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DESIGN OF LARGE OPENINGS IN UNBONDED POST-TENSIONED PRECAST CONCRETE WALLS Michael G. Allen Yahya C. Kurama University of Notre Dame Notre Dame, IN PCI.

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Presentation on theme: "DESIGN OF LARGE OPENINGS IN UNBONDED POST-TENSIONED PRECAST CONCRETE WALLS Michael G. Allen Yahya C. Kurama University of Notre Dame Notre Dame, IN PCI."— Presentation transcript:

1 DESIGN OF LARGE OPENINGS IN UNBONDED POST-TENSIONED PRECAST CONCRETE WALLS Michael G. Allen Yahya C. Kurama University of Notre Dame Notre Dame, IN PCI Convention, Palm Springs, California, October 17-20, 1999

2 1998 PCI Daniel P. Jenny Research Fellowship University of Notre Dame

3 ELEVATION wall panel horizontal joint unbonded PT steel spiral reinforcement foundation anchorage

4 GAP OPENING BEHAVIOR gap

5 BASE PANEL compression stresses shear stresses

6 CRACKING 1 2 2 3 3 4 5 5 3

7 RESEARCH OBJECTIVES Develop analytical model Conduct parametric investigation Develop design approach

8 FINITE ELEMENT MODEL truss elements contact elements nonlinear plane stress elements

9 ABAQUS MODEL

10 GAP OPENING

11 ABAQUS VERSUS DRAIN base shear (kips) 0 0.511.522.5 500 1000 roof drift (%) DRAIN yielding state gap opening state ABAQUS

12 ABAQUS VERSUS DRAIN roof drift (%) contact length / wall length 0 0.511.5 2 2.5 0.5 1.0 ABAQUS DRAIN

13 CLOSED FORM VERIFICATION (Savin 1961) (INFINITE PANEL) f tx T C

14 ABAQUS VERSUS CLOSED FORM SOLUTION f tx (ksi) closed form (Savin 1961) ABAQUS 6.0 0 3.0 1.2 0.6 h o /l o lolo hoho

15 PARAMETRIC INVESTIGATION Wall length Initial concrete stress Opening size

16 WALL LENGTH 10 feet x 16 feet 15 feet x 16 feet 20 feet x 16 feet

17 INITIAL CONCRETE STRESS l p =20 feet C L f ci =1.48 ksi (high seismicity) f ci =0.67 ksi (medium seismicity) f ci =0.34 ksi (no seismicity)

18 OPENING SIZE lolo hoho h p =16 feet l p =20 feet hoho 2 feet (0.13 h p ) 4 feet (0.25 h p ) 6 feet (0.38 h p ) 8 feet (0.50 h p ) lolo 2 feet (0.10 l p ) 4 feet (0.20 l p ) 8 feet (0.40 l p ) 6 feet (0.30 l p ) 10 feet (0.50 l p )

19 STAGES OF RESPONSE Gravity and post-tensioning only Gap opening PT steel yielding Concrete crushing

20 UNDER GRAVITY AND POST-TENSIONING ONLY A sf or A sc

21 EFFECT OF f ci (l p =20 feet) A sf (in 2 ) 0 1.0 2.0 0.51.0 1.5 f ci h o /h p =0.125 h o /h p =0.25 h o /h p =0.375 l o /l p =0.3 lolo lplp hphp hoho

22 EFFECT OF f ci (l p =20 feet) A sf (in 2 ) 0 1.0 2.0 0.51.0 1.5 f ci l o /l p =0.1 l o /l p =0.2 l o /l p =0.4 l o /l p =0.3 h o /h p =0.25 lolo lplp hphp hoho

23 A sf (in 2 ) h o /h p 0 0.25 0.5 1.0 2.0 l p =20 feet l p =15 feet l p =10 feet EFFECT OF h o (f ci =0.68 ksi) l o /l p =0.3 lolo lplp hphp hoho

24 A sf (in 2 ) l o /l p 0 0.25 0.5 1.0 2.0 l p =20 feet l p =15 feet l p =10 feet EFFECT OF l o (f ci =0.68 ksi) h o /h p =0.25 lolo lplp hphp hoho

25 EFFECT OF f ci (l p =20 feet) 0 10 20 30 A sc (in 2 /ft) 0.51.0 1.5 f ci h o /h p =0.125 h o /h p =0.25 h o /h p =0.375 l o /l p =0.3 lolo lplp hphp hoho

26 EFFECT OF f ci (l p =20 feet) 0 10 20 30 A sc (in 2 /ft) 0.51.0 1.5 f ci l o /l p =0.1 l o /l p =0.2 l o /l p =0.4 l o /l p =0.3 h o /h p =0.25 lolo lplp hphp hoho

27 EFFECT OF h o (f ci =0.68 ksi) 0.5 h o /h p 0.25 A sc (in 2 /ft) 0 l p =20 feet l p =15 feet l p =10 feet 15 10 5 l o /l p =0.3 lolo lplp hphp hoho

28 A sc (in 2 /ft) l o /l p 0.25 0.5 0 5 10 15 h o /h p =0.25 l p =20 feet l p =15 feet l p =10 feet EFFECT OF l o (f ci =0.68 ksi) lolo lplp hphp hoho

29 DESIGN PREDICTION T C C

30 PREDICTED VERSUS ABAQUS (l p =20 feet) A sf (in 2 ) 0.51.0 1.5 0 1.0 2.0 f ci predicted ABAQUS l o /l p =0.3 h o /h p =0.25 lolo lplp hphp hoho

31 0 0.250.5 1.0 2.0 A sf (in 2 ) h o /h p l p =20 feet PREDICTED VERSUS ABAQUS (f ci =0.68 ksi) l o /l p =0.3 predicted ABAQUS lolo lplp hphp hoho

32 0 0.25 0.5 1.0 2.0 A sf (in 2 ) l o /l p l p =20 feet PREDICTED VERSUS ABAQUS (f ci =0.68 ksi) h o /h p =0.25 predicted ABAQUS lolo lplp hphp hoho

33 0 10 20 30 PREDICTED VERSUS ABAQUS (l p =20 feet) predicted ABAQUS 0.51.0 1.5 f ci l o /l p =0.3 h o /h p =0.25 A sc (in 2 /ft) lolo lplp hphp hoho

34 15 0 0.25 0.5 5 10 h o /h p l p =20 feet PREDICTED VERSUS ABAQUS (f ci =0.68 ksi) l o /l p =0.3 predicted ABAQUS lolo lplp hphp hoho

35 l o /l p A sc (in 2 /ft) 0.25 0.50 5 10 15 l p =20 feet PREDICTED VERSUS ABAQUS (f ci =0.68 ksi) h o /h p =0.25 predicted ABAQUS lolo lplp hphp hoho

36 02.04.0 h o /l o 1.0 l p =10 feet (f ci =0.68 ksi) l p =15 feet (f ci =0.44 ksi) l p =15 feet (f ci =0.68 ksi) l p =20 feet (f ci =0.68 ksi) l p =20 feet (f ci =1.48 ksi) l p =20 feet (f ci =0.67 ksi) l p =20 feet (f ci =0.34 ksi) 1.5 A sf (predicted/ABAQUS) ALL CASES 0.5

37 CONCLUSIONS Analytical Model ABAQUS model developed for walls with openings ABAQUS results compare well with DRAIN-2DX results and closed form results Parametric Investigation Gravity and post-tensioning loads only As f ci increases, steel requirement increases significantly As h o increases, steel requirement decreases, especially for longer walls As l o increases, steel requirement increases, especially for shorter walls

38 CONCLUSIONS Design Approach Utilizes a strut-and-tie model Can be used to predict the ABAQUS results; and To design the reinforcement above the openings –A sc to prevent cracking –A sf to minimize crack widths

39 REMAINING WORK Design for lateral loads Experimental verification (Lehigh Tests)

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