Suraj Kumar
Birsa Institute of Technology (BIT), Sindri
Suraj Kumar has created this Calculator and 400+ more calculators!
Ishita Goyal
Meerut Institute of Engineering and Technology (MIET), Meerut
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8 Other formulas that you can solve using the same Inputs

Undeformed Chip Thickness Average Temperature rise of material under Primary Shear Zone is given
undeformed chip thickness=((1-fraction of heat conducted into the workpiece)*Rate of heat generation in the primary shear zone)/(Density of material*specific heat capacity of workpiece*Cutting Speed*average temperature rise*Depth Of Cut) GO
Depth of cut when the Average Temperature rise of material under the Primary Shear Zone is given
Depth Of Cut=((1-fraction of heat conducted into the workpiece)*Rate of heat generation in the primary shear zone)/(Density of material*specific heat capacity of workpiece*Cutting Speed*undeformed chip thickness*average temperature rise) GO
Specific Heat when Average Temperature rise of material under Primary Shear Zone is given
specific heat capacity of workpiece=((1-fraction of heat conducted into the workpiece)*Rate of heat generation in the primary shear zone)/(Density of material*average temperature rise*Cutting Speed*undeformed chip thickness*Depth Of Cut) GO
Cutting speed Average Temperature rise of material under the Primary Shear Zone is given
Cutting Speed=((1-fraction of heat conducted into the workpiece)*Rate of heat generation in the primary shear zone)/(Density of material*specific heat capacity of workpiece*average temperature rise*undeformed chip thickness*Depth Of Cut) GO
Average Temperature rise of material under the Primary Deformation Zone
average temperature rise=((1-fraction of heat conducted into the workpiece)*Rate of heat generation in the primary shear zone)/(Density of material*specific heat capacity of workpiece*Cutting Speed*undeformed chip thickness*Depth Of Cut) GO
Rate of Heat Generated in the Primary Shear Zone when temperature rise is given
Rate of heat generation in the primary shear zone=(average temperature rise*Density of material*specific heat capacity of workpiece*Cutting Speed*undeformed chip thickness*Depth Of Cut)/(1-fraction of heat conducted into the workpiece) GO
Density of Material when Quantity of Scrap Produced is Given
Density of material=(Weight of load/Bank) GO
Weight of Load when Quantity of Scrap Produced is Given
Weight of load=(Bank*Density of material) GO

1 Other formulas that calculate the same Output

Quantity when Production Required is Given
Bank=(Production required *Working time) GO

Bank or Quantity of Scrap Produced Formula

Bank=(Weight of load/Density of material)
B=(W/D)
More formulas
Production of Scrap by Machines GO
Load when Production of Scrap by Machines is Given GO
Trips Per Hour when Production of Scrap by Machines is Given GO
Trips per hour for excavating scrap GO
Working time when Trips per hour for excavating scrap is Given GO
Cycle time when Trips per hour for excavating scrap is Given GO
Weight of Load when Quantity of Scrap Produced is Given GO
Density of Material when Quantity of Scrap Produced is Given GO
Production Required To Determine the Number of Scrapers GO
Quantity when Production Required is Given GO
Working time when Production Required is Given GO
Number of Scrapers Needed in a Job GO
Production Required when Number of Scrapers Needed in a Job is Given GO
Production per unit when Number of Scrapers Needed in a Job is Given GO
Number of Scrapers a Pusher can Load GO
Scraper Cycle Time when Number of Scrapers a Pusher can Load is Given GO
Pusher Cycle Time when Number of Scrapers a Pusher can Load is Given GO
Variable Time when Haul and Return Distance is in Feet GO
Haul Distance in Feet when Variable Time is Given GO
Return Distance in Feet when Variable Time is Given GO
Speed at Haul and Return in Miles Per Hour when Variable Time is Given GO
Haul Distance in Meter when Variable Time is Given GO
Return Distance in Meter when Variable Time is Given GO
Speed at Haul and Return in Kilometer Per Hour when Variable Time is Given GO

What is scrap ?

Scrap consists of recyclable materials left over from product manufacturing and consumption, such as parts of vehicles, building supplies, and surplus materials. Unlike waste, scrap has monetary value, especially recovered metals, and non-metallic materials are also recovered for recycling.

How to Calculate Bank or Quantity of Scrap Produced?

Bank or Quantity of Scrap Produced calculator uses Bank=(Weight of load/Density of material) to calculate the Bank, The Bank or Quantity of Scrap Produced calculates the volume of scrap when weight of load and density of material is known. Bank and is denoted by B symbol.

How to calculate Bank or Quantity of Scrap Produced using this online calculator? To use this online calculator for Bank or Quantity of Scrap Produced, enter Weight of load (W) and Density of material (D) and hit the calculate button. Here is how the Bank or Quantity of Scrap Produced calculation can be explained with given input values -> 2.5 = (5/2).

FAQ

What is Bank or Quantity of Scrap Produced?
The Bank or Quantity of Scrap Produced calculates the volume of scrap when weight of load and density of material is known and is represented as B=(W/D) or Bank=(Weight of load/Density of material). Weight of load is the weight of one wheel or axle and Density of material is ratio of mass of material to its volume.
How to calculate Bank or Quantity of Scrap Produced?
The Bank or Quantity of Scrap Produced calculates the volume of scrap when weight of load and density of material is known is calculated using Bank=(Weight of load/Density of material). To calculate Bank or Quantity of Scrap Produced, you need Weight of load (W) and Density of material (D). With our tool, you need to enter the respective value for Weight of load and Density of material and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.
How many ways are there to calculate Bank?
In this formula, Bank uses Weight of load and Density of material. We can use 1 other way(s) to calculate the same, which is/are as follows -
  • Bank=(Production required *Working time)
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