Weight of Hammer given Allowable Load for Steam Hammer Driven Piles Calculator

✖Allowable Pile Load is the load allowed on a pile by considering it's bearable stress.ⓘ Allowable Pile Load [P_a]			+10% -10%
✖Penetration per Blow is the measure of penetration of pile on each blow of hammer.ⓘ Penetration per Blow [p]			+10% -10%
✖Height of Drop is the height from which hammer is dropped.ⓘ Height of Drop [H_d]			+10% -10%

✖Hammer Weight is the simply the weight of the hammer.ⓘ Weight of Hammer given Allowable Load for Steam Hammer Driven Piles [W_h]

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Formula

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Weight of Hammer given Allowable Load for Steam Hammer Driven Piles

Formula

`"W"_{"h"} = ("P"_{"a"}*("p"+0.1))/(2*"H"_{"d"})`

Example

`"0.17017kg"=("10.01kg"*("2.00mm"+0.1))/(2*"3m")`

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Weight of Hammer given Allowable Load for Steam Hammer Driven Piles Solution

STEP 0: Pre-Calculation Summary

Formula Used

Hammer Weight = (Allowable Pile Load*(Penetration per Blow+0.1))/(2*Height of Drop)
W_h = (P_a*(p+0.1))/(2*H_d)
This formula uses 4 Variables

Variables Used

Hammer Weight - (Measured in Kilogram) - Hammer Weight is the simply the weight of the hammer.
Allowable Pile Load - (Measured in Kilogram) - Allowable Pile Load is the load allowed on a pile by considering it's bearable stress.
Penetration per Blow - (Measured in Meter) - Penetration per Blow is the measure of penetration of pile on each blow of hammer.
Height of Drop - (Measured in Meter) - Height of Drop is the height from which hammer is dropped.

STEP 1: Convert Input(s) to Base Unit

Allowable Pile Load: 10.01 Kilogram --> 10.01 Kilogram No Conversion Required
Penetration per Blow: 2 Millimeter --> 0.002 Meter (Check conversion here)
Height of Drop: 3 Meter --> 3 Meter No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

W_h = (P_a*(p+0.1))/(2*H_d) --> (10.01*(0.002+0.1))/(2*3)

Evaluating ... ...

W_h = 0.17017

STEP 3: Convert Result to Output's Unit

0.17017 Kilogram --> No Conversion Required

FINAL ANSWER

0.17017 Kilogram <-- Hammer Weight

(Calculation completed in 00.004 seconds)

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Created by Mridul Sharma

Indian Institute of Information Technology (IIIT), Bhopal

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Verified by Alithea Fernandes

Don Bosco College of Engineering (DBCE), Goa

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< 5 Allowable Load on Piles Calculators

Weight of Hammer given Allowable Load for Steam Hammer Driven Piles

Go Hammer Weight = (Allowable Pile Load*(Penetration per Blow+0.1))/(2*Height of Drop)

Height of Drop given Allowable Load for Steam Hammer Driven Piles

Go Height of Drop = (Allowable Pile Load*(Penetration per Blow+0.1))/(2*Hammer Weight)

Weight of Hammer given Allowable Load for Drop Hammer Driven Piles

Go Hammer Weight = (Allowable Pile Load*(Penetration per Blow+1))/(2*Height of Drop)

Height of Drop given Allowable Load for Drop Hammer Driven Piles

Go Height of Drop = (Allowable Pile Load*(Penetration per Blow+1))/(2*Hammer Weight)

Allowable Load for Drop Hammer Driven Piles

Go Allowable Pile Load = (2*Hammer Weight*Height of Drop)/(Penetration per Blow+1)

Weight of Hammer given Allowable Load for Steam Hammer Driven Piles Formula

Hammer Weight = (Allowable Pile Load*(Penetration per Blow+0.1))/(2*Height of Drop)
W_h = (P_a*(p+0.1))/(2*H_d)

What is Steam Hammer?

A steam hammer, also called a drop hammer, is an industrial power hammer driven by steam that is used for tasks such as shaping forgings and driving piles.

How to Calculate Weight of Hammer given Allowable Load for Steam Hammer Driven Piles?

Weight of Hammer given Allowable Load for Steam Hammer Driven Piles calculator uses Hammer Weight = (Allowable Pile Load*(Penetration per Blow+0.1))/(2*Height of Drop) to calculate the Hammer Weight, The Weight of Hammer given Allowable Load for Steam Hammer Driven Piles is defined as the calculating weight of hammer when we have prior information of Allowable Load for Steam Hammer Driven Piles. Hammer Weight is denoted by W_h symbol.

How to calculate Weight of Hammer given Allowable Load for Steam Hammer Driven Piles using this online calculator? To use this online calculator for Weight of Hammer given Allowable Load for Steam Hammer Driven Piles, enter Allowable Pile Load (P_a), Penetration per Blow (p) & Height of Drop (H_d) and hit the calculate button. Here is how the Weight of Hammer given Allowable Load for Steam Hammer Driven Piles calculation can be explained with given input values -> 0.17017 = (10.01*(0.002+0.1))/(2*3).

FAQ

What is Weight of Hammer given Allowable Load for Steam Hammer Driven Piles?

The Weight of Hammer given Allowable Load for Steam Hammer Driven Piles is defined as the calculating weight of hammer when we have prior information of Allowable Load for Steam Hammer Driven Piles and is represented as W_h = (P_a*(p+0.1))/(2*H_d) or Hammer Weight = (Allowable Pile Load*(Penetration per Blow+0.1))/(2*Height of Drop). Allowable Pile Load is the load allowed on a pile by considering it's bearable stress, Penetration per Blow is the measure of penetration of pile on each blow of hammer & Height of Drop is the height from which hammer is dropped.

How to calculate Weight of Hammer given Allowable Load for Steam Hammer Driven Piles?

The Weight of Hammer given Allowable Load for Steam Hammer Driven Piles is defined as the calculating weight of hammer when we have prior information of Allowable Load for Steam Hammer Driven Piles is calculated using Hammer Weight = (Allowable Pile Load*(Penetration per Blow+0.1))/(2*Height of Drop). To calculate Weight of Hammer given Allowable Load for Steam Hammer Driven Piles, you need Allowable Pile Load (P_a), Penetration per Blow (p) & Height of Drop (H_d). With our tool, you need to enter the respective value for Allowable Pile Load, Penetration per Blow & Height of Drop 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 Hammer Weight?

In this formula, Hammer Weight uses Allowable Pile Load, Penetration per Blow & Height of Drop. We can use 1 other way(s) to calculate the same, which is/are as follows -

Hammer Weight = (Allowable Pile Load*(Penetration per Blow+1))/(2*Height of Drop)

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