a blend of metals and have high machinability ratings.
American Iron and Steel Institute
AISI. An organization that issues general classification standards for irons and steels. The American Iron and Steel Institute assigns machinability ratings to a wide variety of materials.
A particular grade of steel that acts as the standard for machinability ratings. B-1112 steels have a 1.00 machinability rating.
A white, brittle metal with a pinkish tinge. Bismuth may be added to steel to improve machinability.
The use of a single-point cutting tool to enlarge an existing hole. Boring operations, which are programmed in sfm (m/min), help to create a hole that is concentric and that meets tight tolerances.
A common cutting tool material used to make both indexable inserts and solid cutting tools. Carbide is very hard and difficult to machine by traditional methods.
A common, nonmetallic element found in all types of steel. Carbon is the main hardening element in steel.
The heating of a metal within a carbon-rich environment to increase carbon levels on the metal surface. Case hardening creates a hardened exterior shell.
catastrophic tool failure
The sudden and complete loss of tool performance. Catastrophic tool failure can be the result of gradual degradation and intermittent failure.
An imaginary line that runs through the center of a cylindrical workpiece and around which the workpiece rotates. Centerlines are at a 90° angle to a lathe's headstock.
An unwanted piece of material that is removed from a workpiece. Chips are formed when a tool cuts or grinds a workpiece.
A workholding component used to locate and clamp the workpiece as it rotates. Most chucks have three moveable jaws and are mounted in the spindle.
The compressive force that holds a workpiece in place. Clamping forces resist secondary tool forces.
Computer Numerical Control machine. A sophisticated, precise machine tool run by a computer that requires a programmed speed and feed rate value. CNC machines are very rigid and are capable of fast cutting speeds.
The shaping of metal at temperatures much lower than the metal's molten state. Cold working of steel is done at room temperature.
A device with a hole at its center through which the workpiece passes and that holds the rotating workpiece in place. Collets are designed to hold specific dimensions.
computer numerical control machines
CNC machines. A sophisticated, precise machine tool run by a computer that requires a programmed speed and feed rate value. Computer numerical control machines are very rigid and are capable of fast cutting speeds.
A variable or number that does not change value. The English constant 3.82 or the metric constant 318.3 is used in lathe speed conversion formulas.
constant surface speed
CSS. A setting on a CNC lathe that adjusts the spindle rpm as the tool travels toward and away from the spindle's axis. Constant surface speed keeps surface feet per minute (m/min) consistent.
A chip that does not break apart and instead forms a long, curled string. Continuous chips are often created when machining ductile metals.
The use of single- or multi-point tools to separate metal from a workpiece in the form of chips. Cutting processes vary based on the requirements of a finished part.
cutting edge strength
The ability of an insert edge to resist deformation. Cutting edge strength is affected by rake and relief angles.
A force generated by the motion of the cutting tool and the resistance of a workpiece. Cutting forces are affected by rake and relief angles.
The time it takes to perform a single task. Cycle time may refer to the time it takes to make one part or to perform one step in a process.
depth of cut
The distance to which the cutting tool plunges into the workpiece. Depth of cut indicates the amount of material that is removed by one pass of the cutting tool.
d. The distance from one edge of a circle to the opposite edge that passes through the center. Diameter measurements are required with round or cylindrical features.
Using a multi-point tool to machine a new round hole into the surface of a workpiece. Drilling operations, which require a constant rpm, can be done on a drill press, lathe, or mill.
A material's ability to be drawn, stretched, or formed without breaking. Ductility is more common in softer metals.
The original and most basic type of manual lathe. Engine lathes are often used for short production runs and customized work.
A turning operation that removes material from the end of the rotating cylindrical part. Facing operations, which are programmed in sfm (m/min), are usually performed to establish a part's length.
The rate that the cutting tool travels along the length of the workpiece. Feed measures a linear movement.
A particular grade of steel that has small amounts of additional alloying elements to improve machinability. Free-machining steels may include added bismuth or sulfur.
The ability of a material to resist scratching, indentation, or penetration. Increased hardness in a material can generate more heat and make it more difficult to machine.
HSS. An inexpensive cutting tool material that has a high toughness. High-speed steel is tougher than carbide but offers less hardness and wear resistance.
hp. A unit of power used to describe machine strength. Increased horsepower allows a machine's spindle to exert a greater amount of force.
A workholding device with moveable jaws that uses pressurized liquid to increase its clamping force and rigidity. Hydraulic-operated chucks are safer to operate at higher speeds than traditional chucks.
inches per minute
ipm. The distance in inches that the entire tool advances in one minute. Inches per minute is a measurement of feed of a rotating cutting tool on the lathe.
inches per revolution
ipr. The distance in inches that the tool advances during one complete revolution of the workpiece. Inches per revolution is a measurement of feed on the lathe.
A substance that is unintentionally present in a metal and often has undesirable properties. Inclusions tend to be harder than the metal itself and reduce machinability.
A superalloy made of nickel and chromium that is designed to perform well in extreme environments. Inconel is very difficult to machine and resists both oxidation and corrosion.
Inch per revolution. The distance in inches that the tool advances during one complete revolution of the workpiece. Inch per revolution is a measurement of feed on the lathe.
A machine tool that is used to produce a range of cylindrical workpieces. On a basic lathe, the part rotates in a spindle while the cutting tool is guided along its exterior diameter or into the part to create a hole located on the part's centerline.
A bluish white metal that is very soft and ductile. Lead can be added to steel to improve machinability, but it is less desirable because of the risk of lead poisoning.
Rotating power-driven cutting tools, such as end mills and drills, that are held in the turret of a lathe. Live tooling can perform machining operations off the part centerline while the workpiece is held stationary in the spindle.
Surface meters per minute. The distance in meters that the workpiece surface travels in one minute. Surface meters per minute, which is a metric measurement for speed, depends on workpiece size and rpm.
The ability of a metal to be cut and shaped by machine processes such as cutting, grinding, turning, or drilling. Machinability indicates the relative ease with which a metal can be machined.
The ease with which a cutting process is able to machine a material as rated on a scale with 1.0 as the standard. A machinability rating that falls below 1.0 indicates a material is more difficult to machine, and a rating above 1.0 indicates a material is more easily machined.
millimeters per minute
mm/min. The distance in millimeters that the entire tool advances in one minute. Millimeters per minute is a metric measurement for feed of a rotating cutting tool on the lathe.
millimeters per revolution
mm/rev. The distance in millimeters that the tool advances during one complete revolution of the workpiece. Millimeters per revolution is a metric measurement for feed on the lathe.
A cutting operation in which a rotating multi-point cutting tool is fed along a part's surface to remove material. Milling operations are very versatile and generally produce flat surfaces.
Millimeter per revolution. The distance in millimeters that the tool advances during one complete revolution of the workpiece. Millimeters per revolution is a metric measurement for feed on the lathe.
A holemaking process that makes a round hole at any location on a part that deviates from the part's centerline. Off-center drilling can sometimes be performed a lathe with live tooling.
Removing too much workpiece material during a machining process. Overcutting is a result of excessive feed rates.
A series of digitized instructions used by a CNC machine. Part programs guide the machine tool to perform the necessary sequence of operations to machine a specific workpiece.
A special constant value that relates the diameter of a circle to its circumference. Pi is roughly 3.14 and is used to find the circumference and area of a circle.
A workholding device with moveable jaws that uses air pressure to increase its clamping force and rigidity. Pneumatic-operated chucks are safe at higher speeds than traditional chucks.
An angle formed by the face of the tool and a line parallel to the floor when viewed from the side facing the end of the workpiece. Rake angles affect cutting forces and contact between the tool and workpiece.
An angle formed by the surface of the workpiece and the bottom end of the cutting tool. Relief angles influence tool wear rates and cutting edge strength.
revolutions per minute
rpm. The number of revolutions that a spindle or cutting tool completes in one minute. Revolutions per minute is a measurement of speed in both English and metric systems.
The quality of a workpiece, machine, or machine setup characterized by being stiff and inflexible. Improved rigidity reduces vibration.
Revolutions per minute. The number of revolutions that a spindle or cutting tool completes in one minute. Revolutions per minute is a measurement of speed in both English and metric systems.
Surface feet per minute. The distance in feet that the workpiece surface travels in one minute. Surface feet per minute, which is an English measurement for speed, depends on workpiece size and rpm.
The area on a workpiece where a cutting tool cuts and separates the workpiece into smaller sections. Shear regions are sometimes created during workhardening processes.
A machining tool that has one cutting edge. Single-point tools are often used in turning and boring operations.
The ability of a material to be scratched, indented, or penetrated by another material. Softness will affect a material's machinability rating.
The rate that the workpiece surface and cutting tool pass each other at the point of contact. Speed on a lathe refers to the rotation of the workpiece in the spindle.
The part of the machine tool that spins. Spindles hold the workpiece on lathes.
A unit of measurement to which other units are compared. The standard for a material's machinability rating is 1.0, which corresponds with the rating for steel grade B-1112.
The ability of a material to resist forces that attempt to break or deform it. Increased strength in materials can make them more difficult to machine.
A pale, yellow, brittle element. Sulfur is often added to steel in order to improve machinability.
An alloy consisting of numerous alloying elements that is very expensive and designed to perform well at elevated temperatures. Superalloys have very high hardness and low machinability ratings.
surface feet per minute
sfm. The distance in feet that the workpiece surface travels in one minute. Surface feet per minute, which is an English measurement for speed, depends on workpiece size and rpm.
The degree of smoothness of a part's surface after it has been manufactured. Surface finish is the result of the surface roughness, waviness, and flaws remaining on the part.
surface meters per minute
m/min. The distance in meters that the workpiece surface travels in one minute. Surface meters per minute, which is a metric measurement for speed, depends on workpiece size and rpm.
The process of cutting a long, spiraling groove into a workpiece with a single-point tool. Threading operations, which require a constant rpm, are essential for the creation of fasteners.
An unwanted but acceptable deviation from a given dimension. Tolerances indicate the allowable difference between a physical feature and its intended design.
The length of time that a cutting tool can function properly before it begins to fail. Tool life is affected by several different cutting variables.
The rate at which the cutting edge of a tool wears away during machining. Tool wear greatly affects manufacturing costs.
A machining operation that rotates a cylindrical workpiece while a single-point tool is guided along the length of the part. Turning operations are performed on a lathe and are programmed in sfm (m/min).
A machining operation that rotates a cylindrical workpiece while a single-point tool is guided along the length of the part. Turning operations are performed on a lathe and programmed in surface feet per minute (sfm) or meters per minute (m/min).
Removing an insufficient amount of workpiece material during a machining process. Undercutting is a result of excessive feed rates.
Increasing the hardness of a metal by bending or shaping. Work hardening includes cold working and case hardening processes.
A device used to support, locate, and hold a workpiece during machining. Workholding devices accurately reference the tool performing the operation on the part being held.