Calculator A to Z

Calculators Created by Kumar Siddhant

Kumar Siddhant
Indian Institute of Information Technology, Design and Manufacturing (IIITDM), Jabalpur
410
Formulas Created
145
Formulas Verified
80
Across Categories

List of Calculators by Kumar Siddhant

Following is a combined list of all the calculators that have been created and verified by Kumar Siddhant. Kumar Siddhant has created 410 and verified 145 calculators across 80 different categories till date.
Accuracy and Surface Finish (10)
Created Corner Radius of Tool given Machining Time
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Created Feed to Workpiece given Machining Time
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Created Length of Workpiece given Machining Time
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Created Length of Workpiece given Roughness
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Created Machining Time for Workpiece given Machining Conditions
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Created Machining Time for Workpiece given Roughness
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Created Rotational Frequency of Workpiece given Machining Time
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Created Rotational Frequency of Workpiece given Roughness
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Verified Roughness value given corner radius
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Created Surface Roughness of Workpiece given Machining Time
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2 More Accuracy and Surface Finish Calculators
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Analysis of Grinding Process (14)
Verified Diameter of wheel given feed and machine infeed speed
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Verified Diameter of wheel given Feed speed in Grinding
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Verified Diameter of workpiece given feed and machine infeed speed
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Verified Diameter of workpiece given Metal removal rate
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Verified Feed speed given Metal removal rate
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Verified Feed speed given workpiece and wheel removal parameter
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Verified Feed speed in Grinding
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Verified Grinding ratio
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Verified Machine infeed speed given Feed speed in Grinding
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Verified Machine infeed speed given workpiece and wheel removal parameter
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Verified Metal removal rate given Diameter of workpiece
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Verified Metal removal rate given workpiece removal parameter
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Verified Wheel removal rate given Wheel removal parameter
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Verified Width of cut given Metal removal rate
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Area of Work (3)
Created Area of Work exposed to Electrolysis given Supply Current
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Created Area of Work exposed to Electrolysis given Tool Feed Speed
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Created Area of Work exposed to Electrolysis given Volumetric Material Removal Rate
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Butt Welds (11)
Created Average Tensile Stress in Butt Weld
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Created Efficiency of Butt Welded Joint
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Created Length of Butt Weld given Average Tensile Stress in Weld
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Created Length of Butt Weld given Efficiency of Welded Joint
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Created Permissible Tensile Stress in Butt Weld
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Created Permissible Tensile Stress in Butt Weld given Efficiency of Welded joint
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Created Tensile Force on Butt Welded Plates given Thickness of Plate
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Created Tensile Force on Plates given Average Tensile Stress in Butt Weld
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Created Tensile Force on Plates given Efficiency of Butt Welded Joint
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Created Thickness of Plate given Efficiency of Butt Welded Joint
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Created Throat of Butt Weld given Average Tensile Stress
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1 More Butt Welds Calculators
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Chip Break distance (2)
Verified Chip breaker distance given Chip breaker wedge angle
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Verified Chip breaker height given Chip breaker wedge angle
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2 More Chip Break distance Calculators
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Chip control (2)
Verified Chip Thickness when material constant is unity
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Verified Constant for length of chip tool contact
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2 More Chip control Calculators
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Chip Thickness (3)
Created Maximum Chip Thickness in Vertical Milling
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Created Maximum Chip Thickness obtained in Slab Milling using Depth of Cut
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Created Maximum Chip Thickness obtained in Slab Milling using Tool Engagement Angle
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Collar Friction (1)
Created Collar Friction Torque for Screw according to Uniform Wear Theory
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5 More Collar Friction Calculators
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Cost (7)
Created Cost of Grinding given Estimated Tool Costs
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Created Cost of Holder given Tool Costs for Disposable-Insert Tool
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Created Cost of Insert given Tool Costs for Disposable-Insert Tool
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Created Cost of Re-grindable Tool given Estimated Tool Costs
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Created Estimated Tool Costs for Disposable-Insert Tool
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Created Estimated Tool Costs for Re-grindable Tool
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Created Initial Cost of Machine given Depreciation Rate
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Cost (3)
Created Cost of 1 Tool given Machining Cost for Maximum Power
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Created Machining Cost per component for Maximum Power when Cutting Speed is limited by Taylor's Exponent
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Created Machining Cost per component under Maximum Power Condition
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2 More Cost Calculators
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Current Efficiency (3)
Created Current Efficiency given Gap between Tool and Work Surface
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Created Current Efficiency given Tool Feed Speed
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Created Current Efficiency given Volumetric Material Removal Rate
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Current Supplied (4)
Created Current Supplied for Electrolysis
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Created Current Supplied for Electrolysis given Specific Resistivity of Electrolyte
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Created Current Supplied given Tool Feed Speed
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Created Current Supplied given Volumetric Material Removal Rate
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Cutting fluid and Surface Roughness (10)
Verified Area of contact given Frictional Force
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Verified Corner Radius given Roughness value
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Verified Diameter of Cutter given Roughness Value
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Verified Feed given Roughness Value and corner radius
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Verified Feed speed given Roughness value
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Verified Frictional Force required to continuously shear junction between surfaces
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Verified Proportion of Area in which metallic contact occurs given Frictional Force
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Verified Rotational Frequency of Cutter given Roughness Value
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Verified Shear Strength of Softer Lubricant layer given Frictional force
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Verified Shear Strength of Softer Metal given Frictional force
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4 More Cutting fluid and Surface Roughness Calculators
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Cutting Velocity (7)
Created Cutting Speed for Constant-Cutting-Speed Operation
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Created Cutting Velocity given Rate of Increase of Wear-Land Width
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Created Instantaneous Cutting Speed
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Created Instantaneous Cutting Speed given Feed
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Created Reference Cutting Speed given Cutting Speed for Constant-Cutting-Speed Operation
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Created Reference Cutting Velocity given Optimum Spindle Speed
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Created Reference Cutting Velocity given Rate of Increase of Wear-Land Width
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Cutting Velocity (5)
Created Cutting Speed of Free-Cutting Steel given Cutting Velocity of Tool and Machinability Index
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Created Cutting Velocity given Tool Lives and Cutting Velocity for Reference Machining Condition
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Created Cutting Velocity using Machinability Index
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Created Cutting Velocity using Taylor's Tool Life and Intercept
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Created Reference Cutting Velocity given Tool Lives, Cutting Velocity under Machining Condition
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Cutting Velocity for Minimum Production Cost (10)
Created Cost of One Tool for Minimum Production Cost given cutting speed
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Created Cost of One Tool given Cutting Velocity
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Created Cost to change One Tool given Cutting Velocity
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Created Cutting Velocity for Minimum Production Cost
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Created Cutting Velocity for Minimum Production Cost given Tool Changing Cost
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Created Machining and Operating Rate given Tool Changing Cost
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Created Machining and Operating Rate using Minimum Production Cost
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Created Reference Cutting Velocity given Cutting Velocity
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Created Reference Tool Life given Cutting Velocity
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Created Tool Changing Time for each Tool given Cutting Velocity
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Cylindrical Grinding cycle (16)
Verified Depth of dress from Lindsay semiempirical analysis
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Verified Equivalent wheel diameter
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Verified Equivalent wheel diameter from Lindsay's semiempirical analysis
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Verified Grain diameter from Lindsay's semiempirical analysis
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Verified Grain Diameter of grinding wheel
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Verified Grain size given grain Diameter
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Verified Number of workpiece revolution
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Verified Number of workpiece revolutions given Time taken for spark out operation
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Verified Percentage Volume of Bond material from Lindsay's semiempirical analysis
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Verified Percentage Volume of Bond material in wheel of grinding
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Verified Proportion of Total Energy flowing into workpiece
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Verified Relative contact area of grains given Total Energy flowing into workpiece
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Verified Rockwell hardness number of work material from Lindsay semiempirical analysis
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Verified Rotational frequency of workpiece given Number of workpiece revolution
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Verified System stiffness given Number of workpiece revolution
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Verified Time taken for spark-out operation
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1 More Cylindrical Grinding cycle Calculators
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Design of Screw and Nut (14)
Created Axial Load on Screw given Transverse Shear Stress at Root of Nut
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Created Axial Load on Screw given Unit Bearing Pressure
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Created Bearing Area between Screw and Nut for One Thread
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Created Core Diameter of Screw given Direct Compressive Stress
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Created Core Diameter of Screw given Torsional Shear Stress
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Created Nominal Diameter of Screw given Transverse Shear Stress at Root of Nut
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Created Number of Threads in Engagement with Nut given Transverse Shear Stress
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Created Number of Threads in Engagement with Nut given Transverse Shear Stress at Root of Nut
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Created Number of Threads in Engagement with Nut given Unit Bearing Pressure
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Created Thread Thickness at Root of Nut given Transverse Shear Stress at Root of Nut
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Created Torsional Moment in Screw given Torsional Shear Stress
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Created Torsional Shear Stress of Screw
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Created Transverse Shear Stress at Root of Nut
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Created Unit Bearing Pressure for Thread
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8 More Design of Screw and Nut Calculators
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ECM (Electrochemical Machining) (15)
Created Density of Work given Tool Feed Speed
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Created Density of Work material given Gap between Tool and Work Surface
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Created Density of Work material given Volumetric Material Removal Rate
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Created Electrochemical Equivalent of Work given Tool Feed Speed
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Created Electrochemical Equivalent of Work given Volumetric Material Removal Rate
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Created Gap between Tool and Work Surface
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Created Gap between Tool and Work Surface given Supply Current
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Created Metal Removed by mechanical abrasion per unit time given Total Material Removal Rate
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Created Metal Removed electrolytically per unit time given Total Material Removal Rate
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Created Resistance owing to Electrolyte given Supply Current and Voltage
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Created Specific Resistivity of Electrolyte given Gap between Tool and Work Surface
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Created Specific Resistivity of Electrolyte given Supply Current
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Created Total Material Removal Rate in Electrolytic Grinding
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Created Volumetric Material Removal Rate
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Created Volumetric Material Removal Rate given Tool Feed Speed
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Economics Of Metal-Cutting Operation (22)
Created Average Production Time of Each Component
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Created Batch Size given Average Production Time
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Created Cost of Tool given Total Cost of Tools
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Created Load or Unload or Setup Time given Total Non-Productive Time
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Created Machining and Operating Rate given Total Machining and Operating Cost
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Created Machining Time for one Component using Total Machining Time
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Created Machining Time of Each Component given Average Production Time
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Created Non-Productive Time for Each Component given Average Production Time
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Created Size of Batch given Total Machining Time
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Created Size of Batch using Total Non-Productive Time
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Created Time for changing one Tool given Average Production Time
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Created Time for Changing one Tool given Total Tool Changing Time
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Created Total Cost of Tools Used
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Created Total Machining and Operating Cost
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Created Total Machining Time or Total Machine Time
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Created Total Non-Productive Cost
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Created Total Non-Productive Time
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Created Total Production Time
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Created Total Production Time given Time for Individual Operation and Batch Size
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Created Total Production Time given Total Machining and Operating Cost
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Created Total Tool Changing Time
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Created Total Tool-Changing Cost
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Estimation for Optimal Conditions (15)
Created Amortization given Depreciation Rate
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Created Average Cutting Edges per insert given Tool Changing Time
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Created Average Cutting Edges used per insert given Estimated Tool Costs
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Created Average Number of Regrinds Possible, given Estimated Tool Costs
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Created Cutting Edges used during Life of Holder given Estimated Tool Costs
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Created Depreciation Rate of Machine Tool
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Created Depreciation Rate of Machine Tool given Machining and Operating Rate
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Created Estimated Tool Changing Time for Disposable-Insert Tool
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Created Machine Overhead Percentage given Machining and Operating Rate
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Created Machining and Operating Rate
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Created Operator's Overhead Percentage given Machining and Operating Rate
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Created Operator's Wage Rate given Machining and Operating Rate
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Created Time to Index Insert given Tool Changing Time for Disposable-Insert Tool
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Created Time to Replace Insert given Tool Changing Time for Disposable-Insert Tool
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Created Working Hours per year given Depreciation Rate
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Facing Operation (19)
Created Cost of 1 Tool given Optimum Spindle Speed
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Created Feed given Instantaneous Cutting Speed
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Created Feed given Instantaneous Radius for Cut
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Created Feed of Workpiece given Machining Time for Facing
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Created Inner Radius of Workpiece given Machining Time for Facing
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Created Inside Radius given Workpiece Radius Ratio
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Created Machining and Operating Rate given Optimum Spindle Speed
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Created Machining Time given Maximum Wear-Land Width
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Created Machining Time given Rate of Increase of Wear-Land Width
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Created Optimum Spindle Speed
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Created Optimum Spindle Speed given Tool Changing Cost
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Created Taylor's Exponent given Cutting Speed for Constant-Cutting-Speed Operation
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Created Time for Facing
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Created Time for Facing given Instantaneous Cutting Speed
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Created Time Proportion of Edge Engagement given Cutting Speed for Constant-Cutting-Speed Operation
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Created Tool Changing Cost given Optimum Spindle Speed
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Created Tool Changing Time given Optimum Spindle Speed
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Created Total Machining Time for single Facing Operation
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Created Workpiece Radius Ratio
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Feed (4)
Created Feed in Slab Milling given Feed Speed
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Created Feed Rate for Turning Operation given Machining Time
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Created Feed Speed in Vertical Milling given Maximum Chip Thickness
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Created Feed Speed of Workpiece in Slab Milling
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Grinding (23)
Verified Angle made by length of chip
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Verified Angle made by length of chip given Infeed
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Verified Average length of chip
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Verified Average length of Chip given Average volume of each Chip
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Verified Average length of chip given Infeed
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Verified Average Volume of each Chip
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Verified Average Volume of each chip given metal removal rate in grinding
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Verified Grain-aspect Ratio
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Verified Grain-aspect Ratio given Constant for grinding wheel
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Verified Infeed for given Angle made by length of chip
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Verified Infeed given constant for grinding wheel
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Verified Infeed given Diameter of wheel and average length of chip
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Verified Infeed given Metal removal rate during Grinding
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Verified Maximum Width of Chip given Average volume of each Chip
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Verified Maximum Width of Chip given Max undeformed Chip thickness
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Verified Metal removal rate during Grinding
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Verified Metal removal rate given number of chip produced and volume of each chip
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Verified Number of active Grains per unit area given Constant for grinding wheel
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Verified Number of active Grains per unit area on wheel surface
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Verified Number of chip produce per time given metal removal rate
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Verified Number of chip produced per unit time in Grinding
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Verified Width of Grinding path given Metal removal rate
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Verified Width of grinding path given Number of chips produced per time
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Grinding Operation (10)
Created Machining Time for Cylindrical and Internal Grinder
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Created Machining Time for Horizontal and Vertical Spindle Surface-Grinder
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Created Machining Time for Plunge Grinder
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Created Material Removal Rate in Cylindrical and Internal Grinder
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Created Material Removal Rate in Horizontal and Vertical Spindle Surface-Grinder
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Created Material Removal Rate in Plunge-Grinder
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Created Spark Out time for Cylindrical and Internal Grinder using Machining Time
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Created Spark Out time for Horizontal and Vertical Spindle Surface Grinder given Machining Time
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Created Traverse Speed for Cylindrical and Internal Grinder given MRR
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Created Traverse Speed in Horizontal and Vertical Spindle Surface-Grinder given MRR
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Grinding Wheel (6)
Verified Constant for grinding wheel
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Verified Constant for grinding wheel given maximum undeformed chip thickness
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Verified Diameter of wheel for given Average Length of chip
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Verified Diameter of wheel for given infeed
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Verified Diameter of wheel given Average length of chip and Infeed
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Verified Diameter of wheel given Constant for grinding wheel
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Instantaneous Radius (3)
Created Instantaneous Radius for Cut
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Created Instantaneous Radius for Cut given Cutting Speed
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Created Instantaneous Radius for Cut given Rate of Increase of Wear-Land
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Kernel of Hollow Circular Section (6)
Verified Bending stress for hollow circular section
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Verified Bending Stress for Hollow Circular section given Diameter
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Verified Bending Stress for Hollow Circular Section using Eccentric Load and Eccentricity
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Verified Moment due to Eccentric Load Bending Stress on Hollow Circular Section
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Verified Section Modulus given Bending Stress on Hollow Circular Section
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Verified Section modulus hollow circular section
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7 More Kernel of Hollow Circular Section Calculators
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Length of Chip (1)
Verified Length of chip tool contact given Chip breaker wedge angle
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2 More Length of Chip Calculators
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Machine tools and machine operations (16)
Created Cross sectional Area of Uncut Chip
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Created Cutting Speed Angle using Resultant Cutting Speed
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Created Depth of Cut in Slab Milling using Tool Engagement Angle
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Created Diameter of Drill Bit given Length of Approach
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Created Drill Point Angle for given Length of Approach
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Created Energy per Unit Material Removal given Efficiency of Motor Drive System
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Created Length of Approach for Drilling Operation
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Created Length of Cut using Machining Time
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Created Machining Power using Overall Efficiency
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Created Mean Cutting Speed
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Created Minimum Length of Approach required in Face Milling
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Created Minimum Length of Approach required in Slab Milling
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Created Overall Efficiency of Machine Tool and Motor Drive System
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Created Power required for Machining Operation
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Created Resultant Cutting Velocity
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Created Tool Engagement Angle in Slab Milling using Depth of Cut
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Machining (3)
Created Machining and Operating Rate given Machining Cost for Maximum Power
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Created Machining Rate given Machining Cost for Maximum Power with limited Cutting Speed
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Created Time Proportion of Cutting Edge Engagement for Maximum Power delivery given Machining Cost
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21 More Machining Calculators
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Machining And Operating Cost (6)
Created Machining and Operating Cost of Each Product using Average Production Cost
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Created Machining and Operating Cost of Each Product using Individual Cost
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Created Machining and Operating Cost of Each Product using Total Production Cost
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Created Total Machining and Operating Costs given Individual Costs
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Created Total Machining and Operating Costs given Total Production Cost
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Created Total Machining and Operating Costs using Average Production Cost
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Machining Time (4)
Created Machining Time for Drilling Operation
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Created Machining Time for Milling Operation
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Created Machining Time for Shaping Operation
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Created Machining Time for Turning Operation
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4 More Machining Time Calculators
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Machining Time (5)
Created Machining Time for Each Product given Average Production Cost
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Created Machining Time for Each Product given Individual Costs
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Created Machining Time for Each Product using Total Production Cost
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Created Total Machining Time using Average Production Cost
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Created Total Machining Time using Total Production Cost
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Machining Time (2)
Created Machining Time for Maximum Power given Machining Cost
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Created Machining Time for optimum speed for Maximum Power given Machining Cost
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4 More Machining Time Calculators
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Manufacturing Systems and Automations (5)
Verified Distance moved by tool corner given tool life and machining time
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Verified Machining time given tool life and distance moved by tool corner
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Verified Reference cutting speed given tool life and distance moved by tool corner
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Verified Reference tool life given distance moved by tool corner
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Verified Tool life given distance moved by tool corner
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Material Removal Rate (6)
Created Average Material Removal Rate given Depth of Cut
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Created Average Material Removal Rate given Depth of Cut for Boring Operation
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Created Average Material Removal Rate using Uncut Chip Cross-Section Area
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Created Material Removal Rate during Drilling Operation
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Created Material Removal Rate during Drilling Operation using Feed
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Created Material Removal Rate during Drilling Operation when Enlarging Existing Hole
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3 More Material Removal Rate Calculators
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Maximum Efficiency (10)
Created Amount Received by Machine Shop given Profit per Component
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Created Amount Received by Machine Shop given Profit Rate
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Created Cost of Production given Profit per Component
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Created Cost of Production given Profit Rate
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Created Production Time per component given Profit
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Created Production Time per component given Profit Rate
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Created Profit per component produced
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Created Profit per Component produced given Profit Rate
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Created Rate of Profit
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Created Rate of Profit given Profit Per component
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Middle Quarter Rule For Circular Section (3)
Verified Diameter of Circular Section given Direct Stress
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Verified Direct stress for circular section
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Verified Eccentric load for given direct stress for circular section
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15 More Middle Quarter Rule For Circular Section Calculators
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Milling (6)
Created Diameter of Tool given Proportion of Edge Engagement for Face Milling
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Created Diameter of Tool given Proportion of Edge Engagement for Slab and Side Milling
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Created Proportion of Cutting Edge Engagement for Face Milling
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Created Proportion of Cutting Edge Engagement for Slab and Side Milling
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Created Work Engagement given Proportion of Edge Engagement for Face Milling
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Created Work Engagement given Proportion of Edge Engagement for Slab and Side Milling
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Minimum Production Cost (7)
Created Constant for Machining Operation given Minimum Production Cost
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Created Machining and Operating Rate given Minimum Production Cost
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Created Minimum Production Cost per Component
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Created Non-Productive Time per component given Minimum Production Cost
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Created Reference Cutting Velocity given Minimum Production Cost
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Created Reference Tool Life given Minimum Production Cost
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Created Tool Life for minimum cost given Minimum Production Cost
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Minimum Production Time Criteria (12)
Created Cost to change One Tool given min production time
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Created Cutting Velocity for Minimum Production Time
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Created Cutting Velocity for Minimum Production Time given Tool Changing Cost
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Created Machining and Operating Rate given Tool Changing Cost and Cutting Velocity
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Created Machining and Operating Rate given Tool Changing Cost and Tool Life
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Created Reference Cutting Velocity using Minimum Production Time
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Created Reference Tool Life given Min Production time
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Created Taylor's Tool Life Exponent given Tool Life
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Created Tool Changing Time for each Tool given min production time
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Created Tool Changing Time for each Tool given Tool Life
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Created Tool Life for Minimum Production Time
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Created Tool Life for Minimum Production Time given Tool Changing Cost
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Modified Taylor's Tool Life Equation (8)
Created Cutting Velocity for given Taylor's Tool Life
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Created Depth of Cut for given Taylor's Tool Life, Cutting Velocity and Intercept
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Created Feed given Taylor's Tool Life, Cutting Velocity, and Intercept
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Created Taylor's Exponent of Depth of Cut
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Created Taylor's Exponent of Feed
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Created Taylor's Intercept given Cutting Velocity and Tool Life
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Created Taylor's Tool Life Exponent using Cutting Velocity and Taylor's Tool Life
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Created Taylor's Tool Life given Cutting Velocity and Taylor's Intercept
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Nomenclature of cutting Tools (3)
Verified Angle set from axis B
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Verified Required Tool Back Rake Angle given Angle Set from Axis B
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Verified Tool Side Rake Angle using Angle Set from Axis B
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Non Productive Cost (6)
Created Non-Productive Cost of Component given Average Production Cost
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Created Non-Productive Cost of Each Component given Total Production Cost
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Created Non-Productive Cost of One Component given Individual Costs
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Created Total Non-Productive Cost given Average Production Cost
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Created Total Non-Productive Cost given Individual Costs
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Created Total Non-Productive Cost given Total Production Cost
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Number of Tools (3)
Created Number of Tools used given Average Production Time
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Created Number of Tools used given Total Cost of Tools
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Created Number of Tools Used given Total Tool Changing Time
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Outer Radius of Workpiece (5)
Created Outer Radius of Workpiece given Machining Time for Facing
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Created Outside Radius given Workpiece Radius Ratio
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Created Outside Radius of Workpiece given Instantaneous Cutting Speed
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Created Outside Radius of Workpiece given Instantaneous Radius for Cut
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Created Outside Radius of Workpiece given Optimum Spindle Speed
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Parallel Fillet Welds (6)
Created Leg of Parallel Fillet Weld given Shear Stress
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Created Leg of Parallel Fillet Weld given Throat of Weld
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Created Length of Parallel Fillet Weld given Shear Stress
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Created Shear Stress Parallel Fillet Weld
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Created Tensile Force on Parallel Fillet Weld Plate given Shear Stress
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Created Throat of Parallel Fillet Weld
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9 More Parallel Fillet Welds Calculators
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Power Screws (4)
Created External Torque required to raise Load given Efficiency
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Created Lead of Screw given Overall Efficiency
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Created Load on Screw given Overall Efficiency
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Created Overall Efficiency of Power Screw
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12 More Power Screws Calculators
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Production Cost (6)
Created Average Production Cost of each component
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Created Average Production Cost of each Component given Total Production Cost
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Created Average Production Cost of Each Component using Individual Costs
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Created Total Production Cost
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Created Total Production Cost for given Batch Size
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Created Total Production Cost given Individual Costs
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Production Cost per Component (10)
Created Constant for Machining Operation given Production Cost per Component
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Created Cost of each Tool given Production Cost per Component
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Created Machining and Operating Rate given Production Cost per Component
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Created Nonproductive Time given Production Cost per Component
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Created Production Cost per Component for Constant-Speed-Rough-Machining given Tool Changing Cost
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Created Production Cost per Component in Constant-Cutting-Speed, Rough-Machining Operation
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Created Reference Cutting Speed given Production Cost per Component
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Created Reference Tool Life given Production Cost per Component
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Created Taylor's Tool Life Constant given Production Cost per Component
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Created Tool Changing Time for each Tool given Production Cost per Component
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Radius of Chip (3)
Verified Radius of Chip curvature
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Verified Radius of Chip curvature when material constant is unity
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Verified Radius of Chip given Chip breaker wedge angle
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Rate of Heat Generation (5)
Verified Rate of Heat Generated in Primary Shear Zone given Temperature Rise
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Verified Rate of Heat generated in Secondary Shear Zone given Average Temperature
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Verified Rate of Heat Generation in Primary Deformation using Rate of Energy Consumption
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Verified Rate of Heat Generation in Secondary Deformation Zone
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Verified Total Rate of Heat Generation
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Rate of Increase of Wear Land (3)
Created Rate of Increase of Wear-Land given Feed and Time for Facing
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Created Rate of Increase of Wear-Land given Rotational Frequency of Spindle
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Created Rate of Increase of Wear-Land Width
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Reference Tool Life (3)
Created Reference Tool Life given Cutting Speed for Constant-Cutting-Speed Operation
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Created Reference Tool Life given Optimum Spindle Speed
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Created Reference Tool Life given Rate of Increase of Wear-Land Width
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Removal Parameters (5)
Verified Wheel removal parameter given Grinding ratio
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Verified Wheel removal parameter given wheel removal rate
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Verified Workpiece removal parameter given feed and machine infeed speed
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Verified Workpiece removal parameter given Grinding ratio
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Verified Workpiece removal parameter given metal removal rate
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1 More Removal Parameters Calculators
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Rotational Frequency (4)
Created Rotational Frequency of Spindle given Cutting Speed
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Created Rotational Frequency of Spindle given Instantaneous Radius for Cut
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Created Rotational Frequency of Spindle given Machining Time for Facing
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Created Rotational Frequency of Spindle given Rate of Increase of Wear-Land
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Roughness Value (1)
Verified Roughness value given feed speed
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2 More Roughness Value Calculators
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Shaft Design on Strength Basis (1)
Verified Maximum Shear Stress in Shaft- Bending and Torsion
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15 More Shaft Design on Strength Basis Calculators
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Supply Voltage (3)
Created Supply Voltage for Electrolysis
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Created Supply Voltage given Gap between Tool and Work Surface
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Created Supply Voltage given Specific Resistivity of Electrolyte
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Surface Speed (4)
Verified Surface speed of Wheel given constant for grinding wheel
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Verified Surface speed of wheel given number of chip produce per time
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Verified Surface speed of workpiece given constant for grinding wheel
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Verified Surface Speed of workpiece given Metal removal rate during grinding
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Temperature Rise (4)
Verified Average Temperature rise of chip from Secondary Deformation
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Verified Average Temperature Rise of Material under Primary Deformation Zone
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Verified Temperature rise of material in primary deformation zone
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Verified Temperature Rise of Material in Secondary Deformation Zone
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2 More Temperature Rise Calculators
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Temperatures in Metal Cutting (15)
Verified Cutting Speed given Average Temperature Rise of Material under Primary Shear Zone
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Verified Cutting Speed using Average Temperature Rise of Chip from Secondary Deformation
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Verified Density of Material using Average Temperature rise of Chip from Secondary Deformation
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Verified Density of Material using Average Temperature Rise of material under Primary Shear Zone
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Verified Depth of Cut given Average Temperature Rise of Material under Primary Shear Zone
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Verified Depth of Cut using Average Temperature Rise of Chip from Secondary Deformation
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Verified Initial Workpiece Temperature using Maximum Temperature in Secondary Deformation Zone
Go
Verified Rate of Energy Consumption using Rate of Heat Generation during Machining
Go
Verified Rate of Heat Conduction into Tool given Total Rate of Heat Generation
Go
Verified Rate of Heat Conduction into Workpiece given Total Rate of Heat Generation
Go
Verified Rate of Heat Transportation by Chip given Total Rate of Heat Generation
Go
Verified Specific Heat given Average Temperature Rise of Material under Primary Shear Zone
Go
Verified Specific Heat using Average Temperature Rise of Chip from Secondary Deformation
Go
Verified Undeformed Chip Thickness given Average Temperature Rise of Material under Primary Shear Zone
Go
Verified Un-deformed Chip Thickness using Average Temperature Rise of Chip from Secondary Deformation
Go
3 More Temperatures in Metal Cutting Calculators
Go
Thrust Force (4)
Verified Threshold thrust force given wheel removal parameter
Go
Verified Threshold thrust force given workpiece removal parameter
Go
Verified Thrust force given wheel removal parameter
Go
Verified Thrust force given workpiece removal parameter
Go
Tool and Machining Costs (21)
Created Cost of 1 Tool given Machining Cost
Go
Created Cost of 1 Tool given Tool Life for Minimum Machining Cost
Go
Created Machining and Operating Rate for Minimum Machining Cost
Go
Created Machining and Operating Rate given Machining Cost
Go
Created Machining and Operating Rate given Tool Life for Minimum Machining Cost
Go
Created Machining Cost given Tool Changing Cost per Tool
Go
Created Machining Cost per component
Go
Created Machining Time per component for Minimum Machining Cost
Go
Created Machining Time per component given Machining Cost
Go
Created Minimum Cost of Machining per component
Go
Created Taylor's Exponent for Minimum Machining Cost given Tool Life
Go
Created Taylor's Exponent for Minimum Machining Cost per component
Go
Created Time Proportion of Cutting Edge Engagement given Machining Cost
Go
Created Time Proportion of Cutting Edge Engagement given Tool Life for Minimum Machining Cost
Go
Created Tool Changing Cost per Tool given Machining Cost
Go
Created Tool Changing Cost per Tool given Tool Life for Minimum Machining Cost
Go
Created Tool Changing Time for 1 Tool given Machining Cost
Go
Created Tool Changing Time for 1 Tool given Tool Life for Minimum Machining Cost
Go
Created Tool Life of One Tool for Minimum Machining Cost
Go
Created Tool Life of One Tool for Minimum Machining Cost given Tool Changing Cost per Tool
Go
Created Tool Life of One Tool given Machining Cost
Go
3 More Tool and Machining Costs Calculators
Go
Tool Changing Cost (8)
Created Tool Changing Cost of Each Product using Average Production Cost
Go
Created Tool Changing Cost of each Tool given Individual Costs
Go
Created Tool Changing Cost of Each Tool using Total Production Cost
Go
Created Tool Changing Time for Each Tool given Individual Costs
Go
Created Tool Changing Time for Each Tool given Total Production Cost
Go
Created Total Tool Changing Cost given Individual Costs
Go
Created Total Tool Changing Cost using Average Production Cost
Go
Created Total Tool Changing Cost using Total Production Cost
Go
Tool Changing Time (3)
Created Tool Changing Time for Each Tool given Average Production Cost
Go
Created Total Tool Changing Time given Total Production Cost
Go
Created Total Tool Changing Time using Average Production Cost
Go
Tool Equations (2)
Created Tool Changing Time for 1 Tool given Machining Cost for Maximum Power
Go
Created Tool Life for Maximum Power delivery given Machining Cost for Maximum Power
Go
3 More Tool Equations Calculators
Go
Tool Feed Speed (3)
Created Tool Feed Speed given Current Supplied
Go
Created Tool Feed Speed given Gap between Tool and Work Surface
Go
Created Tool Feed Speed given Volumetric Material Removal Rate
Go
Tool Life (4)
Created Tool Life Exponent given Rate of Increase of Wear-Land Width
Go
Created Tool Life given Cutting Speed for Constant-Cutting-Speed Operation
Go
Created Tool Life given Maximum Wear-Land Width
Go
Created Tool Life given Rate of Increase of Wear-Land Width
Go
Tool Life and Metal Removal (5)
Created Cutting Velocity for given Tool Life and Volume of Metal Removed
Go
Created Depth of Cut given Cutting Velocity, Tool Life, and Volume of Metal Removed
Go
Created Feed given Cutting Velocity, Tool Life, and Volume of Metal Removed
Go
Created Tool Life given Cutting Velocity and Volume of Metal Removed
Go
Created Volume of Metal removed given Cutting Velocity and Tool Life
Go
Tool Life and Production Batch (18)
Created Batch Size given Machining Time and Conditions
Go
Created Batch Size using Tool Life and Machining Time
Go
Created Constant for given Cylindrical Turning
Go
Created Constant for Machining Operation of one product given Machining Condition
Go
Created Cutting Velocity given Production Batch and Machining Conditions
Go
Created Cutting Velocity of one product given Constant for Machining Operation
Go
Created Diameter of workpiece given Constant for Cylindrical Turning
Go
Created Feed given Constant for Cylindrical Turning
Go
Created Machining Time of one product given Constant for Machining Operation
Go
Created Machining Time of one product given Production Batch and Machining Conditions
Go
Created Machining Time of One Product using Tool Life
Go
Created Number of Tools Used given Machining Time and Conditions
Go
Created Number of Tools Used given Tool Life
Go
Created Reference Cutting Velocity given Production Batch and Machining Conditions
Go
Created Reference Tool Life given Production Batch and Machining Conditions
Go
Created Taylor's Tool Life Exponent given Production Batch and Machining Conditions
Go
Created Tool Life given Batch Size and Number of Tools
Go
Created Turning Length given Constant for Cylindrical Turning
Go
Tool Life And Tool Wear (10)
Created Crater Depth for Sintered-Carbide Tools
Go
Created Feed for Sintered-Carbide Tools using Crater Depth
Go
Created Machinability Index
Go
Created Reference Tool Life given Cutting Velocities, Tool Life under Machining Condition
Go
Created Taylor's Exponent given Cutting Velocities, Tool Lives for two Machining Conditions
Go
Created Taylor's Exponent if ratios of Cutting Velocities, Tool Lives are given in two machining conditions
Go
Created Taylor's Intercept given Cutting Velocity and Taylor's Tool Life
Go
Created Taylor's Tool Life Exponent given Cutting Velocity and Tool Life
Go
Created Taylor's Tool Life given Cutting Velocity and Intercept
Go
Created Tool Life given Cutting Velocities and Tool Life for Reference Machining Condition
Go
1 More Tool Life And Tool Wear Calculators
Go
Tool Life for Minimum Production Cost (10)
Created Cost of One Tool for Minimum Production Cost given Tool Changing Cost
Go
Created Cost of One Tool given Tool Life
Go
Created Cost to change One Tool given Tool Life
Go
Created Machining and Operating Rate if cost of changing tool is also considered
Go
Created Machining and Operating Rate using Min Production Cost and Min Production time
Go
Created Tool Changing Time for each Tool given Tool Life and tool cost
Go
Created Tool Life for Minimum Production Cost
Go
Created Tool Life for Minimum Production Cost given Tool Changing Cost
Go
Created Tool Life for Minimum Production Cost when Carbide Tool is used
Go
Created Tool Life for Minimum Production Cost when High-Speed Steel Tool is used
Go
Total Cost of Tools Used (3)
Created Total Cost of Tools given Total Production Cost
Go
Created Total Cost of Tools used given Average Production Cost
Go
Created Total Cost of Tools Used given Individual Costs
Go
Un-deformed Chip Thickness (3)
Verified Maximum undeformed chip thickness
Go
Verified Maximum undeformed chip thickness given average volume of each chip
Go
Verified Maximum undeformed chip thickness given constant for grinding wheel
Go
Value of Production (13)
Created Batch Size given Average Production Cost
Go
Created Batch Size given Total Production Cost
Go
Created Machining and Operating Rate given Average Production Cost of each Component
Go
Created Machining and Operating Rate given Total Production Cost
Go
Created Machining and Operating Rate using Individual Cost
Go
Created Number of Tools used given Average Production Cost
Go
Created Number of Tools used given Individual Costs
Go
Created Number of Tools used given Total Production Cost
Go
Created Setup Time for Each Product given Average Production Cost
Go
Created Setup Time for Each Product given Individual Costs
Go
Created Setup Time for Each Product given Total Production Cost
Go
Created Total Non-Productive Time using Average Production Cost
Go
Created Total Non-Productive Time using Total Production Cost
Go
Wear Land (4)
Created Increase in Wear-Land Width given Rate of Increase of Wear-Land Width
Go
Created Increase in Wear-Land Width per Component
Go
Created Maximum Wear-Land Width
Go
Created Maximum Wear-Land Width given Rate of Increase of Wear-Land Width
Go
3 More Wear Land Calculators
Go
Wheel (5)
Verified Wheel diameter given equivalent wheel diameter
Go
Verified Wheel hardness Number given Percentage Volume of Bond material in wheel
Go
Verified Wheel removal parameter from Lindsay's semiempirical analysis
Go
Verified Wheel structure Number given Percentage Volume of Bond material in wheel
Go
Verified Wheel surface speed from Lindsay's semiempirical analysis
Go
Workpiece (3)
Verified Workpiece diameter given equivalent wheel diameter
Go
Verified Workpiece removal parameter given number of workpiece revolution
Go
Verified Workpiece surface speed from Lindsay's semiempirical analysis
Go
1 More Workpiece Calculators
Go
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