S o f t w a r e     f o r     a u t o m a t i c     c r e a t i o n     o f     m o d e l s     u s i n g     p a r a m e t r i c     d a t a

  Steel Frame Bridges

Basis of Design & Documentations
ICDAS YouTube Channel   ICDAS SFB 2022.00R 



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Arch Bridge Model
Examples



Model description



Input



Geometry model



Analysis model



Landscape model



Basis of Design &

Documentations



Workflow of Software



Additional features



Rendering & Animation 



Case Study and 
Research



Subscription  
 

A. Projecting Documentation

A1. Bridge location


A2. Elements


A3. Principle of the bridge


A4. Partner relation


A5. Agreements


A6. Enclose and annex

 

 

 

B. Basis of Design

B1. Design background (Eurocodes)


B2. Materials

Concrete 40MPa

Reinforcement cover 50±5mm

 

B3. Loads on Bridge & Load Combinations


B4. Principle of limit states

Ultimate Limit States (ULS)

Serviceability Limit States (SLS)

Accidental Limit State (ALS)

Fatigue Limit States (FLS)

 news: MCB. ICDAS Basis of Design.jpg
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123456789_123456789_1123456789B5. Design Criteria ULS

 

   

ULS Load Combination


Maximum concrete compression stress sc < 0.70 fcd (for axial N dominant comb. cases)

Maximum concrete compression stress sc < 0.60 fcd (for bending M dominant comb. cases)
Maximum reinforcement tension stress ss < fyd

cf. Eurocode 2 Design of concrete structures DS/EN 1992-1-1+AC:2008

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123456789_123456789_1123456789B6. Design Criteria SLS

 

   

SLS Quasi Permanent Load Combination

For prestressing cables, no concrete tension stress from top to bottom

of deck cross section for section perpendicular to the cables
 
Concrete structure & reinforcement
Maximum upward vertical deformation uz < L/250 (quasi-permanent loading)
Maximum downward vertical deformation uz < L/500 (quasi-permanent loading)
cf. Eurocode 2 Design of concrete structures DS/EN 1992-1-1+AC:2008, p.126
 
Maximum concrete compression stress sc < 0.45 fck
cf. Eurocode 2 Design of concrete structures DS/EN 1992-1-1+AC:2008, p.118 
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SLS Frequent Load Combination


Crack in concrete (reinforcement verification)

Crack width wk<0.3mm for deck, wk<0.2mm for edge beams

cf. Eurocode 2 Design of concrete structures DS/EN 1992-1-1+AC:2008, p.119,123

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SLS Characteristic Load Combination


Road bridges

Criteria regarding deformation and vibration

cf. Eurocode Basis of structural design DS/EN 1990/A1, Annex A2 p.23


Railway bridges

Maximum vertical deformation uz < L/600 (characteristic vertical loading)

cf. Eurocode Basis of structural design DS/EN 1990/A1, Annex A2 p.27


Concrete structure & reinforcement

Maximum concrete compression stress sc < 0.60 fck

Maximum reinforcement tension stress ss < 0.80 fyk

cf. Eurocode 2 Design of concrete structures DS/EN 1992-1-1+AC:2008, p.118


Maximum cable tension stress sp < 0.75 ftk

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123456789_123456789_1123456789B7. Design Criteria ALS

 

123456789_123456789_1123456789B8. Design Criteria FLS

 

 

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C. Static Documentation


C1. Introduction


C2. Summary of results


C3. FEM model, construction phases & support conditions

 

C4. Loads on bridge & loads combinations


C5. Static analysis in ULS & SLS

 

      C5.1 Maximum reaction at foundation, ULS

      C5.2 Deflections control, ULS & SLS

      C5.3 Stress capacity verification, SLS Quasi

             (Here prestressed cables capacity verification if any)

      C5.4 Reinforcement capacity verificationULS & SLS

      C5.5 Concrete capacity verificationULS & SLS

      C5.6 Shear capacity verificationULS & SLS


C6. Static analysis in ALS & FLS


C7. Dynamic analysis

 

C8. Appendixes 

  

 

 

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D. Design Documentation

 

D1. 3D landscape & bridge geometry

D1.1 3D landscape overpass and underpass (corridors)

D1.2 3D bridge geometry in detail


D2. 2D section drawings 

D2.1 2D section drawings from 3D model (dimensions)

 

 

123456789_123456789_1123456789E. References

Vejledning til Belastnings - og beregningsgrundlag for vej- og stibroer Vejdirektoratet - Vejregelrådet, juli 2010
Lastmodeller for klassificering og bæreevnevurdering, Vejdirektoratet 1. Juni 2013

 

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