punching shear retrofit using gfrp shear · pdf fileintroduction |shear bolt reinforcement...
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PUNCHING SHEAR RETROFIT USING GFRP SHEAR BOLTSNicholas Lawler, B.A.Sc
Masters of Applied Science Seminar
University of Waterloo, Waterloo, Ontario
July 15th, 2008
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PRESENTATION OUTLINE
IntroductionResearch Program
Shear Bolt Reinforcement
Design of ReinforcementTesting ProgramResultsConslusionsFuture ConsiderationsQuestions?
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INTRODUCTION
Shear bolt reinforcementRetrofit method for existing, previously built, reinforced concrete flat slabs.
Bolts will prevent a brittle, punching shear (two-way shear) failure.
Provide ductility at failure
Can be applied at any time in the service life of a structure.
Bolts are anchored at each face of the slab surface.
“headed shear reinforcement” details are outlined in Clause 13.3.8 of the 2005 CAN/CSA concrete design manual.
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PRINCIPAL OF A SHEAR BOLT
Installation requires drilling of small holes through the slab, in a predetermined pattern.
Minimal prestressing is required, but bolts must be tight against the slab.
Bolts are not bonded to the slab.
Bolts intercept punching cone, and restrict it’s development as tension elements. Plan view
Stem
Washer and Nut
Head
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UW TESTING PROGRAM HISTORY
Researcher Year Support Condition
Bolt Type Loading
E.F. El-Salakawy 1998 Edge Steel Static
B. Adetifa 2003 Interior Steel Static
W. Bu 2007 Interior Steel Quasi-Static
N.D. Lawler 2008 Interior GFRP Quasi-static / static
Punching shear retrofit with headed shear studs (bolts) has been developed at UW.2008 research will focus on determining if a GFRP based bolt is feasible as punching shear reinforcement.
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DESIGN OF GFRP REINFORCEMENT
Tensile forces in shear bolts are caused by restraining expansion of the slab, due to punching cone formation.
By restraining this expansion, the connection can be strengthened.
Thus, development of the tensile stresses in the bolts through anchorage is critical.
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DESIGN OF GFRP REINFORCEMENTCRIMPING TECHNIQUE
In the hydroelectric industry high tension insulators with GFRP rods are ‘crimped’ to metal fittings.
Residual stresses transfer through the metal fittings, forming a high strength bond between two materials.
Using this principal, a technique and system was developed.
Pictures c/o K-Line Insulators
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Smooth GFRP rod core, with crimped ends (K-Line Type)Core rod from the hydro industry
REINFORCEMENT TYPES TESTED
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“SchöckComBAR” core rod, with crimped ends.RC composite reinforcement from Germany, just approved for use in Canada
Also make a headed stud, research is being done into adapting it for use in punching shear applications.
.
REINFORCEMENT TYPES TESTED
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REINFORCEMENT TYPES TESTED
“Strongwell Fibrebolt” an off the shelf product. Comprised of a complete composite nut and bolt system
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TEST RESULTS, QUASI-STATIC LOADING, INTERIOR CONNECTION 1500 x 1500 x 120 Slab (mm)200 x 200 x 700 Column (mm)Predermined cyclic loading pattern developed. Drift ratio ranges from 1% to 7%.One slab was tested with two openings as shown.Both reinforced with “K-Line” type bolts.
H
H
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HY
ST
ER
ES
IS P
LO
T –
CO
NT
RO
L S
LA
B V
S. S
N5
•Vert. Load = 160kN
•Same loading path
Control:
•Max. Load – 63kN
•Max. Disp. – 20mm
SN5:
•5 Rows of GFRP shear bolts
•Max. Load – 50kN
•Max. Disp. – 28mm
•No pinching, more energy is dissipated.
-80
-60
-40
-20
0
20
40
60
80
-40 -30 -20 -10 0 10 20 30 40
Displacement (mm)
Load
(kN
)
-80
-60
-40
-20
0
20
40
60
80
-40 -30 -20 -10 0 10 20 30 40
Displacement (mm)
Hor
izon
tal L
oad
(kN
)20kN @ 30mm
48kN @ 33mm
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HY
ST
ER
SIS
PL
OT
–C
ON
TR
OL
SL
AB
VS
. SN
6
•Vert. Load = 160kN
•Same loading path
•2-100mm openings, in the moment direction
Control:
•Max. Load – 45kN
•Max. Disp. – 10mm
SN5:
•6 Rows of GFRP shear bolts
•Max. Load – 35kN
•Max. Disp. – 18mm
•No pinching.
20kN @ 23mm
20kN @ 35mm
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TEST RESULTS, INTERIOR CONNECTION – STATIC LOADING
1500 x 1500 x 120 Slab (mm)150 x 150 x 150 Column (mm)Yield line theory predicts flexural strength capacity of 360kN.
CSA A23.3 predicts a punching shear capacity of control specimen of 220kN.
Simply supported edge
VOpening
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FO
RC
E V
S. D
ISP
LA
CE
ME
NT
PL
OT
S –
ST
AT
IC L
OA
DIN
G
SB1 (Control):
•Max. Load – 253kN
•Max. Disp. – 12mm
SB4:
•4 Rows of steel 3/8”shear bolts
•Max. Load – 350kN
•Max. Disp. – 28mm
SN1:
•4 Rows of Fibrebolts
•Max. Load – 199kN
•Max. Disp. – 23.6mm
SN2:
•4 Rows of K-Line Type
•Max. Load – 278kN
•Max. Disp. – 36mm
SN3 (Radial):
•4 Rows of K-Line Type
•Max. Load – 310kN
•Max. Disp. – 42mm
SN4:
•4 Rows of Schöck Type
•Max. Load – 332kN
•Max. Disp. – 36mm
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SN1: FAILURE OF FIBREBOLTS TO PROVIDE PUNCHING SHEAR (TENSILE) RESISTANCE
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SN2 & SN3: K-LINE TYPE BOLTS PROVIDE PUNCHING SHEAR STRENGTHENING
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SN4: RESULTS FROM SCHÖCK TYPE BOLTS
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CONCLUSIONSA GFRP tensile resisting element can be used to strengthen a slab-column connection for punching shear.
Anchorage and tightening of this element to the slab face is critical to it’s performance.
By allowing movement between cracks, more energy was dissipated under cyclic loading.
The field crimping process was found to be a feasible way to provide anchorage, provided the required tensile loads are low.
GFRP shear bolts provide connection ductility in both static and quasi-static loadings.
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RECOMMENDATIONS AND FUTURE WORKAfter more detailed development, slab-column connections could be retrofitted for punching shear strength with GFRP non-corrosive shear bolts.
A method for controlling the amount of energy dissipation under cyclic loading should be investigated.
Further study should be made into the crimping technique, making it more efficient.
The size of the aluminum head on one side needs to be reduced, to be almost flush with the slab face.
Study should be made into using the shear bolt retrofit technique for reinforcement after overloading events (earthquakes, structural failure) or abnormal loadings.
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QUESTIONS?Thank You!