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Calculators Created by Kumar Siddhant
Kumar Siddhant
Indian Institute of Information Technology, Design and Manufacturing
(IIITDM)
,
Jabalpur
412
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 412 and verified 145 calculators across 80 different categories till date.
Accuracy and Surface Finish
(10)
Created
Corner Radius of Tool given Machining Time
Go
Created
Feed to Workpiece given Machining Time
Go
Created
Length of Workpiece given Machining Time
Go
Created
Length of Workpiece given Roughness
Go
Created
Machining Time for Workpiece given Machining Conditions
Go
Created
Machining Time for Workpiece given Roughness
Go
Created
Rotational Frequency of Workpiece given Machining Time
Go
Created
Rotational Frequency of Workpiece given Roughness
Go
Verified
Roughness value given corner radius
Go
Created
Surface Roughness of Workpiece given Machining Time
Go
2 More Accuracy and Surface Finish Calculators
Go
Analysis of Grinding Process
(14)
Verified
Diameter of the workpiece in terms of Metal removal rate
Go
Verified
Diameter of wheel in terms of feed and machine infeed speed
Go
Verified
Diameter of workpiece in terms of feed and machine infeed speed
Go
Verified
Feed speed in Grinding
Go
Verified
Feed speed in terms of workpiece and wheel removal parameter
Go
Verified
Feed speed when the Metal removal rate is given
Go
Verified
Grinding ratio
Go
Verified
Machine infeed speed in terms of Feed speed in Grinding
Go
Verified
Machine infeed speed in terms of workpiece and wheel removal parameter
Go
Verified
Metal removal rate in terms of the Diameter of the workpiece
Go
Verified
Metal removal rate in terms of workpiece removal parameter
Go
Verified
The diameter of wheel in terms of Feed speed in Grinding
Go
Verified
Wheel removal rate in terms of Wheel removal parameter
Go
Verified
Width of cut in terms of Metal removal rate
Go
Area of Work
(3)
Created
Area of Work exposed to Electrolysis in terms of Supply Current
Go
Created
Area of Work exposed to Electrolysis in terms of Tool Feed Speed
Go
Created
Area of Work exposed to Electrolysis in terms of Volumetric Material Removal Rate
Go
Butt Welds
(11)
Created
Average Tensile Stress in the Weld
Go
Created
Efficiency of Welded Joint
Go
Created
Length of Weld given Average Tensile Stress in Weld
Go
Created
Length of Weld given Efficiency of Welded Joint
Go
Created
Permissible Tensile Stress for the Weld
Go
Created
Permissible Tensile Stress for Weld given Efficiency of Welded joint
Go
Created
Tensile Force on Plates given Average Tensile Stress in Weld
Go
Created
Tensile Force on Plates given Efficiency of Welded Joint
Go
Created
Tensile Force on the Plates in Terms of Thickness of the Plate
Go
Created
Thickness of Plate given Efficiency of Welded Joint
Go
Created
Throat of Butt Weld given Average Tensile Stress
Go
1 More Butt Welds Calculators
Go
Chip Break distance
(2)
Verified
Chip breaker distance given Chip breaker wedge angle
Go
Verified
Chip breaker height given Chip breaker wedge angle
Go
2 More Chip Break distance Calculators
Go
Chip control
(2)
Verified
Chip Thickness when material constant is unity
Go
Verified
Constant for length of chip tool contact
Go
2 More Chip control Calculators
Go
Chip Thickness
(3)
Created
Maximum Chip Thickness in Vertical Milling
Go
Created
Maximum Chip Thickness obtained in Slab Milling in terms of Depth of Cut
Go
Created
Maximum Chip Thickness obtained in Slab Milling in terms of Tool Engagement Angle
Go
Collar Friction
(1)
Created
Collar Friction Torque for Screw according to Uniform Wear Theory
Go
5 More Collar Friction Calculators
Go
Cost
(7)
Created
Cost of Grinding in terms of Estimated Tool Costs
Go
Created
Cost of Holder in terms of Tool Costs for Disposable-Insert Tool
Go
Created
Cost of Insert in terms of Tool Costs for Disposable-Insert Tool
Go
Created
Cost of Re-grindable Tool in terms of Estimated Tool Costs
Go
Created
Estimated Tool Costs for Disposable-Insert Tool
Go
Created
Estimated Tool Costs for Re-grindable Tool
Go
Created
Initial Cost of Machine in terms of Depreciation Rate
Go
Cost
(3)
Created
Cost of 1 Tool given Machining Cost for Maximum Power
Go
Created
Machining Cost per component for Maximum Power when Cutting Speed is limited by Taylor's Exponent
Go
Created
Machining Cost per component under Maximum Power Condition
Go
2 More Cost Calculators
Go
Costs in Production
(13)
Created
Batch Size when Average Production Cost is given
Go
Created
Batch Size when Total Production Cost is given
Go
Created
Machining and Operating Rate in terms of Average Production Cost of each component
Go
Created
Machining and Operating Rate in terms of Individual Cost
Go
Created
Machining and Operating Rate in terms of Total Production Cost
Go
Created
Number of Tools used given the Average Production Cost
Go
Created
Number of Tools used given the Individual Costs
Go
Created
Number of Tools used given Total Production Cost
Go
Created
Setup Time for each product in terms of Average Production Cost
Go
Created
Setup Time for each product in terms of Individual Costs
Go
Created
Setup Time for each product in terms of Total Production Cost
Go
Created
Total Non-Productive Time in terms of Average Production Cost
Go
Created
Total Non-Productive Time in terms of Total Production Cost
Go
Current Efficiency
(3)
Created
Current Efficiency in terms of Gap between Tool and Work Surface
Go
Created
Current Efficiency in terms of Tool Feed Speed
Go
Created
Current Efficiency in terms of Volumetric Material Removal Rate
Go
Current Supplied
(4)
Created
Current Supplied for Electrolysis
Go
Created
Current Supplied for Electrolysis in terms of Specific Resistivity of Electrolyte
Go
Created
Current Supplied in terms of Tool Feed Speed
Go
Created
Current Supplied in terms of Volumetric Material Removal Rate
Go
Cutting fluid and Surface Roughness
(10)
Verified
Area of contact given Frictional Force
Go
Verified
Corner Radius given Roughness value
Go
Verified
Diameter of Cutter given Roughness Value
Go
Verified
Feed given Roughness Value and corner radius
Go
Verified
Feed speed given Roughness value
Go
Verified
Frictional Force required to continuously shear junction between surfaces
Go
Verified
Proportion of Area in which metallic contact occurs given Frictional Force
Go
Verified
Rotational Frequency of Cutter given Roughness Value
Go
Verified
Shear Strength of Softer Lubricant layer given Frictional force
Go
Verified
Shear Strength of Softer Metal given Frictional force
Go
4 More Cutting fluid and Surface Roughness Calculators
Go
Cutting Velocity
(5)
Created
Cutting Speed of Free-Cutting Steel in terms of Cutting Velocity of tool and Machinability Index
Go
Created
Cutting Velocity in terms of Machinability Index
Go
Created
Cutting Velocity in terms of Taylor's Tool Life and Intercept
Go
Created
Cutting Velocity in terms of Tool Lives and Cutting Velocity for Reference Machining Condition
Go
Created
Reference Cutting Velocity in terms of Tool Lives, Cutting Velocity under a Machining Condition
Go
Cutting Velocity
(7)
Created
Cutting Speed for Constant-Cutting-Speed Operation
Go
Created
Cutting Velocity in terms of Rate of Increase of Wear-Land Width
Go
Created
Instantaneous Cutting Speed
Go
Created
Instantaneous Cutting Speed in terms of Feed
Go
Created
Reference Cutting Speed in terms of Cutting Speed for Constant-Cutting-Speed Operation
Go
Created
Reference Cutting Velocity in terms of Optimum Spindle Speed
Go
Created
Reference Cutting Velocity in terms of Rate of Increase of Wear-Land Width
Go
Cutting Velocity for Minimum Production Cost
(10)
Created
Cost of One Tool for Minimum Production Cost in terms of cutting speed
Go
Created
Cost of One Tool in terms of Cutting Velocity
Go
Created
Cutting Velocity for Minimum Production Cost
Go
Created
Cutting Velocity for Minimum Production Cost in terms of Tool Changing Cost
Go
Created
Machining and Operating Rate in case of Minimum Production Cost
Go
Created
Machining and Operating Rate in terms of Tool Changing Cost
Go
Created
Reference Cutting Velocity in terms of Cutting Velocity
Go
Created
Reference Tool Life in terms of Cutting Velocity
Go
Created
The Cost to change One Tool in terms of Cutting Velocity
Go
Created
Tool Changing Time for each Tool in terms of Cutting Velocity
Go
Cylindrical Grinding cycle
(16)
Verified
Depth of dress from Lindsay semiempirical analysis
Go
Verified
Equivalent wheel diameter
Go
Verified
Equivalent wheel diameter from Lindsay's semiempirical analysis
Go
Verified
Grain diameter from Lindsay's semiempirical analysis
Go
Verified
Grain Diameter of the grinding wheel
Go
Verified
Grain size in terms of grain Diameter
Go
Verified
Number of workpiece revolution
Go
Verified
Number of workpiece revolutions in terms of Time taken for spark out operation
Go
Verified
Percentage Volume of Bond material from Lindsay's semiempirical analysis
Go
Verified
Percentage Volume of Bond material in wheel of grinding
Go
Verified
Proportion of Total Energy flowing into workpiece
Go
Verified
Relative contact area of grains in terms of Total Energy flowing into the workpiece
Go
Verified
Rockwell hardness number of work material from Lindsay semiempirical analysis
Go
Verified
Rotational frequency of workpiece in terms of Number of workpiece revolution
Go
Verified
System stiffness in terms of Number of workpiece revolution
Go
Verified
Time taken for spark-out operation
Go
1 More Cylindrical Grinding cycle Calculators
Go
Desgin of Shafts
(1)
Verified
Maximum Shear Stress in Shaft- Bending and Torsion
Go
16 More Desgin of Shafts Calculators
Go
Design for Machining
(10)
Created
Constant for Machining Operation given Production Cost per Component
Go
Created
Cost of each Tool given Production Cost per Component
Go
Created
Machining and Operating Rate given Production Cost per Component
Go
Created
Production Cost per Component for Constant-Speed-Rough-Machining in terms of Tool Changing Cost
Go
Created
Production Cost per Component in Constant-Cutting-Speed, Rough-Machining Operation
Go
Created
Reference Cutting Speed given Production Cost per Component
Go
Created
Reference Tool Life given Production Cost per Component
Go
Created
Setup Time given Production Cost per Component
Go
Created
Taylor's Tool Life Constant given Production Cost per Component
Go
Created
Tool Changing Time for each Tool given Production Cost per Component
Go
Design of Screw and Nut
(14)
Created
Axial Load on Screw given Transverse Shear Stress at Root of Nut
Go
Created
Axial Load on Screw given Unit Bearing Pressure
Go
Created
Bearing Area between Screw and Nut for One Thread
Go
Created
Core Diameter of Screw given Direct Compressive Stress
Go
Created
Core Diameter of Screw given Torsional Shear Stress
Go
Created
Nominal Diameter of Screw given Transverse Shear Stress at Root of Nut
Go
Created
Number of Threads in Engagement with Nut given Transverse Shear Stress
Go
Created
Number of Threads in Engagement with Nut given Transverse Shear Stress at Root of Nut
Go
Created
Number of Threads in Engagement with Nut given Unit Bearing Pressure
Go
Created
Thread Thickness at Root of Nut given Transverse Shear Stress at Root of Nut
Go
Created
Torsional Moment in Screw given Torsional Shear Stress
Go
Created
Torsional Shear Stress of Screw
Go
Created
Transverse Shear Stress at Root of the Nut
Go
Created
Unit Bearing Pressure for Thread
Go
8 More Design of Screw and Nut Calculators
Go
ECM (Electrochemical Machining)
(15)
Created
Density of Work in terms of Tool Feed Speed
Go
Created
Density of Work material given Volumetric Material Removal Rate
Go
Created
Density of Work material in terms of Gap between Tool and Work Surface
Go
Created
Electrochemical Equivalent of Work given Volumetric Material Removal Rate
Go
Created
Electrochemical Equivalent of Work in terms of Tool Feed Speed
Go
Created
Gap between Tool and Work Surface
Go
Created
Gap between Tool and Work Surface in terms of Supply Current
Go
Created
Metal Removed by mechanical abrasion per unit time given Total Material Removal Rate
Go
Created
Metal Removed electrolytically per unit time given Total Material Removal Rate
Go
Created
Resistance owing to Electrolyte given Supply Current and Voltage
Go
Created
Specific Resistivity of Electrolyte given Gap between Tool and Work Surface
Go
Created
Specific Resistivity of Electrolyte given Supply Current
Go
Created
Total Material Removal Rate in Electrolytic Grinding
Go
Created
Volumetric Material Removal Rate
Go
Created
Volumetric Material Removal Rate given Tool Feed Speed
Go
Economics Of Metal-Cutting Operation
(22)
Created
Average Production Time of Each Component
Go
Created
Batch Size in terms of Average Production Time
Go
Created
Cost of each tool when the Total Cost of Tools Used is given
Go
Created
Load or Unload or Setup Time in terms of Total Non-Productive Time
Go
Created
Machining and Operating Rate in terms of Total Machining and Operating Cost
Go
Created
Machining Time for one component in terms of Total Machining Time
Go
Created
Machining Time of Each Component in terms of Average Production Time
Go
Created
Non-Productive Time for Each Component when Average Production Time is given
Go
Created
Size of Batch when Total Non-Productive Time is given
Go
Created
The Size of the Batch when the Total Machining Time is given
Go
Created
Time for changing one Tool when the Average Production Time is given
Go
Created
Time for changing one Tool when Total Tool Changing Time is given
Go
Created
Total Cost of Tools Used
Go
Created
Total Machining and Operating Cost
Go
Created
Total Machining Time or Total Machine Time
Go
Created
Total Non-Productive Cost
Go
Created
Total Non-Productive Time
Go
Created
Total Production Time
Go
Created
Total Production Time when Time for Individual Operation and Batch Size is given
Go
Created
Total Production Time when Total Machining and Operating Cost is given
Go
Created
Total Tool Changing Time
Go
Created
Total Tool-Changing Cost
Go
Estimation for Optimal Conditions
(15)
Created
Amortization in terms of Depreciation Rate
Go
Created
Average Cutting Edges per insert in terms of Tool Changing Time
Go
Created
Average Cutting Edges used per insert in terms of Estimated Tool Costs
Go
Created
Average Number of Regrinds Possible, in terms of Estimated Tool Costs
Go
Created
Cutting Edges used during Life of Holder in terms of Estimated Tool Costs
Go
Created
Depreciation Rate of Machine Tool
Go
Created
Depreciation Rate of Machine Tool in terms of Machining And Operating Rate
Go
Created
Estimated Tool Changing Time for Disposable-Insert Tool
Go
Created
Machine Overhead Percentage in terms of Machining And Operating Rate
Go
Created
Machining And Operating Rate
Go
Created
Operator's Overhead Percentage in terms of Machining And Operating Rate
Go
Created
Operator's Wage Rate in terms of Machining And Operating Rate
Go
Created
Time to Index Insert when Tool Changing Time is given for Disposable-Insert Tool
Go
Created
Time to Replace Insert when Tool Changing Time is given for Disposable-Insert Tool
Go
Created
Working Hours per year in terms of Depreciation Rate
Go
Facing Operation
(19)
Created
Cost of 1 Tool in terms of Optimum Spindle Speed
Go
Created
Feed in terms of Instantaneous Cutting Speed
Go
Created
Feed in terms of Instantaneous Radius for Cut
Go
Created
Inner Radius of Workpiece in terms of Machining Time for Facing
Go
Created
Inside Radius in terms of Workpiece Radius Ratio
Go
Created
Machining and Operating Rate when Optimum Spindle Speed is given
Go
Created
Machining Time in terms of Maximum Wear-Land Width
Go
Created
Machining Time in terms of Rate of Increase of Wear-Land Width
Go
Created
Optimum Spindle Speed
Go
Created
Optimum Spindle Speed in terms of Tool Changing Cost
Go
Created
Taylor's Exponent in terms of Cutting Speed for Constant-Cutting-Speed Operation
Go
Created
The Feed of Workpiece in terms of Machining Time for Facing
Go
Created
The Time for Facing
Go
Created
The Time for Facing in terms of Instantaneous Cutting Speed
Go
Created
Time Proportion of Edge Engagement in terms of Cutting Speed for Constant-Cutting-Speed Operation
Go
Created
Tool Changing Cost in terms of Optimum Spindle Speed
Go
Created
Tool Changing Time in terms of Optimum Spindle Speed
Go
Created
Total Machining Time for a single Facing Operation
Go
Created
Workpiece Radius Ratio
Go
Feed
(4)
Created
Feed in Slab Milling in terms of Feed Speed
Go
Created
Feed Rate for Turning Operation in terms of Machining Time
Go
Created
Feed Speed in Vertical Milling in terms of Maximum Chip Thickness
Go
Created
Feed Speed of Workpiece in Slab Milling
Go
Grinding
(23)
Verified
Angle made by the length of the chip
Go
Verified
Average length of chip
Go
Verified
Average length of Chip in terms of Average volume of each Chip
Go
Verified
Average length of chip in terms of Infeed
Go
Verified
Average Volume of each Chip
Go
Verified
Average Volume of each chip in terms of metal removal rate in grinding
Go
Verified
Grain-aspect Ratio
Go
Verified
Grain-aspect Ratio in terms of Constant for grinding wheel
Go
Verified
Infeed in terms of constant for grinding wheel
Go
Verified
Infeed in terms of Diameter of wheel and average length of chip
Go
Verified
Infeed in terms of Metal removal rate during Grinding
Go
Verified
Maximum Width of Chip in terms of Average volume of each Chip
Go
Verified
Maximum Width of Chip in terms of Max undeformed Chip thickness
Go
Verified
Metal removal rate during Grinding
Go
Verified
Metal removal rate in terms of number of chip produced and volume of each chip
Go
Verified
Number of active Grains per unit area in terms of Constant for grinding wheel
Go
Verified
Number of active Grains per unit area on the wheel surface
Go
Verified
Number of chip produce per time in terms of metal removal rate
Go
Verified
Number of chip produced per unit time in Grinding
Go
Verified
The Angle made by length of chip in terms of Infeed
Go
Verified
The Infeed for given Angle made by length of the chip
Go
Verified
Width of Grinding path in terms of Metal removal rate
Go
Verified
Width of grinding path in terms of Number of chips produced per time
Go
Grinding Operation
(10)
Created
Machining Time for Cylindrical and Internal Grinder
Go
Created
Machining Time for Horizontal and Vertical Spindle Surface-Grinder
Go
Created
Machining Time for Plunge Grinder
Go
Created
Material Removal Rate in Cylindrical and Internal Grinder
Go
Created
Material Removal Rate in Horizontal and Vertical Spindle Surface-Grinder
Go
Created
Material Removal Rate in Plunge-Grinder
Go
Created
Spark Out time for Cylindrical and Internal Grinder in terms of Machining Time
Go
Created
Spark Out time for Horizontal and Vertical Spindle Surface Grinder in terms of Machining Time
Go
Created
Traverse Speed for Cylindrical and in Internal Grinder in terms of MRR
Go
Created
Traverse Speed in Horizontal and Vertical Spindle Surface-Grinder in terms of MRR
Go
Grinding Wheel
(6)
Verified
Constant for grinding wheel
Go
Verified
Constant for grinding wheel in terms of maximum undeformed chip thickness
Go
Verified
Diameter of wheel for given infeed
Go
Verified
Diameter of wheel in terms of Average length of chip and Infeed
Go
Verified
Diameter of wheel in terms of Constant for grinding wheel
Go
Verified
The Diameter of wheel for given Average Length of chip
Go
Instantaneous Radius
(3)
Created
Instantaneous Radius for Cut
Go
Created
Instantaneous Radius for Cut in terms of Cutting Speed
Go
Created
Instantaneous Radius for Cut in terms of Rate of Increase of Wear-Land
Go
Kernel Of Hollow Circular Section
(6)
Verified
Bending stress for a hollow circular section in terms of eccentric load and eccentricity
Go
Verified
Bending stress for hollow circular section
Go
Verified
Bending stress for hollow circular section in terms of diameter
Go
Verified
Moment due to eccentric load in terms of bending stress on hollow circular section
Go
Verified
Section modulus hollow circular section
Go
Verified
Section modulus in terms of bending stress on hollow circular section
Go
7 More Kernel Of Hollow Circular Section Calculators
Go
Length of Chip
(1)
Verified
Length of chip tool contact given Chip breaker wedge angle
Go
2 More Length of Chip Calculators
Go
Machine tools and machine operations
(16)
Created
Cross sectional Area of Uncut Chip
Go
Created
Cutting Speed Angle in terms of Resultant Cutting Speed
Go
Created
Depth of Cut in Slab Milling in terms of Tool Engagement Angle
Go
Created
Drill Point Angle for given Length Of Approach
Go
Created
Energy per Unit Material Removal in terms of Efficiency of Motor Drive System
Go
Created
Length of Approach for Drilling Operation
Go
Created
Length of Cut in terms of Machining Time
Go
Created
Machining Power in terms of Overall Efficiency
Go
Created
Mean Cutting Speed
Go
Created
Minimum Length of Approach required in Face Milling
Go
Created
Minimum Length of Approach required in Slab Milling
Go
Created
Overall Efficiency of Machine Tool and Motor Drive System
Go
Created
Power required for Machining Operation
Go
Created
Resultant Cutting Velocity
Go
Created
The diameter of Drill Bit in terms of Length of Approach
Go
Created
Tool Engagement Angle in Slab Milling in terms of Depth of Cut
Go
Machining And Operating Cost
(6)
Created
Machining and Operating Cost of each product in terms of Average Production Cost
Go
Created
Machining and Operating Cost of each product in terms of Individual Cost
Go
Created
Machining and Operating Cost of each product in terms of Total Production Cost
Go
Created
Total Machining and Operating Costs in terms of Average Production Cost
Go
Created
Total Machining and Operating Costs in terms of Individual Costs
Go
Created
Total Machining and Operating Costs in terms of Total Production Cost
Go
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 Machining Costs Calculators
Go
Machining Time
(4)
Created
Machining Time For Drilling Operation
Go
Created
Machining Time For Milling Operation
Go
Created
Machining Time For Shaping Operation
Go
Created
Machining Time For Turning Operation
Go
4 More Machining Time Calculators
Go
Machining Time
(5)
Created
Machining Time for each product in terms of Average Production Cost
Go
Created
Machining Time for each product in terms of Individual Costs
Go
Created
Machining Time for each product in terms of Total Production Cost
Go
Created
Total Machining Time in terms of Average Production Cost
Go
Created
Total Machining Time in terms of Total Production Cost
Go
Machining Time
(2)
Created
Machining Time for Maximum Power given Machining Cost
Go
Created
Machining Time for optimum speed for Maximum Power when Machining Cost is given
Go
4 More Machining Time Calculators
Go
Manufacturing Systems and Automations
(5)
Verified
Distance moved by tool corner in terms of tool life and machining time
Go
Verified
Machining time in terms of tool life and distance moved by tool corner
Go
Verified
Reference cutting speed in terms of tool life and distance moved by tool corner
Go
Verified
Reference tool life in terms of distance moved by tool corner
Go
Verified
Tool life in terms of distance moved by tool corner
Go
Material Removal Rate
(6)
Created
Average Material Removal Rate in terms of Depth of Cut
Go
Created
Average Material Removal Rate using Uncut Chip Cross-Section Area
Go
Created
Average Material Removal Rate when Depth of Cut is Given for Boring Operation
Go
Created
Material Removal Rate during Drilling Operation
Go
Created
Material Removal Rate during Drilling Operation in terms of Feed
Go
Created
Material Removal Rate during Drilling Operation when Enlarging an Existing Hole
Go
3 More Material Removal Rate Calculators
Go
Maximum Efficiency
(10)
Created
Amount Received by Machine Shop in terms of Profit per Component
Go
Created
Amount Received by Machine Shop in terms of Profit Rate
Go
Created
Cost of Production in terms of Profit per Component
Go
Created
Cost of Production in terms of Profit Rate
Go
Created
Production Time per component in terms of Profit
Go
Created
Production Time per component in terms of Profit Rate
Go
Created
Profit per component produced
Go
Created
Profit per Component produced in terms of Profit Rate
Go
Created
Rate of Profit
Go
Created
Rate of Profit in terms of Profit Per component
Go
Maximum Power Condition
(3)
Created
Machining and Operating Rate given Machining Cost for Maximum Power
Go
Created
Machining Rate given Machining Cost for Maximum Power with limited Cutting Speed
Go
Created
Time Proportion of Cutting Edge Engagement for Maximum Power delivery given Machining Cost
Go
22 More Maximum Power Condition Calculators
Go
Middle Quarter Rule For Circular Section
(3)
Verified
Diameter of Circular Section if Direct Stress for the given Circular Section
Go
Verified
Direct stress for circular section
Go
Verified
Eccentric load for given direct stress for circular section
Go
15 More Middle Quarter Rule For Circular Section Calculators
Go
Milling
(6)
Created
The Diameter of Tool in terms of Proportion of Edge Engagement for Slab and Side Milling
Go
Created
The Diameter of Tool when Proportion of Edge Engagement for Face Milling is given
Go
Created
The Proportion of Cutting Edge Engagement for Face Milling
Go
Created
The Proportion of Cutting Edge Engagement for Slab and Side Milling
Go
Created
Work Engagement in terms of Proportion of Edge Engagement for Face Milling
Go
Created
Work Engagement in terms of Proportion of Edge Engagement for Slab and Side Milling
Go
Minimum Production Cost
(7)
Created
Constant for Machining Operation given Minimum Production Cost
Go
Created
Machining and Operating Rate given Minimum Production Cost
Go
Created
Minimum Production Cost per Component
Go
Created
Non-Productive Time per component given Minimum Production Cost
Go
Created
Reference Cutting Velocity given Minimum Production Cost
Go
Created
Reference Tool Life given Minimum Production Cost
Go
Created
Tool Life for minimum cost given Minimum Production Cost
Go
Minimum Production Time Criteria
(12)
Created
Cutting Velocity for Minimum Production Time
Go
Created
Cutting Velocity for Minimum Production Time in terms of Tool Changing Cost
Go
Created
Machining and Operating Rate in terms of Tool Changing Cost and Cutting Velocity
Go
Created
Machining and Operating Rate in terms of Tool Changing Cost and Tool Life
Go
Created
Reference Cutting Velocity in case of Min Production time
Go
Created
Reference Tool Life in terms of Min Production time
Go
Created
Taylor's Tool Life Exponent in terms of Tool Life
Go
Created
The Cost to change One Tool in terms of min production time
Go
Created
Tool Changing Time for each Tool in terms of min production time
Go
Created
Tool Changing Time for each Tool in terms of Tool Life
Go
Created
Tool Life for Minimum Production Time
Go
Created
Tool Life for Minimum Production Time in terms of Tool Changing Cost
Go
Modified Taylor's Tool Life Equation
(8)
Created
Cutting Velocity for given Taylor's Tool Life
Go
Created
Depth of Cut for given Taylor's Tool Life, Cutting Velocity and Intercept
Go
Created
Feed in terms of Taylor's Tool Life, Cutting Velocity, and Intercept
Go
Created
Taylor's exponent of Depth of Cut when all other Machining Conditions are Given
Go
Created
Taylor's exponent of Feed in terms of all other Machining Conditions
Go
Created
Taylor's Intercept in terms of Cutting Velocity and Tool Life
Go
Created
Taylor's Tool Life Exponent in terms of Cutting Velocity and Taylor's Tool Life
Go
Created
Taylor's Tool Life in terms of Cutting Velocity and Taylor's Intercept
Go
Nomenclature of cutting Tools
(3)
Verified
Angle set from axis B
Go
Verified
Required Tool Back Rake Angle in terms of angle set from axis B
Go
Verified
Tool side rake angle in terms of angle set from axis B
Go
Non Productive Cost
(6)
Created
Non-Productive Cost of one component in terms of Average Production Cost
Go
Created
Non-Productive Cost of one component in terms of Individual Costs
Go
Created
Non-Productive Cost of one component in terms of Total Production Cost
Go
Created
Total Non-Productive Cost in terms of Average Production Cost
Go
Created
Total Non-Productive Cost in terms of Individual Costs
Go
Created
Total Non-Productive Cost in terms of Total Production Cost
Go
Number of Tools
(3)
Created
Number of Tools used when the Average Production Time is given
Go
Created
Number of Tools used when the Total Cost of Tools Used is given
Go
Created
Number of Tools Used when Total Tool Changing Time is given
Go
Outer Radius of Workpiece
(5)
Created
Outer Radius of Workpiece in terms of Machining Time for Facing
Go
Created
Outside Radius in terms of Workpiece Radius Ratio
Go
Created
Outside Radius of Workpiece in terms of Instantaneous Cutting Speed
Go
Created
Outside Radius of Workpiece in terms of Instantaneous Radius for Cut
Go
Created
Outside Radius of Workpiece in terms of Optimum Spindle Speed
Go
Parallel Fillet Welds
(6)
Created
Leg of Weld given Shear Stress in Fillet Weld
Go
Created
Leg of Weld given Throat of Weld
Go
Created
Length of Weld given Shear Stress in Fillet Weld
Go
Created
Shear Stress in the Fillet Weld
Go
Created
Tensile Force on Plate given Shear Stress in Fillet
Go
Created
Throat of the Weld
Go
9 More Parallel Fillet Welds Calculators
Go
Power Screws
(4)
Created
External Torque required to raise the Load given Efficiency
Go
Created
Lead of the Screw given Overall Efficiency
Go
Created
Load on Screw given Overall Efficiency
Go
Created
Overall Efficiency of Power Screw
Go
12 More Power Screws Calculators
Go
Production Cost
(6)
Created
Average Production Cost of each component
Go
Created
Average Production Cost of each component in terms of Individual Costs
Go
Created
Average Production Cost of each component in terms of Total Production Cost
Go
Created
Total Production Cost
Go
Created
Total Production Cost for given Batch Size
Go
Created
Total Production Cost in terms of Individual Costs
Go
Radius of Chip
(3)
Verified
Radius of Chip curvature
Go
Verified
Radius of Chip curvature when material constant is unity
Go
Verified
Radius of Chip given Chip breaker wedge angle
Go
Rate of Heat Generation
(5)
Verified
Rate of Heat Generated in Primary Shear Zone in terms of temperature rise
Go
Verified
Rate of heat generated in the Secondary Shear Zone in terms of the average temperature
Go
Verified
Rate of Heat Generation in Primary Deformation in terms of the Rate of Energy Consumption
Go
Verified
Rate of Heat Generation in the Secondary Deformation Zone
Go
Verified
Total Rate of Heat Generation
Go
Rate of Increase of Wear Land
(3)
Created
Rate of Increase of Wear-Land in terms of Feed and Time for Facing
Go
Created
Rate of Increase of Wear-Land in terms of Rotational Frequency of Spindle
Go
Created
Rate of Increase of Wear-Land Width
Go
Reference Tool Life
(3)
Created
Reference Tool Life in terms of Cutting Speed for Constant-Cutting-Speed Operation
Go
Created
Reference Tool Life in terms of Optimum Spindle Speed
Go
Created
Reference Tool Life in terms of Rate of Increase of Wear-Land Width
Go
Removal Parameters
(5)
Verified
Wheel removal parameter in terms of Grinding ratio
Go
Verified
Wheel removal parameter in terms of wheel removal rate
Go
Verified
Workpiece removal parameter in terms of feed and machine infeed speed
Go
Verified
Workpiece removal parameter in terms of Grinding ratio
Go
Verified
Workpiece removal parameter in terms of metal removal rate
Go
1 More Removal Parameters Calculators
Go
Rotational Frequency
(4)
Created
Rotational Frequency of Spindle in terms of Cutting Speed
Go
Created
Rotational Frequency of Spindle in terms of Instantaneous Radius for Cut
Go
Created
Rotational Frequency of Spindle in terms of Machining Time for Facing
Go
Created
Rotational Frequency of Spindle in terms of Rate of Increase of Wear-Land
Go
Roughness Value
(1)
Verified
Roughness value given feed speed
Go
2 More Roughness Value Calculators
Go
Supply Voltage
(3)
Created
Supply Voltage for Electrolysis
Go
Created
Supply Voltage in terms of Gap between Tool and Work Surface
Go
Created
Supply Voltage in terms of Specific Resistivity of Electrolyte
Go
Surface Speed
(4)
Verified
Surface speed of Wheel in terms of constant for grinding wheel
Go
Verified
Surface speed of wheel in terms of number of chip produce per time
Go
Verified
Surface speed of workpiece in terms of constant for grinding wheel
Go
Verified
Surface Speed of workpiece in terms of Metal removal rate during grinding
Go
Temperature Rise
(4)
Verified
Average Temperature rise of chip from Secondary Deformation
Go
Verified
Average Temperature rise of material under the Primary Deformation Zone
Go
Verified
Temperature rise of material in primary deformation zone
Go
Verified
Temperature Rise of Material in Secondary Deformation Zone
Go
2 More Temperature Rise Calculators
Go
Tempratures in metal cutting
(15)
Verified
Cutting Speed in terms of Average Temperature rise of chip from Secondary Deformation
Go
Verified
Cutting speed in terms of Average Temperature rise of material under Primary Shear Zone
Go
Verified
Density of material in terms of Average Temperature rise of chip from Secondary Deformation
Go
Verified
Density of Material in terms of Average Temperature rise of material under Primary Shear Zone
Go
Verified
Depth of cut in terms of Average Temperature rise of chip from Secondary Deformation
Go
Verified
Depth of cut in terms of Average Temperature rise of material under the Primary Shear Zone
Go
Verified
Initial workpiece temperature in terms of maximum temperature in Secondary Deformation Zone
Go
Verified
Rate of Energy consumption in terms of rate of heat generation during machining
Go
Verified
Rate of Heat conduction into tool in terms of Total rate of Heat Generation
Go
Verified
Rate of Heat Conduction into Workpiece in terms of Total rate of Heat Generation
Go
Verified
Rate of Heat Transportation by Chip in terms of Total rate of Heat Generation
Go
Verified
Specific Heat in terms of Average Temperature rise of chip from Secondary Deformation
Go
Verified
Specific Heat in terms of Average Temperature rise of material under Primary Shear Zone
Go
Verified
Un-deformed chip thickness in terms of Average Temperature rise of chip from secondary deformation
Go
Verified
Undeformed Chip Thickness in terms of Average Temperature rise of material under Primary Shear Zone
Go
3 More Tempratures in metal cutting Calculators
Go
Thrust Force
(4)
Verified
Threshold thrust force in terms of wheel removal parameter
Go
Verified
Threshold thrust force in terms of workpiece removal parameter
Go
Verified
Thrust force in terms of wheel removal parameter
Go
Verified
Thrust force in terms of workpiece removal parameter
Go
Tool Changing Cost
(8)
Created
Tool Changing Cost of each product in terms of Average Production Cost
Go
Created
Tool Changing Cost of each Tool in terms of Individual Costs
Go
Created
Tool Changing Cost of each Tool in terms of Total Production Cost
Go
Created
Tool Changing Time for Each Tool in terms of Individual Costs
Go
Created
Tool Changing Time for Each Tool in terms of Total Production Cost
Go
Created
Total Tool Changing Cost in terms of Average Production Cost
Go
Created
Total Tool Changing Cost in terms of Individual Costs
Go
Created
Total Tool Changing Cost in terms of Total Production Cost
Go
Tool Changing Time
(3)
Created
Tool Changing Time for Each Tool in terms of Average Production Cost
Go
Created
Total Tool Changing Time in terms of Average Production Cost
Go
Created
Total Tool Changing Time in terms of Total 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 Volumetric Material Removal Rate
Go
Created
Tool Feed Speed in terms of Current Supplied
Go
Created
Tool Feed Speed in terms of Gap between Tool and Work Surface
Go
Tool Life
(4)
Created
Tool Life Exponent in terms of Rate of Increase of Wear-Land Width
Go
Created
Tool Life in terms of Cutting Speed for Constant-Cutting-Speed Operation
Go
Created
Tool Life in terms of Maximum Wear-Land Width
Go
Created
Tool Life in terms of 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 in terms of Cutting Velocity, Tool Life, and Volume of Metal Removed
Go
Created
Feed in terms of Cutting Velocity, Tool Life, and Volume of Metal Removed
Go
Created
The Volume of Metal Removed in terms of Cutting Velocity and Tool Life
Go
Created
Tool Life in terms of Cutting Velocity and Volume of Metal Removed
Go
Tool Life and Production Batch
(18)
Created
Batch Size in terms of Machining Time and Conditions
Go
Created
Batch Size in terms of Tool Life and Machining Time
Go
Created
Constant for a given Cylindrical Turning
Go
Created
Constant for Machining Operation of one product given Machining Condition
Go
Created
Cutting Velocity in terms of Production Batch and Machining Conditions
Go
Created
Cutting Velocity of one product given Constant for Machining Operation
Go
Created
Feed in terms of Constant for Cylindrical Turning
Go
Created
Machining Time of one product given Constant for Machining Operation
Go
Created
Machining Time of one product in terms of Production Batch and Machining Conditions
Go
Created
Machining Time of One Product in terms of Tool Life
Go
Created
Number of Tools Used in terms of Machining Time and Conditions
Go
Created
Number of Tools Used in terms of Tool Life
Go
Created
Reference Cutting Velocity in terms of Production Batch and Machining Conditions
Go
Created
Reference Tool Life in terms of Production Batch and Machining Conditions
Go
Created
Taylor's Tool Life Exponent in terms of Production Batch and Machining Conditions
Go
Created
The Diameter of workpiece in terms of Constant for Cylindrical Turning
Go
Created
Tool Life when Batch Size and Number of Tools Used are known
Go
Created
Turning Length in terms of 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 in terms of Crater Depth
Go
Created
Machinability Index
Go
Created
Reference Tool Life in terms of Cutting Velocities, Tool Life under a Machining Condition
Go
Created
Taylor's Exponent if ratios of Cutting Velocities, Tool Lives are given in two machining conditions
Go
Created
Taylor's Exponent when Cutting Velocities, Tool Lives are given for two machining conditions
Go
Created
Taylor's Intercept in terms of Cutting Velocity and Taylor's Tool Life
Go
Created
Taylor's Tool Life Exponent in terms of Cutting Velocity and Tool Life
Go
Created
Taylor's Tool Life in terms of Cutting Velocity and Intercept
Go
Created
Tool Life in terms of 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
(12)
Created
Cost of One Tool for Minimum Production Cost in terms of Tool Changing Cost
Go
Created
Cost of One Tool in terms of Tool Life
Go
Created
Machining and Operating Rate if cost of changing tool is also considered
Go
Created
Machining and Operating Rate in case of Min Production Cost and Min Production time
Go
Created
Taylor's Tool Life Exponent when Tool Life is given
Go
Created
The Cost to change One Tool in terms of Tool Life
Go
Created
Tool Changing Time for each Tool in terms of Tool Life and tool cost
Go
Created
Tool Life for Minimum Production Cost
Go
Created
Tool Life for Minimum Production Cost in terms of 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
Created
Tool Life for Minimum Production Cost when Oxide/Ceramic is used
Go
Total Cost of Tools Used
(3)
Created
Total Cost of Tools Used in terms of Average Production Cost
Go
Created
Total Cost of Tools Used in terms of Individual Costs
Go
Created
Total Cost of Tools Used in terms of Total Production Cost
Go
Un-deformed Chip Thickness
(3)
Verified
Maximum undeformed chip thickness
Go
Verified
Maximum undeformed chip thickness in terms of average volume of each chip
Go
Verified
Maximum undeformed chip thickness in terms of constant for grinding wheel
Go
Wear Land
(4)
Created
Increase in Wear-Land Width in terms of 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 in terms of Rate of Increase of Wear-Land Width
Go
3 More Wear Land Calculators
Go
Wheel
(5)
Verified
Wheel diameter in terms of equivalent wheel diameter
Go
Verified
Wheel hardness Number in terms of Percentage Volume of Bond material in wheel
Go
Verified
Wheel removal parameter from Lindsay's semiempirical analysis
Go
Verified
Wheel structure Number in terms of Percentage Volume of Bond material in wheel
Go
Verified
Wheel surface speed from Lindsay's semiempirical analysis
Go
Workpiece
(3)
Verified
Workpiece diameter in terms of equivalent wheel diameter
Go
Verified
Workpiece removal parameter in terms of number of workpiece revolution
Go
Verified
Workpiece surface speed from Lindsay's semiempirical analysis
Go
1 More Workpiece Calculators
Go
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