Burden when Stemming at Top of Borehole is Given Calculator

Category	Engineering ↺
Engineering	Civil ↺
Civil	Soil and Earthwork ↺
Soil-And-Earthwork	Vibration Control In Blasting ↺

✖Stemming means to stop something that is increasing or spreading.ⓘ Stemming [S]			+10% -10%
✖Overburden is the material that lies above an area that lends itself to economical exploitation, such as the rock, soil, and ecosystem.ⓘ Overburden [OB]			+10% -10%

✖Burden is the distance from the blast hole to the nearest perpendicular free face.ⓘ Burden when Stemming at Top of Borehole is Given [B]

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Burden when Stemming at Top of Borehole is Given

Suraj Kumar

Birsa Institute of Technology (BIT), Sindri

Suraj Kumar has created this Calculator and 500+ more calculators!

Ishita Goyal

Meerut Institute of Engineering and Technology (MIET), Meerut

Ishita Goyal has verified this Calculator and 500+ more calculators!

< 2 Other formulas that you can solve using the same Inputs

Stemming at Top of Borehole to Prevent the Explosive Gases from Escaping

Stemming=(0.7*Burden)+(Overburden/2) GO

Overburden when Stemming at Top of Borehole is Given

Overburden=2*(Stemming-(0.7*Burden)) GO

< 4 Other formulas that calculate the same Output

Burden Suggested in Langefors' Formula

Burden=(Diameter of drill bit/33)*sqrt((Degree of packing*Weight strength of explosive)/(Rock constant*Degree of fraction*Ratio of spacing to burden)) GO

Burden Suggested in Konya Formula

Burden=(3.15*Diameter of explosive)*(Specific gravity of the explosive/Specific gravity of the rock)^(1/3) GO

Distance from the Blast Hole to the Nearest Perpendicular Free Face or Burden

Burden=sqrt(Diameter of borehold*Length of borehole) GO

Burden when Spacing for Multiple Simultaneous Blasting is Given

Burden=(Spacing in blasting)^2/Length of borehole GO

Burden when Stemming at Top of Borehole is Given Formula

Burden=(Stemming-(Overburden/2))/0.7
B=(S-(OB/2))/0.7

More formulas

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Amplitude of the Vibrations when Velocity of the Particle is Given GO

Velocity of Particle One at a Distance from the Explosion GO

Velocity of Particle Two at a Distance from the Explosion GO

Distance of Particle One from the Site of Explosion GO

Distance of Particle Two from the Site of Explosion when Velocity is Given GO

Acceleration of Particles Disturbed by the Vibrations GO

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Overpressure due to Charge Exploded on the Ground Surface GO

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Overpressure when Sound Pressure Level in Decibels is Given GO

Scaled Distance for Vibration Control GO

Distance to Exposure when Scaled Distance for Vibration Control is Given GO

Maximum Weight of Explosives when Scaled Distance for Vibration Control is Given GO

Minimum Length of the Borehole in Feet GO

Diameter of the Borehole when Minimum Length of the Borehole is Given GO

Minimum Length of the Borehole in Meter GO

Distance from the Blast Hole to the Nearest Perpendicular Free Face or Burden GO

Diameter of Borehole when Burden is Given GO

Length of Borehole when Burden is Given GO

Burden Suggested in Langefors' Formula GO

Diameter of Drill Bit when Burden Suggested in Langefors' Formula is Given GO

Ratio of Spacing to Burden when Burden Suggested in Langefors' Formula is Given GO

Degree of Packing when Burden Suggested in Langefors' Formula is Given GO

Weight Strength of Explosive when Burden Suggested in Langefors' Formula is Given GO

Burden Suggested in Konya Formula GO

Diameter of the Explosive when Burden Suggested in Konya Formula is Given GO

Specific Gravity of the Explosive when Burden Suggested in Konya Formula is Given GO

Specific Gravity of the Rock when Burden Suggested in Konya Formula is Given GO

Spacing for Multiple Simultaneous Blasting GO

Burden when Spacing for Multiple Simultaneous Blasting is Given GO

Length of Borehole when Spacing for Multiple Simultaneous Blasting is Given GO

Stemming at Top of Borehole to Prevent the Explosive Gases from Escaping GO

Overburden when Stemming at Top of Borehole is Given GO

What is burden ?

The burden is the distance from a single row to the face of the excavation, or between rows in the usual case where rows are fired in sequence.

How to Calculate Burden when Stemming at Top of Borehole is Given?

Burden when Stemming at Top of Borehole is Given calculator uses Burden=(Stemming-(Overburden/2))/0.7 to calculate the Burden, The Burden when Stemming at Top of Borehole is Given calulates the distance from the blast hole to the nearest perpendicular free face. . Burden and is denoted by B symbol.

How to calculate Burden when Stemming at Top of Borehole is Given using this online calculator? To use this online calculator for Burden when Stemming at Top of Borehole is Given, enter Stemming (S) and Overburden (OB) and hit the calculate button. Here is how the Burden when Stemming at Top of Borehole is Given calculation can be explained with given input values -> 5 = (1.5240000000061-(0.914400000003658/2))/0.7.

FAQ

What is Burden when Stemming at Top of Borehole is Given?

The Burden when Stemming at Top of Borehole is Given calulates the distance from the blast hole to the nearest perpendicular free face. and is represented as B=(S-(OB/2))/0.7 or Burden=(Stemming-(Overburden/2))/0.7. Stemming means to stop something that is increasing or spreading and Overburden is the material that lies above an area that lends itself to economical exploitation, such as the rock, soil, and ecosystem.

How to calculate Burden when Stemming at Top of Borehole is Given?

The Burden when Stemming at Top of Borehole is Given calulates the distance from the blast hole to the nearest perpendicular free face. is calculated using Burden=(Stemming-(Overburden/2))/0.7. To calculate Burden when Stemming at Top of Borehole is Given, you need Stemming (S) and Overburden (OB). With our tool, you need to enter the respective value for Stemming and Overburden 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 Burden?

In this formula, Burden uses Stemming and Overburden. We can use 4 other way(s) to calculate the same, which is/are as follows -

Burden=sqrt(Diameter of borehold*Length of borehole)
Burden=(Diameter of drill bit/33)*sqrt((Degree of packing*Weight strength of explosive)/(Rock constant*Degree of fraction*Ratio of spacing to burden))
Burden=(3.15*Diameter of explosive)*(Specific gravity of the explosive/Specific gravity of the rock)^(1/3)
Burden=(Spacing in blasting)^2/Length of borehole

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