Structural Modelling using Etabs 2018

 

Aim:- To model and analyze the G+7 residential building from the given architectural drawings using the ETABS 2018.

Introduction:-

• ETABS is an engineering software product that caters to multi-story building analysis and design.
• Modeling tools and templates, code-based load prescriptions, analysis methods and solution techniques, all coordinate with the grid-like geometry unique to this class of structure.
• Basic or advanced systems under static or dynamic conditions may be evaluated using ETABS
• ETABS modeling is the generalization that multi-story buildings typically consist of identical or similar floor plans that repeat in the vertical direction.
• Modeling features that streamline analytical-model generation, and simulate advanced seismic systems.
• Once modeling is complete, ETABS automatically generates and assigns code-based loading conditions for gravity, seismic, wind, and thermal forces.

Procedure:-

Step:-1

• First we have to open the etabs software.
• Next click on the file option at the left side top corner and select the new model, as shown below.
• After selecting the new model the new tab opens, in that tab we have to select 'Use Built-in Settings with' option, as shown below.

• After setting the model Initialization the templates tab will opens and, select the Grid only and press ok.
• Next we need to do the settings in Grid system data, as shown below.

• Set the storey total of parking(1.5m,3+0.5 for column extends below the soil depending on strantion pentration test results)+7th floor(3m) and mumpty (2.5).

• Next we need to define option and select material properties.
• After selecting the material properties the new tab appears, then we add new materials by selecting the Add new material option.

• Go to add new material property option for M25 concrete. The properties of M25 as per IS code defined before gets displayed.

• Now we need to add new material type as rebar and grade as HYSD Grade 415.
• Next we need to check the material property data, as shown below.

• Now we need to add new material type as rebar and grade as HYSD Grade 500.
• Next we need to check the material property data, as shown below.

• Now we need to select the section properties and click on the frame sections.
• After selecting the frame sections the new tab will be visible, in that we need to select the Add New Property.
• After selecting the Add New Property, the new tab appears.
• In that new tab we select the Rectangular shape type in concrete.
• Next the frame section property data will be visible, In that we add beam size as B400x500, as shown below.
• Next we need to select the Modify/Show Rebar option as shown below.
• 
• After selecting the Modify/Show Rebar option the new tab appears, In that we select the design type as M3 Design only (Beam).
• Next we select longitudinal bars with the grade of HYSD500.
• Next we select Confinement bars with the grade of HYSD415.

 

• Again we have to select Rectangular shape type in concrete.
• Next the frame section property data will be visible, In that we add column size as B400x400, as shown below.
• Next we need to select the Modify/Show Rebar option as shown below.

 

• After selecting the Modify/Show Rebar option the new tab appears, In that we select the design type as P-M2-M3 Design only (Column).
• Next we select longitudinal bars with the grade of HYSD500.
• Next we select Confinement bars with the grade of HYSD415.

• Again we have to add the another column size as 450X600 in the frame section property data, as shown below.

• Next we select the slab section option from the section properties.
• Next the slab properties tab will be vissible, In that we select the Modify/Show Property option, as shown below.

• 

• After selecting the Modify/Show Property option, the new tab appears.
• In that we need to put the slab name as Slab 125, it means slab with the thickness of 125mm.
• And we take the concrete grade as M25.
• Next we have to click the ok option.
• Now we take the slab thickness separately for staircase with the thickness of 200mm, as shown below.

• Next we have to add the wall properties in the wall property data, as shown below.

• Next we need to add the columns using the Quick draw columns option, as shown below.

• Next we need to add the beams using the Quick draw beams option, as shown below.

• Next we need to add the secondary beams using the Quick draw beams option, as shown below.

 

• Next we add the shear walls in required locations in the residential building, as shown below.

• Next we need to add the slabs using the Quick draw floor/wall option, as shown below.

• Now we go to the base plan and select all base joints.
• Next we select the Restraints from joint option, as shown below.

• Now we need to select the fixed joint and click on apply and then click on close button, as shown below.

• Next we need to select the load patterns from the define option, as shown below.

• Now we should add Dead load, live load, Brickwall load, and earthquake load, as shown below.

• Next we need to select the distributed load from the frame loads, as shown below.

• Then after the new tab will appear, In that we select load pattern as Brickwall, and we take uniform load as 3.5 kN/m and then
  click on the apply button and close.

• Next we have to click on the assign option and then select shell loads, from the shell loads we select the Uniform option, as
  shown below.

• Here we apply 3 KN the live load for the staircase portion area.

• Next we apply the 2KN live load for the remaining portions in the residential building, as shown below..

• Next we have to select live load reduction factors from the design option, as shown below.

• Now we add the reduction factor by decreasing 10% from 1st floor to 7th floor, as shown below.

• Next, from the define option we select the mass source, as shown below

• Next we add the load patterns in the Mass Source Data, as shown below.

• In the select option we select object type option, as shown below.

• After selecting the object type option, the new tab will be visible, In that select the floors and click on the select button and close.

• Next we have to select the Diaphragms from the shell option, as shown below.

• After selecting the diaphragms the new tab will appear, in that select D1 and click on the apply button and close.

• Next we have to select the Pier label from the shell option, as shown below.

• Before going to the shear wall design we have to assign the names for the shear walls(P1,P2,P3,P4,P5,P6,P7,P8,P9,P10,P11,P12), as shown below.

• Next, from the define option we select the load combinations.
• After selecting the load combinations the new tab is visible, In that we select 'Add Default Design Combos' option.
• Next we select "concrete frame design" & "concrete shear wall design" in the 'Add Default Design Combinations', as shown below.

 

 

• Now we can see here that the load combinations are visible, as shown below.

• Next we select the Modal cases from the Define option, as shown below.

• After selecting the Modal cases the new tab is visible, In that we give modal case name as Modal 1 & we give the maximum
  number of modes as 20, as shown below.

• Next we have to check the model by clicking the check model option, as shown below.

• After the model is checked, then the warning tab will be visible and it tells that there is no warning messages, as shown below.

• Now we select the Response spectrum from the Functions from define option, as shown below.

• After selecting the Respnse spectrum the new tab is visible, In that we choose IS 1893 2016 from the 'Choose function type' and
  click on the Modify/Show spectrum option, as shown below.

• After selecting the modify/show spectrum option the new tab will be visible, In that we give the Function name as 'IS FUNCTION'
  and remaining details will be set by the software itself,we don't need to change any of the details in that response spectrum
  function tab, as shown below.

• Next we have to select the Load cases from the Define option, as shown below.

• Next the Load cases tab will be visible, In that we select the 'Add new case', as shown below.
• Now we have to enter the details of load case in the 'Load case data', as shown below.

• Now we have to do the run analysis, as shown below.

 

• Next, from the display option we select the show tables option, as shown below.

• After selecting the show tables option the new tab will be visible.
• Now we select the Base Reactions and click on the ok button, as shown below.
• Next the Base Reactions table will be visible, as shown below.
• Here we have to check that EQ should be closer to the RS, to get the closer to each other we should calculate that, Scale
  factor of Response spectrum.
• Now substituting the values from the table, at X-direction (2844.6348/900.7656) x (9806.65) , at Y-direction (2844.6348/1002.1982) x (9806.65)
  
  

• At X-direction we get, 30969.6
• At Y-direction we get, 27835.15
• We put the above values as scale factor for response spectrum at X and Y directions in the load case data.
• after we enter these values for response spectrum as scale factors at X and Y directions in load case data, then the EQ is closer
  to the RS from the base reaction table, as shown below.

• Next, from the display option we select the show tables option, as shown below.

 

• After selecting the show tables option the new tab will be visible.
• Now we select the Modal Participating Mass Ratios and click on the ok button, as shown below.

Step:-32

• Next we select the Story response plots from the Display option, as shown below.

• The story response for maximum story drifts at X & Y directions, should not be more than 4%.

• Next we open the select plan view tab and select the base floor, as shown below.

• Next we have to open the reactions tab, then we select the eartquake load towards X-direction(EQX) in the load case, then clickon the ok buttion as shown below.

• Now the base shear reactions will appear, as shown below.
• When we divide the base shear taken up by the shear wall divided by the total base shear of building will get the % of the shear forces taken up by the shear wall.
• And if that is less than 80%, then the more shear walls we need to add to the structure.

 

RESULT:-
The G+7 residential building has been modelled and analyzed successfully using the ETABS 2018.