the new frp materials for civil e structural a · 2013-06-11 · the new frp materials for civil...
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THE NEW FRP MATERIALS
FOR CIVIL ENGINEERING
STRUCTURAL APPLICATIONS
João Ramôa Correia
Instituto Superior Técnico / ICIST, Technical University of Lisbon
57th Meeting of the European Council of Civil Engineers (ECCE)
Ordem dos Engenheiros, Lisboa, 31/05/2013
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Development of Civil Engineering has been intimately
connected to innovation in structural materials
HISTORICAL CONTEXT
Development of mud bricks reinforced with straw (Mesopotamia)
• Reduction of construction to human scale
• Architecture with partition walls
THE NEW FRP MATERIALS FOR CIVIL ENGINEERING APPLICATIONS
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HISTORICAL CONTEXT
Development of cast iron, wrought iron and steel
• Decisive factor for industrial revolution
• Development of long span bridges
The Iron Bridge, Shropshire (1779-1781) Alcantara Bridge, Toledo
THE NEW FRP MATERIALS FOR CIVIL ENGINEERING APPLICATIONS
Development of Civil Engineering has been intimately
connected to innovation in structural materials
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HISTORICAL CONTEXT
Development of reinforced concrete:
• Rapid reconstruction after World War II
Lambot’s boat (1848) Hennebique system (1892)
Burj Dubai Tower
THE NEW FRP MATERIALS FOR CIVIL ENGINEERING APPLICATIONS
Development of Civil Engineering has been intimately
connected to innovation in structural materials
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• 5000 a.C. – Use of straw in the reinforcement of mud bricks to
reduce shrinkage cracks (Mesopotamia)
• 1940 – First structural applications of modern composites in
naval and aerospace industries
• 1950 – Introduction of composites in automotive and oil
industries
• 1960 – Development of advanced composites (defence
industries) and first applications in construction industry
Monsanto House of the Future Futuro House Icoshedron Classroom
OVERVIEW OF COMPOSITES DEVELOPMENT
THE NEW FRP MATERIALS FOR CIVIL ENGINEERING APPLICATIONS
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• 1970 – Effort to reduce manufacturing costs enables extension
to new markets (e.g. sports goods)
• 1980 and 1990s:
→ Technological development of manufacturing processes (e.g.
pultrusion)
→ Increasing need to rehabilitate civil infrastructure (limited
durability of traditional materials; increase of loads)
→ Requirement of increasing construction speed
Increasing acceptance from construction industry
→ High strength
→ Low self-weight
→ Durability
OVERVIEW OF COMPOSITES DEVELOPMENT
(Growing research
and pilot projects)
THE NEW FRP MATERIALS FOR CIVIL ENGINEERING APPLICATIONS
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OUTLINE
1. FIBRE REINFORCED POLYMER (FRP) MATERIALS
2. FRP MATERIALS IN CIVIL ENGINEERING APPLICATIONS
3. CURRENT RESEARCH PROJECTS AT IST
4. CONCLUDING REMARKS
THE NEW FRP MATERIALS FOR CIVIL ENGINEERING APPLICATIONS
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1. FIBRE REINFORCED
POLYMER (FRP) MATERIALS
THE NEW FRP MATERIALS FOR CIVIL ENGINEERING APPLICATIONS
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1. Fibre reinforcement
High resistance
Brittle behaviour
2. Polymeric matrix (resin + filler + additives)
Very low resistance
Load transfer and stress distribution between fibres
Protection of fibres from environmental agents
Keeping the fibres in position (and preventing their
buckling when compressed)
Fibre Reinforced Polymer (FRP) materials - 2 phases:
1.1. CONSTITUTION AND GENERAL PROPERTIES OF FRPS
1. FIBRE REINFORCED POLYMER (FRP) MATERIALS
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Property E - Glass Carbon Aramid
Strength [MPa] 2350 - 4600 2600 - 3600 2800 - 4100
Elasticity modulus [GPa] 73 - 88 200 - 400 70 - 190
Strain at failure [%] 2.5 - 4.5 0.6 - 1.5 2.0 - 4.0
Density [g/cm3] 2.6 1.7 - 1.9 1.4
Properties and forms of reinforcing fibres
Rovings Mats, fabrics
1. FIBRE REINFORCED POLYMER (FRP) MATERIALS
• Rovings (or tows) - bundles of continuous filaments
• Mats (mats, veils, fabrics) with short or continuous filaments,
randomly oriented or oriented, woven or non-woven
1.1. CONSTITUTION AND GENERAL PROPERTIES OF FRPS
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Polymer
resins
Thermoset (polyester, vinylester, epoxy)
Thermoplastic (polyethylene, polypropylene)
Property Polyester Vinylester Epoxy
Strength [MPa] 20 - 70 68 - 82 60 - 80
Elasticity modulus [GPa] 2 - 3 3.5 2 - 4
Strain at failure [%] 1 - 5 3 - 4 1 - 8
Density [g/cm3] 1.2 - 1.3 1.12 - 1.16 1.2 - 1.3
Glass transition
temperature [ºC] 70 - 120 102 - 150 100 - 270
1. FIBRE REINFORCED POLYMER (FRP) MATERIALS
Properties of polymeric matrixes
1.1. CONSTITUTION AND GENERAL PROPERTIES OF FRPS
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• Pultrusion
• Hand layup
• Filament winding
• Centrifugation
• Resin transfer moulding (RTM)
• Resin infusion moulding (RIM)
• Compression moulding
• Vacuum assisted resin transfer moulding (VARTM)
• Vacuum infusion
1. FIBRE REINFORCED POLYMER (FRP) MATERIALS
1.2 MANUFACTURING PROCESSES FOR FRP MATERIALS
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Phase 1: Impregnation of glass fibres by liquid resin inside a
heated mould, with the shape of the cross-section to be produced
Phase 2: Curing/solidification of the resin matrix inside the
mould, resulting in a profile with the intended cross-section
Pultrusion
1. FIBRE REINFORCED POLYMER (FRP) MATERIALS
1.2 MANUFACTURING PROCESSES FOR FRP MATERIALS
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S&P
Hand layup in a moulding table of a GFRP laminate
Moulding of CFRP sheets over reinforced concrete elements
1. FIBRE REINFORCED POLYMER (FRP) MATERIALS
Hand layup
Consecutive application of layers of fibre reinforcement and
subsequent impregnation by the polymeric matrix, which cures
(i) in a mould or (ii) over a member to be strengthened
1.2 MANUFACTURING PROCESSES FOR FRP MATERIALS
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Diversity of fibre reinforcement
(type, orientation, position, content)
Variety of polymers as matrix
Additives and fillers in the matrix (specific properties)
Depending on the specific application requirements, it is
possible to combine:
Several
manufacturing
processes
Hybrid profile
(C and G fibres)
Strongwelll
1.3. PHILOSOPHY IN FRP DEVELOPMENT
1. FIBRE REINFORCED POLYMER (FRP) MATERIALS
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2. FRP MATERIALS FOR CIVIL
ENGINEERING APPLICATIONS
THE NEW FRP MATERIALS FOR CIVIL ENGINEERING APPLICATIONS
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2.1. STRUCTURAL APPLICATION OF FRP MATERIALS
Internal
reinforcement of
RC structures
External
strengthening of
RC structures
Fully-
composite
structures
FRP laminates
and sheets
FRP profiles and panels
2. FRP MATERIALS FOR CIVIL ENGINEERING APPLICATIONS
FRP rebars
Field of application of FRP materials
Hybrid
structures (with
traditional)
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2.2. FRP REBARS – GEOMETRY AND PROPERTIES
ACI Schöeck
• Constitution: polymer matrix (vinylester) and rovings (axial fibre
reinforcement)
• Available diameters: 6 to 36 mm
• Surface finishing: a) ribbed;
b) sand coating; c) exterior wound fibres
and sand coating
• Geometry: a) straight; b) with anchorage
heads; and bent c) in U or d) hooked
2. FRP MATERIALS FOR CIVIL ENGINEERING APPLICATIONS
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Property GFRP CFRP AFRP
Density [g/cm3] 1,25 - 2,10 1,50 - 1,60 1,25 - 1,40
Fibre content [%] 50 - 60 50 – 60 -
Thermal expansion
coefficient [×10-6/ºC]
Axial 6,0 - 10,0 -9,0 a 0,0 -6,0 a -2,0
Transversal 21,0 - 23,0 74,0 - 104,0 60,0 - 80,0
Axial tensile strength [MPa] 483 - 1600 600 - 3690 1720 - 2540
Axial elasiticity modulus [GPa] 35 - 60 120 - 580 41 - 125
Axial strain at failure [%] 1,2 - 3,1 0,5 - 1,7 1,9 - 4,4
ACI Schöeck
2. FRP MATERIALS FOR CIVIL ENGINEERING APPLICATIONS
2.2. FRP REBARS – GEOMETRY AND PROPERTIES
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Reinforcement of bridge deck Aquaculture (Acuinova, Mira)
Repair of maritime structures, dock and pier
2.2. FRP REBARS – APPLICATIONS
2. FRP MATERIALS FOR CIVIL ENGINEERING APPLICATIONS
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• FIB (2007): Fib Bulletin 40 - FRP reinforcement in RC structures
• ACI (2006): ACI 440.1R-06 - Guide for the Design and
Construction of Structural Concrete Reinforced with FRP Bars
• CNR-DT (2007): Guide for the Design and Construction of Concrete
Structures Reinforced with Fiber-Reinforced Polymer Bars
2.2. FRP REBARS – DESIGN GUIDELINES
2. FRP MATERIALS FOR CIVIL ENGINEERING APPLICATIONS
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2.3. FRP STRENGTHENING SYSTEMS - TYPOLOGIES
• Laminates: unidirectional precured (carbon) fibre strips,
adhesively bonded with epoxy adhesive.
• Sheets: uni/multi-directional mats of continuous (carbon)
fibres, moulded and cured in situ, impregnated and bonded
with an epoxy matrix.
CFRP sheets CFRP laminates
Bettor Bettor
2. FRP MATERIALS FOR CIVIL ENGINEERING APPLICATIONS
NOTE: There are also rebars and cables/tendons
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Laminates:
- E = 165 to 300 GPa
- su = 1500 to 3000 MPa
- eu = 0,5 a 1,7%
Sheets:
- E = 240 to 640 GPa (typically, 240 to 300 GPa)
- su = 2500 to 3000 MPa
- eu = 0,4 a 1,55 %
2.3. FRP STRENGTHENING SYSTEMS - PROPERTIES
2. FRP MATERIALS FOR CIVIL ENGINEERING APPLICATIONS
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Flexural strengthening of beams and slabs
Shear strengthening
of beam
Column strengthening
(confinement)
2.3. FRP STRENGTHENING SYSTEMS - APPLICATIONS
Flexural and shear
strengthening of beam
2. FRP MATERIALS FOR CIVIL ENGINEERING APPLICATIONS
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• FIB (2001): Externally bonded FRP reinforcement for RC structures
• ACI (2008): ACI 440.2R-08 - Guide for the Design and Construction of
Externally Bonded FRP Systems for Strengthening Concrete Structures
• CNR-DT (2004): Guide for the Design and Construction of Externally
Bonded FRP Systems for Strengthening Existing Structures
2.3. FRP STRENGTHENING SYSTEMS - GUIDELINES
2. FRP MATERIALS FOR CIVIL ENGINEERING APPLICATIONS
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First generation profiles
Thin-walled cross-sections
mimicking metallic construction
• High deformability
• Susceptibility to instability
phenomena under compression
First generation profiles
2.4. FRP PROFILES – GEOMETRIES AND CONSTITUTION
Fiberline
Limited exploitation of
material potential
2. FRP MATERIALS FOR CIVIL ENGINEERING APPLICATIONS
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• Panel-to-panel connection:
adhesive bonding or snap-fit
• Panel-to-girder connection:
bolting/bonding
Lightness
Quick installation
High durability
Low maintenance
New generation profiles
Multi-cellular deck panels for new
construction or rehabilitation
2. FRP MATERIALS FOR CIVIL ENGINEERING APPLICATIONS
2.4. FRP PROFILES – GEOMETRIES AND CONSTITUTION
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• Fibre reinforcement:
- Rovings - bundles of longitudinal
continuous fibres
- Mats - (non-)woven chopped or
continuous fibres in several directions
- Surface veil with randomly oriented
chopped fibres
• Polymeric matrix:
- Resin (polyester, vinylester, epoxy)
- Fillers
- Additives
2. FRP MATERIALS FOR CIVIL ENGINEERING APPLICATIONS
2.4. FRP PROFILES – GEOMETRIES AND CONSTITUTION
Fibre architecture of a laminate
Veil
Rovings
Mat
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Mat
Rovings
High resolution microscopy
of a flange laminate
2. FRP MATERIALS FOR CIVIL ENGINEERING APPLICATIONS
2.4. FRP PROFILES – GEOMETRIES AND CONSTITUTION
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Linear elastic behaviour up to failure (no ductility!)
Orthotropic behaviour
High longitudinal strength (similar to steel)
Low elasticity (10-20% of steel) and shear moduli
Low density (20-25% of steel)
2. FRP MATERIALS FOR CIVIL ENGINEERING APPLICATIONS
2.4. FRP PROFILES – PROPERTIES (GFRP)
Property Longitudinal Transverse
Tensile/compressive strength [MPa] 200 - 400 50 - 60
Shear strength [MPa] 20 - 30
Elasticity modulus [GPa] 20 - 40 5 - 9
Shear modulus [GPa] 3 - 4
Density [g/cm3] 1.8 - 1.9
Fibre content [%] 50 - 70
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Eyecatcher building (5 storeys),
Basel, Switzerland
Kolding Bridge,
Denmark
New construction
2. FRP MATERIALS FOR CIVIL ENGINEERING APPLICATIONS
2.4. FRP PROFILES – APPLICATIONS
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Rehabilitation of timber floors
Rehabilitation
2. FRP MATERIALS FOR CIVIL ENGINEERING APPLICATIONS
2.4. FRP PROFILES – APPLICATIONS
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There is still no specific official regulation
Design often based on manufacturers manuals – design tables
(information provided limited)
EN 13706 (2002), “Reinforced plastics composites –
Specifications for pultruded profiles” - 2 material classes,
specifications for minimum material properties and tests
Strongwell Fiberline Composites Creative Pultrusions EN 13706
2.4. FRP PROFILES – DESIGN GUIDELINES
2. FRP MATERIALS FOR CIVIL ENGINEERING APPLICATIONS
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Hardcore system
Kansas system
• FRP outer skins - thin, stiff, resistant
• Core - thick, light, more flexible,
less resistant (rigid foam,
balsa wood, etc.)
• Adhesive
2.5. FRP SANDWICH PANELS – CONSTITUTION
2. FRP MATERIALS FOR CIVIL ENGINEERING APPLICATIONS
Commercial systems
FRP sheet
FRP sheet
Adhesive
Core
Sandwich panel
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3. CURRENT RESEARCH
PROJECTS AT IST
THE NEW FRP MATERIALS FOR CIVIL ENGINEERING APPLICATIONS
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36/50 1 Matos et al. (2012), Composite Structures
3. CURRENT RESEARCH PROJECTS AT IST
3.1. STRUCTURAL BEHAVIOUR OF GFRP-RC BEAMS 1
Flexural tests on 2-span beams
R – reference beam (steel reinforced);
Rb-1 – GFRP reinforced beam with concrete
confinement in critical cross-sections
Load vs. deflection curves
FEM in commercial package ATENA (non-linear analyses, cracking/crushing)
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0
10
20
30
40
50
60
70
0 20 40 60 80 100 120
Failu
re lo
ad [
kN]
Temperature [°C]
0
10
20
30
40
50
60
70
0 20 40 60 80 100 120
Failu
re lo
ad [
kN]
Temperature [°C]
EBR specimen NSM specimen
3.2. FIRE BEHAVIOUR OF CFRP-STRENGTHENED RC 2,3
CFRP-concrete bond tests at elevated temperature
EBR – externally bonded reinforcement
NSM – near surface mounted 2 Firmo et al. (2012), Composites Part B: Engineering 3 López et al. (2013), Construction and Building Materials
EBR specimens
NSM specimens
3. CURRENT RESEARCH PROJECTS AT IST
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3.2. FIRE BEHAVIOUR OF CFRP-STRENGTHENED RC 2,3
2 Firmo et al. (2012), Composites Part B: Engineering 3 López et al. (2013), Construction and Building Materials
Fire resistance tests in CFRP-strengthened beams (ISO 834)
Different fire protection systems (thick insulation at the anchorage zones)
Displacement increase vs. time
Failure of beam CFRP (unprotected)
3. CURRENT RESEARCH PROJECTS AT IST
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39/50 4 Correia et al. (2013), Composite Structures
Shear tests on GFRP laminates
(20-250ºC)
5 Correia et al. (2012), Composites Part B: Engineering
3. CURRENT RESEARCH PROJECTS AT IST
3.3. FIRE BEHAVIOUR OF GFRP PULTRUDED PROFILES 4,5
Fire resistance tests in GFRP profiles (ISO 834)
WC
CS, VP, I
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Flexural test on GFRP panel
Cross-section and functioning principle
of snap-fit GFRP panels
Pedestrian bridge project (Feira de S. Mateus, Viseu)
3. CURRENT RESEARCH PROJECTS AT IST
3.4. BEHAVIOUR OF GFRP SNAP-FIT BRIDGE PANELS
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41/50 Pedestrian bridge project (Feira de S. Mateus, Viseu)
3. CURRENT RESEARCH PROJECTS AT IST
3.4. BEHAVIOUR OF GFRP SNAP-FIT BRIDGE PANELS
Flexural test on GFRP panel
Cross-section and functioning principle
of snap-fit GFRP panels
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42/50 Small-scale pedestrian bridge prototype (6.0 m long)
3. CURRENT RESEARCH PROJECTS AT IST
3.5. DEVELOPMENT OF GFRP-CONCRETE BRIDGES
Geometry of the GFRP-SFRSCC cross-section
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Modal identification tests
3. CURRENT RESEARCH PROJECTS AT IST
3.5. DEVELOPMENT OF GFRP-CONCRETE BRIDGES
Pedestrian comfort dynamic tests and FE modelling
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Flexural tests up to failure (Fu ~ 240 kN)
3. CURRENT RESEARCH PROJECTS AT IST
3.5. DEVELOPMENT OF GFRP-CONCRETE BRIDGES 6,7
6 Gonilha et al. (2013), Composite Structures
7 Gonilha et al. (2013), Composites Part B: Engineering
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3. CURRENT RESEARCH PROJECTS AT IST
3.5. DEVELOPMENT OF GFRP-CONCRETE BRIDGES
Full-scale pedestrian bridge prototype (11.0 m long) – construction and load tests
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Material characterisation tests
(GFRP laminates, PU and PET foams, balsa, PP honeycomb cores)
Load vs. deflection behaviour
Flexural tests in full-scale panels
(different cores / lateral ribs)
3. CURRENT RESEARCH PROJECTS AT IST
3.6. DEVELOPMENT OF GFRP SANDWICH PANELS8
8 Correia et al. (2012), International Journal of Structural Integrity
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9 Correia et al. (2012), Composite Structures
10 Valarinho et al. (2013), Construction and Building Materials
3. CURRENT RESEARCH PROJECTS AT IST
3.7. STRUCTURAL GLASS 9,10
Glass-GFRP hybrid beam – EP adhesive Glass-GFRP hybrid beam – PU adhesive
Experimental and numerical axial strains throughout midspan section
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4. CONCLUDING REMARKS
THE NEW FRP MATERIALS FOR CIVIL ENGINEERING APPLICATIONS
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CONCLUDING REMARKS
• The development of Civil Engineering has been intimately
connected to the innovation in structural materials
• FRP composites are promising materials, presenting several
advantages over traditional materials for both new construction
and rehabilitation: strength, lightness, ease of application,
durability under aggressive environments and low maintenance
• CFRP strengthening systems are an already well-established
“standard” solution for RC strengthening, with several
advantages over alternative techniques
• The limitations of other FRP materials are the motivation for
seeking “material adapted” structural solutions, the main goal
of the ongoing research projects at IST
THE NEW FRP MATERIALS FOR CIVIL ENGINEERING APPLICATIONS
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THANK YOU!