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FIRE ANALYSISof Steel Structures

according to EUROCODES

Includes worked

examples

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THE FIRST COURSE IN FIRE RESISTANT DESIGN

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FIRE ANALYSIS

Fire Resistance accordin

Nominal Tempera

- Time curves

Presented by

Structural Engineer

Primož Kvaternik, M.Eng

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THE FIRST COURSE IN

FIRE RESISTANT DESIG

http://www.grsoft.eu 

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OVERVIEW

• Thermal Action – Action of the fire on the structure defined in

the shape of time-temperature curve

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Nominal temperature-time curves

Nominal temperature-time curve – as it does not represent real fire, but insted the tempe

measured at previous fires.

10T 20 345 log (8t 1)

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OVERVIEW

• Thermal Action – Action of the fire on the structure defined in

the shape of time-temperature curve• Temperature of Steel Sections – Increased temperature in unprotected

protected steel sections as a result of fire exposure

The heat is transfered from the g

fire compartment to the surface

steel section or fire protection by

convection and radiation.

Convection &

Radiation

Conduction

d

Steel member

Insulation material

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OVERVIEW

• Thermal Action – Action of the fire on the structure defined in the shap

temperature curve – nominal fire curves• Temperature of Steel Sections – Increased temperature in unprotected

protected steel sections as a result of fire exposure

• Mechanical Loading – Load combinations for the Fire Limit States

, , 1 , 1,1 ,1 2 2, , fi d t j k j d k i i k i E G P A Q Q  

 Action 

Imposed loads in buildings 

1ψ 2ψ

Category A: domestic, residental areas  0,5  0,3 

Category B: office areas  0,5  0,3 

Category C: congregation areas  0,7   0,6 

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OVERVIEW

• Thermal Action – Action of the fire on the structure defined in the shap

temperature curve – nominal fire curves• Temperature of Steel Sections – Increased temperature in unprotected

protected steel sections as a result of fire exposure

• Mechanical Loading – Load combinations for the Fire Limit States

• Mechanical Analysis – Fire resistance of structural members, critical tem

0 500 1000

0.000

0.200

0.400

0.600

0.800

1.000

1.200

Yield st rength Young' s Modulus

,0

, , , ,

, ,

 y M 

 fi Rd y Rd y

 M fi M fi

 f   N k N Ak   

 

 

,   3.833

139.19 ln 1 482

0.9674d cr 

o

  

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OVERVIEW

• Thermal Action – Action of the fire on the structure defined in the shap

temperature curve – nominal fire curves• Temperature of Steel Sections – Increased temperature in unprotected

protected steel sections as a result of fire exposure

• Mechanical Loading – Load combinations for the Fire Limit States

• Mechanical Analysis – Fire resistance of structural members, critical tem

• Fire Protection of Steel Structures – Insulation materials applied as stee

encasement

Steel frame encased

with

insulationboards

Fire resistant paints 

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OVERVIEW

• Thermal Action – Action of the fire on the structure defined in the shap

temperature curve – nominal fire curves• Temperature of Steel Sections – Increased temperature in unprotected

protected steel sections as a result of fire exposure

• Mechanical Loading – Load combinations for the Fire Limit States

• Mechanical Analysis – Fire resistance of structural members, critical tem

• Fire Protection of Steel Structures – Insulation materials applied as stee

encasement• Worked Examples – Calculation of critical temperature and required fire

protection for typical structural elements of real structure

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OVERVIEW

• Thermal Action – Action of the fire on the structure defined in the shap

temperature curve – nominal fire curves• Temperature of Steel Sections – Increased temperature in unprotected

protected steel sections as a result of fire exposure

• Mechanical Loading – Load combinations for the Fire Limit States

• Mechanical Analysis – Fire resistance of structural members, critical tem

• Fire Protection of Steel Structures – Insulation materials applied as stee

encasement• Worked Examples – Calculation of critical temperature and required fire

protection

• Conclusions – Importance of critical temperature on nominal fire resista