Dead Load Moment given Maximum Unit Stress in Steel Solution

STEP 0: Pre-Calculation Summary
Formula Used
Dead Load Moment = (Maximum Stress-(Live Load Moment/ Section Modulus of Transformed Section))*Section Modulus of Steel Beam
MD = (σmax-(ML/ Str))*Ss
This formula uses 5 Variables
Variables Used
Dead Load Moment - (Measured in Newton Meter) - Dead Load Moment is the moment generated due to dead load acting to member.
Maximum Stress - (Measured in Pascal) - Maximum Stress is the stress that material or section withstands before its fracture.
Live Load Moment - (Measured in Newton Meter) - Live Load Moment is the moment generated due to live load acting to member.
Section Modulus of Transformed Section - (Measured in Cubic Meter) - Section Modulus of Transformed Section is the MOI of a composite beam transformed into an equivalent cross-section (called the transformed section) of an imaginary beam composed of only one material.
Section Modulus of Steel Beam - (Measured in Cubic Meter) - Section Modulus of Steel Beam is a geometric property for a given cross-section used to design steel beams or flexural members.
STEP 1: Convert Input(s) to Base Unit
Maximum Stress: 2.18 Newton per Square Millimeter --> 2180000 Pascal (Check conversion here)
Live Load Moment: 115 Newton Millimeter --> 0.115 Newton Meter (Check conversion here)
Section Modulus of Transformed Section: 250 Cubic Millimeter --> 2.5E-07 Cubic Meter (Check conversion here)
Section Modulus of Steel Beam: 150 Cubic Millimeter --> 1.5E-07 Cubic Meter (Check conversion here)
STEP 2: Evaluate Formula
Substituting Input Values in Formula
MD = (σmax-(ML/ Str))*Ss --> (2180000-(0.115/ 2.5E-07))*1.5E-07
Evaluating ... ...
MD = 0.258
STEP 3: Convert Result to Output's Unit
0.258 Newton Meter -->258 Newton Millimeter (Check conversion here)
FINAL ANSWER
258 Newton Millimeter <-- Dead Load Moment
(Calculation completed in 00.004 seconds)

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13 Composite Construction in Buildings Calculators

Dead Load Moment given Maximum Unit Stress in Steel
Go Dead Load Moment = (Maximum Stress-(Live Load Moment/ Section Modulus of Transformed Section))*Section Modulus of Steel Beam
Live Load Moment given Maximum Unit Stress in Steel
Go Live Load Moment = (Maximum Stress-(Dead Load Moment/Section Modulus of Steel Beam)) *Section Modulus of Transformed Section
Maximum Unit Stress in Steel
Go Maximum Stress = (Dead Load Moment/Section Modulus of Steel Beam)+(Live Load Moment/Section Modulus of Transformed Section)
Dead Load Moment Given Maximum Stress in Bottom Flange
Go Dead Load Moment = (Maximum Stress*Section Modulus of Transformed Section)-Live Load Moment
Live Load Moment given Maximum Stress in Bottom Flange
Go Live Load Moment = (Maximum Stress*Section Modulus of Transformed Section)-Dead Load Moment
Maximum Stress in Bottom Flange
Go Maximum Stress = (Dead Load Moment+Live Load Moment)/Section Modulus of Transformed Section
Section Modulus of Transformed Composite Section given Maximum Stress in Bottom Flange
Go Section Modulus of Transformed Section = (Dead Load Moment+Live Load Moment)/Maximum Stress
Section Modulus of Steel Beam given Maximum Steel Stress as per AISC Specifications
Go Section Modulus of Steel Beam = (Dead Load Moment+Live Load Moment)/Maximum Stress
Dead Load Moment given Maximum Steel Stress as per AISC Specifications
Go Dead Load Moment = (Maximum Stress*Section Modulus of Steel Beam)-Live Load Moment
Live Load Moment given Maximum Steel Stress as per AISC Specifications
Go Live Load Moment = (Maximum Stress*Section Modulus of Steel Beam)-Dead Load Moment
Maximum Steel Stress as per AISC Specifications
Go Maximum Stress = (Dead Load Moment+Live Load Moment)/Section Modulus of Steel Beam
Yield Strength given Allowable Stress in Flange
Go Yield Stress of Steel = Allowable Bearing Stress/0.66
Allowable Stress in Flanges
Go Allowable Bearing Stress = 0.66*Yield Stress of Steel

Dead Load Moment given Maximum Unit Stress in Steel Formula

Dead Load Moment = (Maximum Stress-(Live Load Moment/ Section Modulus of Transformed Section))*Section Modulus of Steel Beam
MD = (σmax-(ML/ Str))*Ss

What is Maximum Stress?

The Maximum Stress can be defined as the maximum stress that the specimen can withstand is called the maximum strength of that particular material.

What is Live and Dead Loads?

The Dead Load is defined as the self-weight of the structural member whereas Live Load is defined as the weight of movable objects in the structural member.

How to Calculate Dead Load Moment given Maximum Unit Stress in Steel?

Dead Load Moment given Maximum Unit Stress in Steel calculator uses Dead Load Moment = (Maximum Stress-(Live Load Moment/ Section Modulus of Transformed Section))*Section Modulus of Steel Beam to calculate the Dead Load Moment, The Dead Load Moment given Maximum Unit Stress in Steel can be defined as the moment due to the self weight of the structural member. Dead Load Moment is denoted by MD symbol.

How to calculate Dead Load Moment given Maximum Unit Stress in Steel using this online calculator? To use this online calculator for Dead Load Moment given Maximum Unit Stress in Steel, enter Maximum Stress max), Live Load Moment (ML), Section Modulus of Transformed Section (Str) & Section Modulus of Steel Beam (Ss) and hit the calculate button. Here is how the Dead Load Moment given Maximum Unit Stress in Steel calculation can be explained with given input values -> 279000 = (2180000-(0.115/ 2.5E-07))*1.5E-07.

FAQ

What is Dead Load Moment given Maximum Unit Stress in Steel?
The Dead Load Moment given Maximum Unit Stress in Steel can be defined as the moment due to the self weight of the structural member and is represented as MD = (σmax-(ML/ Str))*Ss or Dead Load Moment = (Maximum Stress-(Live Load Moment/ Section Modulus of Transformed Section))*Section Modulus of Steel Beam. Maximum Stress is the stress that material or section withstands before its fracture, Live Load Moment is the moment generated due to live load acting to member, Section Modulus of Transformed Section is the MOI of a composite beam transformed into an equivalent cross-section (called the transformed section) of an imaginary beam composed of only one material & Section Modulus of Steel Beam is a geometric property for a given cross-section used to design steel beams or flexural members.
How to calculate Dead Load Moment given Maximum Unit Stress in Steel?
The Dead Load Moment given Maximum Unit Stress in Steel can be defined as the moment due to the self weight of the structural member is calculated using Dead Load Moment = (Maximum Stress-(Live Load Moment/ Section Modulus of Transformed Section))*Section Modulus of Steel Beam. To calculate Dead Load Moment given Maximum Unit Stress in Steel, you need Maximum Stress max), Live Load Moment (ML), Section Modulus of Transformed Section (Str) & Section Modulus of Steel Beam (Ss). With our tool, you need to enter the respective value for Maximum Stress, Live Load Moment, Section Modulus of Transformed Section & Section Modulus of Steel Beam 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 Dead Load Moment?
In this formula, Dead Load Moment uses Maximum Stress, Live Load Moment, Section Modulus of Transformed Section & Section Modulus of Steel Beam. We can use 2 other way(s) to calculate the same, which is/are as follows -
  • Dead Load Moment = (Maximum Stress*Section Modulus of Transformed Section)-Live Load Moment
  • Dead Load Moment = (Maximum Stress*Section Modulus of Steel Beam)-Live Load Moment
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