IP-32125 Advanced Metalcutting Calculators in U.S. & Metric Units and Engineering Formulas for Metalcutting, Combo Set
Advanced Metalcutting Calculators in U.S. & Metric Units and Engineering Formulas for Metalcutting, Combo Set
A unique and handy resource, Engineering Formulas for Metalcutting enables users to calculate necessary speeds, feeds, and required machining power in order to maximize the productivity of cutting. Providing information on formulas and their applications in a concise and clearly arranged format, it describes mechanical properties of the most popular work materials, such as steels, cast irons, and nonferrous alloys. And it offers numerous formulas for calculating speeds, feeds, cutting forces, and machining power. What’s more, practical examples of calculating the variety of such cutting parameters will make this a valuable source of knowledge in training and practice.
Advanced Metalcutting Calculators contains four calculators for major metalcutting operations: Milling, Turning, Boring,Drilling; and a fifth for calculating exact Machining Time when facing, cutting off, and deep grooving. All calculators are developed in Microsoft Excel and execute all parameters in both U.S. and metric units. These calculators provide computations more accurate than any other calculators on the market and can be used by anyone involved in manufacturing, including machinists, technicians, and engineers.
Power requirements when milling, turning, boring, or drilling are calculated by tangential force and cutting speed, or by torque and the number of revolutions per minute. These requirements are calculated when cutting inserts are sharp and prior to indexing or changing them
Engineering Formulas for Metalcutting
Linear regression equations for converting Rockwell, Vickers, Knoop, and Scleroscope hardness numbers into Brinell hardness numbers.
Formulas and linear regression equations for calculating ultimate tensile strength of the most commonly used work materials in relationship with their hardness.
Formulas for calculating the number of inserts simultaneously engaged with
the workpiece depending on milling conditions.
Formulas to calculate machining time when facing, cutoff, and deep grooving and for feed and radial forces in relationship with tangential force.
Set of formulas to calculate overhang of boring bars made of tungsten heavy alloys and cemented carbides in comparison with a boring bar made of steel.
Formulas for metal removal rate and for calculating tangential and axial forces.
Establishes power constant values for most commonly used work materials.
Advanced Metalcutting Calculators CD-ROM
Cutting force versus ultimate tensile strength of the work material and area of the chip.
Torque at spindle versus cutting force and the cutter diameter.
Adjustments to feed rate depending on the cutter geometry and width of cut
Cutting force components – tangential force versus depth of cut, feed rate, and the work material’s power constant; feed and radial forces versus tangential force and the coefficients of proportionality, depending on the group of work materials.
Torque at spindle versus tangential force and the workpiece diameter
BORING CALCULATOR (in addition to the same two features immediately above)
Deflection versus resulting cutting force, unsupported length of the boring bar, moment of inertia of the bar cross-sectional area, and the modulus of elasticity of the bar material. Note: The method of determining feed and radial forces when turning and boring, and the calculators that utilize this method are patented (US Patent # 6,836,697)
Tangential force versus drill diameter, feed rate, power constant of the work material, and the drill wear factor.
Thrust (axial force) versus tangential force and the coefficient of proportionality establishing thrust-to-tangential force ratio.
Torque at the drill versus tangential force and the drill diameter.
Radius of the workpiece when the machine tool spindle runs at the maximum rpm.
Machining time (in minutes) when facing or cutting off to the center of the workpiece; or when deep grooving, facing, or cutting off to a shoulder of the workpiece.
Author: Edmund Isakov
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