dr. nagy-gyÖrgy tamás concre… · dr.ing. nagy-györgy t. faculty of civil engineering 3...
TRANSCRIPT
![Page 1: Dr. NAGY-GYÖRGY Tamás Concre… · Dr.ing. Nagy-György T. Faculty of Civil Engineering 3 Reinforced Concrete I. / Beton Armat I. Concrete is a composite material composed of: -](https://reader033.vdocuments.us/reader033/viewer/2022053117/609844831755a67cf37206b4/html5/thumbnails/1.jpg)
Dr. NAGY-GYÖRGY TamásProfessor
E-mail: [email protected]
Tel:+40 256 403 935
Web:http://www.ct.upt.ro/users/TamasNagyGyorgy/index.htm
Office:A219
Faculty of Civil EngineeringDr.ing. Nagy-György T.
Reinforced Concrete I. / Beton Armat I.
![Page 2: Dr. NAGY-GYÖRGY Tamás Concre… · Dr.ing. Nagy-György T. Faculty of Civil Engineering 3 Reinforced Concrete I. / Beton Armat I. Concrete is a composite material composed of: -](https://reader033.vdocuments.us/reader033/viewer/2022053117/609844831755a67cf37206b4/html5/thumbnails/2.jpg)
Faculty of Civil EngineeringDr.ing. Nagy-György T. 2
Reinforced Concrete I. / Beton Armat I.
2.1 CONCRETE STRUCTURE
2.2 TYPES OF CONCERTE
2.3 CONCRETE STRENGTH
2.4 CONCRETE DEFORMATIONS
![Page 3: Dr. NAGY-GYÖRGY Tamás Concre… · Dr.ing. Nagy-György T. Faculty of Civil Engineering 3 Reinforced Concrete I. / Beton Armat I. Concrete is a composite material composed of: -](https://reader033.vdocuments.us/reader033/viewer/2022053117/609844831755a67cf37206b4/html5/thumbnails/3.jpg)
Faculty of Civil EngineeringDr.ing. Nagy-György T. 3
Reinforced Concrete I. / Beton Armat I.
Concrete is a composite material composed of:- aggregates natural Gravel pit or quarries
artificial slag / expanded clay/ recycled
Gravel pit (balastieră)
Quarry (carieră)
Obs: - Higher aggregates provides density and strength - The fine part (sand) fill the gaps between large aggregates and increase the cement binder’s strength
![Page 4: Dr. NAGY-GYÖRGY Tamás Concre… · Dr.ing. Nagy-György T. Faculty of Civil Engineering 3 Reinforced Concrete I. / Beton Armat I. Concrete is a composite material composed of: -](https://reader033.vdocuments.us/reader033/viewer/2022053117/609844831755a67cf37206b4/html5/thumbnails/4.jpg)
Faculty of Civil EngineeringDr.ing. Nagy-György T. 4
Reinforced Concrete I. / Beton Armat I.
Gravel pit aggregates quarry aggregates
![Page 5: Dr. NAGY-GYÖRGY Tamás Concre… · Dr.ing. Nagy-György T. Faculty of Civil Engineering 3 Reinforced Concrete I. / Beton Armat I. Concrete is a composite material composed of: -](https://reader033.vdocuments.us/reader033/viewer/2022053117/609844831755a67cf37206b4/html5/thumbnails/5.jpg)
Faculty of Civil EngineeringDr.ing. Nagy-György T. 5
Reinforced Concrete I. / Beton Armat I.
Concrete is a composite material composed of:- aggregates natural Gravel pit or quarries
artificial slag / expanded clay/ … recycled
slag / expanded clay
aggregate from expanded glass
![Page 6: Dr. NAGY-GYÖRGY Tamás Concre… · Dr.ing. Nagy-György T. Faculty of Civil Engineering 3 Reinforced Concrete I. / Beton Armat I. Concrete is a composite material composed of: -](https://reader033.vdocuments.us/reader033/viewer/2022053117/609844831755a67cf37206b4/html5/thumbnails/6.jpg)
Faculty of Civil EngineeringDr.ing. Nagy-György T. 6
Reinforced Concrete I. / Beton Armat I.
Concrete is a composite material composed of:- aggregates natural Gravel pit or quarries
artificial slag / expanded clay/ … recycled
”In Japan, recycling rate of concrete debris was 96% in 2000…”Koji SAKAI, Prof. of Kagawa University, Japan
![Page 7: Dr. NAGY-GYÖRGY Tamás Concre… · Dr.ing. Nagy-György T. Faculty of Civil Engineering 3 Reinforced Concrete I. / Beton Armat I. Concrete is a composite material composed of: -](https://reader033.vdocuments.us/reader033/viewer/2022053117/609844831755a67cf37206b4/html5/thumbnails/7.jpg)
Faculty of Civil EngineeringDr.ing. Nagy-György T. 7
Reinforced Concrete I. / Beton Armat I.
Concrete is a composite material composed of:- cement CEM I Portland cement (ordinary)
CEM II Portland composite cement CEM III Blast furnace slag cement CEM IV Pozzolanic cement CEM V Composite cement
H hydrotechnical cement SR sulfate resistant cement II A white cement with additives PR/PG/PV cement with red/yellow/green color
![Page 8: Dr. NAGY-GYÖRGY Tamás Concre… · Dr.ing. Nagy-György T. Faculty of Civil Engineering 3 Reinforced Concrete I. / Beton Armat I. Concrete is a composite material composed of: -](https://reader033.vdocuments.us/reader033/viewer/2022053117/609844831755a67cf37206b4/html5/thumbnails/8.jpg)
Faculty of Civil EngineeringDr.ing. Nagy-György T. 8
Reinforced Concrete I. / Beton Armat I.
Concrete is a composite material composed of:- water
- chemical admixtures (aditivi)Water-reducing admixtures (strength) Retarding admixtures (summer) Accelerating admixtures (winter) Superplasticizers (consistency) Corrosion-inhibiting admixtures for impermeability air-entraining (microporosity)
Voids ↗ absorb the pressure created by the expansion of the freezing water
![Page 9: Dr. NAGY-GYÖRGY Tamás Concre… · Dr.ing. Nagy-György T. Faculty of Civil Engineering 3 Reinforced Concrete I. / Beton Armat I. Concrete is a composite material composed of: -](https://reader033.vdocuments.us/reader033/viewer/2022053117/609844831755a67cf37206b4/html5/thumbnails/9.jpg)
Faculty of Civil EngineeringDr.ing. Nagy-György T. 9
Reinforced Concrete I. / Beton Armat I.
Concrete is a composite material composed of:- mineral admixtures (adaosuri)
Granulated blast furnace slag S Natural pozzolana P Natural calcined pozzolana Q Siliceous fly ash V Calcareous fly ash W Burnt shale T Limestone L, LL Silica fume D
![Page 10: Dr. NAGY-GYÖRGY Tamás Concre… · Dr.ing. Nagy-György T. Faculty of Civil Engineering 3 Reinforced Concrete I. / Beton Armat I. Concrete is a composite material composed of: -](https://reader033.vdocuments.us/reader033/viewer/2022053117/609844831755a67cf37206b4/html5/thumbnails/10.jpg)
Faculty of Civil EngineeringDr.ing. Nagy-György T. 10
Reinforced Concrete I. / Beton Armat I.
Concrete is a composite material composed of:aggregates natural Gravel pit or quarries
artificial slag / expanded clay/ recycled
cement Portland
Portland with admixtures Hydrotehnic Sulphates resistant cement
water
chemical admixtures (aditivi) Water-reducing admixtures (strength)
Retarding admixtures (summer) Accelerating admixtures (winter) Superplasticizers (consistency) Corrosion-inhibiting admixtures for impermeability air-entraining (microporosity)
mineral admixtures (adaosuri) Fly ash
Silica Fume Ground granulated blast furnace slag Rice husk ash (RHA)Metakaolin
![Page 11: Dr. NAGY-GYÖRGY Tamás Concre… · Dr.ing. Nagy-György T. Faculty of Civil Engineering 3 Reinforced Concrete I. / Beton Armat I. Concrete is a composite material composed of: -](https://reader033.vdocuments.us/reader033/viewer/2022053117/609844831755a67cf37206b4/html5/thumbnails/11.jpg)
Faculty of Civil EngineeringDr.ing. Nagy-György T. 11
Reinforced Concrete I. / Beton Armat I.
percentage by volume
Cement paste
70-80 %
(Weiss J – Purdue University)
![Page 12: Dr. NAGY-GYÖRGY Tamás Concre… · Dr.ing. Nagy-György T. Faculty of Civil Engineering 3 Reinforced Concrete I. / Beton Armat I. Concrete is a composite material composed of: -](https://reader033.vdocuments.us/reader033/viewer/2022053117/609844831755a67cf37206b4/html5/thumbnails/12.jpg)
Faculty of Civil EngineeringDr.ing. Nagy-György T. 12
Reinforced Concrete I. / Beton Armat I.
Concrete = biphasic material composed of aggregates embedded in the cement matrix:
- non-homogeneous- anisotropic - elasto-plastic material
- Elasticity: due to aggregates and hardened cement paste- Plasticity: due to micro-cracking phenomenon - Viscosity: due to uncured cement paste.
Cement paste = pseudo-solid material, composed of:
1. Hardened cement crystals solid phase2. Cement gels viscous phase3. Chemically and physically bound water, free water liquid phase4. Capillary pores and gel pores that communicate between themselves and with the outside gas phase
![Page 13: Dr. NAGY-GYÖRGY Tamás Concre… · Dr.ing. Nagy-György T. Faculty of Civil Engineering 3 Reinforced Concrete I. / Beton Armat I. Concrete is a composite material composed of: -](https://reader033.vdocuments.us/reader033/viewer/2022053117/609844831755a67cf37206b4/html5/thumbnails/13.jpg)
Faculty of Civil EngineeringDr.ing. Nagy-György T. 13
Reinforced Concrete I. / Beton Armat I.
Evolution of the concrete structure in time
Change the volume phases of cement stone
100
0 12 6 3 1
% from volume of cement stone
80
60
40
20
Solid phase
Liquid phase
Gas phase Pores with air (evaporation of water)
non-hydrated cement
hydrated cement
water
time
![Page 14: Dr. NAGY-GYÖRGY Tamás Concre… · Dr.ing. Nagy-György T. Faculty of Civil Engineering 3 Reinforced Concrete I. / Beton Armat I. Concrete is a composite material composed of: -](https://reader033.vdocuments.us/reader033/viewer/2022053117/609844831755a67cf37206b4/html5/thumbnails/14.jpg)
Faculty of Civil EngineeringDr.ing. Nagy-György T. 14
Reinforced Concrete I. / Beton Armat I.
2.1 CONCRETE STRUCTURE
2.2 TYPES OF CONCERTE
2.3 CONCRETE STRENGTH
2.4 CONCRETE DEFORMATIONS
![Page 15: Dr. NAGY-GYÖRGY Tamás Concre… · Dr.ing. Nagy-György T. Faculty of Civil Engineering 3 Reinforced Concrete I. / Beton Armat I. Concrete is a composite material composed of: -](https://reader033.vdocuments.us/reader033/viewer/2022053117/609844831755a67cf37206b4/html5/thumbnails/15.jpg)
Faculty of Civil EngineeringDr.ing. Nagy-György T. 15
Reinforced Concrete I. / Beton Armat I.
• FRESH CONCRETE ρ = 2300 … 2400 kg/m3
• HARDENED CONCRETE ρ = 2000 … 2600 kg/m3
• PLAIN CONCRETE
• REINFORCED CONCRETE
• PRESTRESSED CONCRETE
![Page 16: Dr. NAGY-GYÖRGY Tamás Concre… · Dr.ing. Nagy-György T. Faculty of Civil Engineering 3 Reinforced Concrete I. / Beton Armat I. Concrete is a composite material composed of: -](https://reader033.vdocuments.us/reader033/viewer/2022053117/609844831755a67cf37206b4/html5/thumbnails/16.jpg)
Faculty of Civil EngineeringDr.ing. Nagy-György T. 16
Reinforced Concrete I. / Beton Armat I.
SPECIAL CONCRETE
• LIGHT-WEIGHT CONCRETE (LC) ρ < 2000 kg/m3
- CONCRETE WITH LIGHT AGGREGATES- CELLULAR CONCRETE (BCA)
• HEAVYWEIGHT CONCRETE ρ > 2600 kg/m3
• HIGH STRENGTH CONCRETE
• HIGH PERFORMANCE CONCRETE (HPC)
• POLYMER-MODIFIED CONCRETE
• FIBER REINFORCED CONCRETE (FRC)
• SELF COMPACTING CONCRETE (SCC)
• SHOTCRETE
![Page 17: Dr. NAGY-GYÖRGY Tamás Concre… · Dr.ing. Nagy-György T. Faculty of Civil Engineering 3 Reinforced Concrete I. / Beton Armat I. Concrete is a composite material composed of: -](https://reader033.vdocuments.us/reader033/viewer/2022053117/609844831755a67cf37206b4/html5/thumbnails/17.jpg)
Faculty of Civil EngineeringDr.ing. Nagy-György T. 17
Reinforced Concrete I. / Beton Armat I.
2.1 CONCRETE STRUCTURE
2.2 TYPES OF CONCERTE
2.3 CONCRETE STRENGTH
2.4 CONCRETE DEFORMATIONS
![Page 18: Dr. NAGY-GYÖRGY Tamás Concre… · Dr.ing. Nagy-György T. Faculty of Civil Engineering 3 Reinforced Concrete I. / Beton Armat I. Concrete is a composite material composed of: -](https://reader033.vdocuments.us/reader033/viewer/2022053117/609844831755a67cf37206b4/html5/thumbnails/18.jpg)
Faculty of Civil EngineeringDr.ing. Nagy-György T. 18
Reinforced Concrete I. / Beton Armat I.
Failure of concrete under uniaxial compression gradualness
c / - ct
alungire
transversală ct
N
N
direcţia de încărcare
agregate mari
piatră de ciment
microfisuri de aderenţă
propagarea microfisurilor
a) b)
N
N c)
scurtare, c
≈0,2
Poisson Coef.
1
Generalization of cracks oriented parallel to the direction of the force
2
3
shortening
Transversal elongation
LOADING DIRECTION
aggregates
cement-stone
micro-cracks
crackpropagation
![Page 19: Dr. NAGY-GYÖRGY Tamás Concre… · Dr.ing. Nagy-György T. Faculty of Civil Engineering 3 Reinforced Concrete I. / Beton Armat I. Concrete is a composite material composed of: -](https://reader033.vdocuments.us/reader033/viewer/2022053117/609844831755a67cf37206b4/html5/thumbnails/19.jpg)
Faculty of Civil EngineeringDr.ing. Nagy-György T. 19
Reinforced Concrete I. / Beton Armat I.
Failure of concrete under uniaxial compression gradualness
hardeningtangent modulus
crushing
micro-cracking
cracking - failure
1. Elastic behavior: hardening compressive stress between 0 – f0 (f0 = micro-cracking strength)
2. Elastic-plastic behavior : micro-cracking compressive stress between f0 - 0.9 fc
3. Failure: cracking-failure compression stress > 0.9 fc
fc = compressive strength of conceret subjected to short term static loads
Failure of plain concrete has a brittle behavior, because occurs at very small deformations.
c - c CURVE OF CONCRETE SUBJECTED TO COMPRESSION
VOLUME VARIATION OF A COMPRESSED CYLINDER
![Page 20: Dr. NAGY-GYÖRGY Tamás Concre… · Dr.ing. Nagy-György T. Faculty of Civil Engineering 3 Reinforced Concrete I. / Beton Armat I. Concrete is a composite material composed of: -](https://reader033.vdocuments.us/reader033/viewer/2022053117/609844831755a67cf37206b4/html5/thumbnails/20.jpg)
Faculty of Civil EngineeringDr.ing. Nagy-György T. 20
Reinforced Concrete I. / Beton Armat I.
Failure of concrete under uniaxial tension
elongation
failure
tangent modulus
strongly influenced by discontinuities
![Page 21: Dr. NAGY-GYÖRGY Tamás Concre… · Dr.ing. Nagy-György T. Faculty of Civil Engineering 3 Reinforced Concrete I. / Beton Armat I. Concrete is a composite material composed of: -](https://reader033.vdocuments.us/reader033/viewer/2022053117/609844831755a67cf37206b4/html5/thumbnails/21.jpg)
Faculty of Civil EngineeringDr.ing. Nagy-György T. 21
Reinforced Concrete I. / Beton Armat I.
The behavior of concrete cylinder subjected to centric compression
![Page 22: Dr. NAGY-GYÖRGY Tamás Concre… · Dr.ing. Nagy-György T. Faculty of Civil Engineering 3 Reinforced Concrete I. / Beton Armat I. Concrete is a composite material composed of: -](https://reader033.vdocuments.us/reader033/viewer/2022053117/609844831755a67cf37206b4/html5/thumbnails/22.jpg)
Faculty of Civil EngineeringDr.ing. Nagy-György T. 22
Reinforced Concrete I. / Beton Armat I.
The behavior of concrete cylinder subjected to centric compression
![Page 23: Dr. NAGY-GYÖRGY Tamás Concre… · Dr.ing. Nagy-György T. Faculty of Civil Engineering 3 Reinforced Concrete I. / Beton Armat I. Concrete is a composite material composed of: -](https://reader033.vdocuments.us/reader033/viewer/2022053117/609844831755a67cf37206b4/html5/thumbnails/23.jpg)
Faculty of Civil EngineeringDr.ing. Nagy-György T. 23
Reinforced Concrete I. / Beton Armat I.
The behavior of concrete cylinder subjected to centric compression
Micro-cracks in cement paste
![Page 24: Dr. NAGY-GYÖRGY Tamás Concre… · Dr.ing. Nagy-György T. Faculty of Civil Engineering 3 Reinforced Concrete I. / Beton Armat I. Concrete is a composite material composed of: -](https://reader033.vdocuments.us/reader033/viewer/2022053117/609844831755a67cf37206b4/html5/thumbnails/24.jpg)
Faculty of Civil EngineeringDr.ing. Nagy-György T. 24
Reinforced Concrete I. / Beton Armat I.
The behavior of concrete cylinder subjected to centric compression
Micro-cracks in cement paste Interior forces
![Page 25: Dr. NAGY-GYÖRGY Tamás Concre… · Dr.ing. Nagy-György T. Faculty of Civil Engineering 3 Reinforced Concrete I. / Beton Armat I. Concrete is a composite material composed of: -](https://reader033.vdocuments.us/reader033/viewer/2022053117/609844831755a67cf37206b4/html5/thumbnails/25.jpg)
Faculty of Civil EngineeringDr.ing. Nagy-György T. 25
Reinforced Concrete I. / Beton Armat I.
The behavior of concrete cylinder subjected to centric compression
Micro-cracks in cement paste Interior forces Macro-cracks failure
![Page 26: Dr. NAGY-GYÖRGY Tamás Concre… · Dr.ing. Nagy-György T. Faculty of Civil Engineering 3 Reinforced Concrete I. / Beton Armat I. Concrete is a composite material composed of: -](https://reader033.vdocuments.us/reader033/viewer/2022053117/609844831755a67cf37206b4/html5/thumbnails/26.jpg)
Faculty of Civil EngineeringDr.ing. Nagy-György T. 26
Reinforced Concrete I. / Beton Armat I.
Failure of a cube specimen with friction biaxial stresses, due to friction between the steel plates and concrete specimen
𝜏 – shear stress prevents transversal deformations𝜎 – normal stress𝜎1 – principal tensile stress𝜎2 – principal compression stress
![Page 27: Dr. NAGY-GYÖRGY Tamás Concre… · Dr.ing. Nagy-György T. Faculty of Civil Engineering 3 Reinforced Concrete I. / Beton Armat I. Concrete is a composite material composed of: -](https://reader033.vdocuments.us/reader033/viewer/2022053117/609844831755a67cf37206b4/html5/thumbnails/27.jpg)
Faculty of Civil EngineeringDr.ing. Nagy-György T. 27
Reinforced Concrete I. / Beton Armat I.
The behavior of confined concrete specimen subjected to centric compression
Confined concreteTUBE
Confined concreteSPIRAL REINFORCEMENT
Internal forces
![Page 28: Dr. NAGY-GYÖRGY Tamás Concre… · Dr.ing. Nagy-György T. Faculty of Civil Engineering 3 Reinforced Concrete I. / Beton Armat I. Concrete is a composite material composed of: -](https://reader033.vdocuments.us/reader033/viewer/2022053117/609844831755a67cf37206b4/html5/thumbnails/28.jpg)
Faculty of Civil EngineeringDr.ing. Nagy-György T. 28
Reinforced Concrete I. / Beton Armat I.
Confinement of concrete = increasing compressive strength of concrete by creating triaxial stress
is achieved by preventing deformation (usually using stirrups)
Stirrups at the perimeter
Reduced effect increased effectscolumns
Stirrups at the perimeter and internal
spiral reinforcement
beam
![Page 29: Dr. NAGY-GYÖRGY Tamás Concre… · Dr.ing. Nagy-György T. Faculty of Civil Engineering 3 Reinforced Concrete I. / Beton Armat I. Concrete is a composite material composed of: -](https://reader033.vdocuments.us/reader033/viewer/2022053117/609844831755a67cf37206b4/html5/thumbnails/29.jpg)
Faculty of Civil EngineeringDr.ing. Nagy-György T. 29
Reinforced Concrete I. / Beton Armat I.
The behavior of confined concrete specimen subjected to centric compression
![Page 30: Dr. NAGY-GYÖRGY Tamás Concre… · Dr.ing. Nagy-György T. Faculty of Civil Engineering 3 Reinforced Concrete I. / Beton Armat I. Concrete is a composite material composed of: -](https://reader033.vdocuments.us/reader033/viewer/2022053117/609844831755a67cf37206b4/html5/thumbnails/30.jpg)
Faculty of Civil EngineeringDr.ing. Nagy-György T. 30
Reinforced Concrete I. / Beton Armat I.
Confinement of concrete = increasing compressive strength of concrete by creating triaxial stress
![Page 31: Dr. NAGY-GYÖRGY Tamás Concre… · Dr.ing. Nagy-György T. Faculty of Civil Engineering 3 Reinforced Concrete I. / Beton Armat I. Concrete is a composite material composed of: -](https://reader033.vdocuments.us/reader033/viewer/2022053117/609844831755a67cf37206b4/html5/thumbnails/31.jpg)
Faculty of Civil EngineeringDr.ing. Nagy-György T. 31
Reinforced Concrete I. / Beton Armat I.
Confinement of concrete = increasing compressive strength of concrete by creating triaxial stress
SPIRAL REINFORCEMENT
![Page 32: Dr. NAGY-GYÖRGY Tamás Concre… · Dr.ing. Nagy-György T. Faculty of Civil Engineering 3 Reinforced Concrete I. / Beton Armat I. Concrete is a composite material composed of: -](https://reader033.vdocuments.us/reader033/viewer/2022053117/609844831755a67cf37206b4/html5/thumbnails/32.jpg)
Faculty of Civil EngineeringDr.ing. Nagy-György T. 32
Reinforced Concrete I. / Beton Armat I.
Conclusions regarding of concrete failure:
- concrete failure occurs due to cohesion loss, indifferent of the stresstype, when specific tensile deformations reach maximum (ultimate);
- concrete failure has a gradually character due to the accumulationof a critical amount of degradation, in the form of micro-cracks, andthen cracks;
- it can be considered an elastic behavior to the value of the stresswhich not exceeding the micro-cracking strength (f0);
- plastic behavior is due to appearance and development ofirreversible deformation through micro-cracking of concrete;
- failure of plain concrete has brittle character, as occurs at very smalldeformations.
![Page 33: Dr. NAGY-GYÖRGY Tamás Concre… · Dr.ing. Nagy-György T. Faculty of Civil Engineering 3 Reinforced Concrete I. / Beton Armat I. Concrete is a composite material composed of: -](https://reader033.vdocuments.us/reader033/viewer/2022053117/609844831755a67cf37206b4/html5/thumbnails/33.jpg)
Faculty of Civil EngineeringDr.ing. Nagy-György T. 33
Reinforced Concrete I. / Beton Armat I.
Strength Test type Specimen Denomination Symbol
Compression strength
Uniaxial compression
CylinderStrength on cylinder(concrete class) fcil
Cube Cubic strength fcub
Prism Prismatic strength fpr
Tensile strength
Uniaxial tension
Prism / Cylinder
Tensile strength fct
Splitting tensile
Cylinder / Cube
Splitting tensile strength fct sp
Bending tension
Bended prism
Bending tensile strength fct fl
Usual tests to determine concrete characteristics
![Page 34: Dr. NAGY-GYÖRGY Tamás Concre… · Dr.ing. Nagy-György T. Faculty of Civil Engineering 3 Reinforced Concrete I. / Beton Armat I. Concrete is a composite material composed of: -](https://reader033.vdocuments.us/reader033/viewer/2022053117/609844831755a67cf37206b4/html5/thumbnails/34.jpg)
Faculty of Civil EngineeringDr.ing. Nagy-György T. 34
Reinforced Concrete I. / Beton Armat I.
Factors affecting concrete strength
1. Quality of raw materials
Cement influencing the strength only at young ages
Aggregates - strength- dimension- form- surface texture- mineralogical nature- quality (density, purity, etc)
Apa “...the water should be fit for drinking…”
![Page 35: Dr. NAGY-GYÖRGY Tamás Concre… · Dr.ing. Nagy-György T. Faculty of Civil Engineering 3 Reinforced Concrete I. / Beton Armat I. Concrete is a composite material composed of: -](https://reader033.vdocuments.us/reader033/viewer/2022053117/609844831755a67cf37206b4/html5/thumbnails/35.jpg)
Faculty of Civil EngineeringDr.ing. Nagy-György T. 35
Reinforced Concrete I. / Beton Armat I.
Factors affecting concrete strength
2. Proportion of constituents
W/C ratio ↘ 𝑓𝑐 ↗
Trained air ↗ 𝑓𝑐 ↘
Cement dosage ↗ 𝑓𝑐 ↗
Coarse / fine aggregate ratio workability strength(granulometry)
![Page 36: Dr. NAGY-GYÖRGY Tamás Concre… · Dr.ing. Nagy-György T. Faculty of Civil Engineering 3 Reinforced Concrete I. / Beton Armat I. Concrete is a composite material composed of: -](https://reader033.vdocuments.us/reader033/viewer/2022053117/609844831755a67cf37206b4/html5/thumbnails/36.jpg)
Faculty of Civil EngineeringDr.ing. Nagy-György T. 36
Reinforced Concrete I. / Beton Armat I.
Factors affecting concrete strength
3. Casting conditions
Vibration Compaction
Compaction ↗ 𝑓𝑐 ↗
Homogeneity ↗ 𝑓𝑐 ↗
Segregation/Honeycombing ↗ 𝑓𝑐 ↘
![Page 37: Dr. NAGY-GYÖRGY Tamás Concre… · Dr.ing. Nagy-György T. Faculty of Civil Engineering 3 Reinforced Concrete I. / Beton Armat I. Concrete is a composite material composed of: -](https://reader033.vdocuments.us/reader033/viewer/2022053117/609844831755a67cf37206b4/html5/thumbnails/37.jpg)
Faculty of Civil EngineeringDr.ing. Nagy-György T. 37
Reinforced Concrete I. / Beton Armat I.
Factors affecting concrete strength
4. Working/storage conditions
Temperature ↗ promotes hydration
Humidity ↗ promotes hydration
Age = degree of hydration
Maturitaty (C x time)
measured
estimated
Stre
ngt
h [
N/m
m2]
![Page 38: Dr. NAGY-GYÖRGY Tamás Concre… · Dr.ing. Nagy-György T. Faculty of Civil Engineering 3 Reinforced Concrete I. / Beton Armat I. Concrete is a composite material composed of: -](https://reader033.vdocuments.us/reader033/viewer/2022053117/609844831755a67cf37206b4/html5/thumbnails/38.jpg)
Faculty of Civil EngineeringDr.ing. Nagy-György T. 38
Reinforced Concrete I. / Beton Armat I.
Factors affecting concrete strength
5. Testing conditions
Specimen dimension ↗ 𝑓𝑐 ↘
Specimen form 𝑓𝑐,𝑐𝑢𝑏𝑒 > 𝑓𝑐,𝑐𝑦𝑙𝑖𝑛𝑑𝑒𝑟𝑓𝑐,𝑐𝑢𝑏𝑒 > 𝑓𝑐,𝑝𝑟𝑖𝑠𝑚
Specimen humidity ↗ 𝑓𝑐 ↘
Loading speed ↗ 𝑓𝑐 ↗
![Page 39: Dr. NAGY-GYÖRGY Tamás Concre… · Dr.ing. Nagy-György T. Faculty of Civil Engineering 3 Reinforced Concrete I. / Beton Armat I. Concrete is a composite material composed of: -](https://reader033.vdocuments.us/reader033/viewer/2022053117/609844831755a67cf37206b4/html5/thumbnails/39.jpg)
Faculty of Civil EngineeringDr.ing. Nagy-György T. 39
Reinforced Concrete I. / Beton Armat I.
2.1 CONCRETE STRUCTURE
2.2 TYPES OF CONCERTE
2.3 CONCRETE STRENGTH
2.4 CONCRETE DEFORMATIONS
![Page 40: Dr. NAGY-GYÖRGY Tamás Concre… · Dr.ing. Nagy-György T. Faculty of Civil Engineering 3 Reinforced Concrete I. / Beton Armat I. Concrete is a composite material composed of: -](https://reader033.vdocuments.us/reader033/viewer/2022053117/609844831755a67cf37206b4/html5/thumbnails/40.jpg)
Faculty of Civil EngineeringDr.ing. Nagy-György T. 40
Reinforced Concrete I. / Beton Armat I.
Causes of deformations:
- Intrinsic (own): - shrinkage - swelling
- Exterior: - direct loads- induced displacements- variation of temperatures- et cetera
![Page 41: Dr. NAGY-GYÖRGY Tamás Concre… · Dr.ing. Nagy-György T. Faculty of Civil Engineering 3 Reinforced Concrete I. / Beton Armat I. Concrete is a composite material composed of: -](https://reader033.vdocuments.us/reader033/viewer/2022053117/609844831755a67cf37206b4/html5/thumbnails/41.jpg)
Faculty of Civil EngineeringDr.ing. Nagy-György T. 41
Reinforced Concrete I. / Beton Armat I.
Elastic deformation: due to the solid phase (aggregates, crystals formed by the cement curing)
- could be linear or non-linear
- after termination of the action, theoretically, the body returns instantaneously to its original form
Elastic non-linear
![Page 42: Dr. NAGY-GYÖRGY Tamás Concre… · Dr.ing. Nagy-György T. Faculty of Civil Engineering 3 Reinforced Concrete I. / Beton Armat I. Concrete is a composite material composed of: -](https://reader033.vdocuments.us/reader033/viewer/2022053117/609844831755a67cf37206b4/html5/thumbnails/42.jpg)
Faculty of Civil EngineeringDr.ing. Nagy-György T. 42
Reinforced Concrete I. / Beton Armat I.
Plastic deformation: occurs due to structural discontinuities (especially micro-cracks) which compromise the adhesion of aggregate-to-cement stone;
- appears at a certain level of stress
- increases as long as loading increases, and after the complete unloading, remaining irreversible deformation
Elastic-plastic
![Page 43: Dr. NAGY-GYÖRGY Tamás Concre… · Dr.ing. Nagy-György T. Faculty of Civil Engineering 3 Reinforced Concrete I. / Beton Armat I. Concrete is a composite material composed of: -](https://reader033.vdocuments.us/reader033/viewer/2022053117/609844831755a67cf37206b4/html5/thumbnails/43.jpg)
Faculty of Civil EngineeringDr.ing. Nagy-György T. 43
Reinforced Concrete I. / Beton Armat I.
Viscous (rheological) deformation: occurs due to the gels, called creep
- viscous deformation develops in time and is partially reversible after the termination of the action.
Non-linear - Viscous
![Page 44: Dr. NAGY-GYÖRGY Tamás Concre… · Dr.ing. Nagy-György T. Faculty of Civil Engineering 3 Reinforced Concrete I. / Beton Armat I. Concrete is a composite material composed of: -](https://reader033.vdocuments.us/reader033/viewer/2022053117/609844831755a67cf37206b4/html5/thumbnails/44.jpg)
Faculty of Civil EngineeringDr.ing. Nagy-György T. 44
Reinforced Concrete I. / Beton Armat I.
Volume of concrete stored in a dry environment decrease shrinkage
Volume of concrete stored in water increase swellingcs
swelling
shrinkage
water (time)
RH
![Page 45: Dr. NAGY-GYÖRGY Tamás Concre… · Dr.ing. Nagy-György T. Faculty of Civil Engineering 3 Reinforced Concrete I. / Beton Armat I. Concrete is a composite material composed of: -](https://reader033.vdocuments.us/reader033/viewer/2022053117/609844831755a67cf37206b4/html5/thumbnails/45.jpg)
Faculty of Civil EngineeringDr.ing. Nagy-György T. 45
Reinforced Concrete I. / Beton Armat I.
Volume of concrete stored in a dry environment decrease shrinkageVolume of concrete stored in water increase swelling
time
Stored in airStored in water (wet out)
Partial reversibility of shrinkage!!!
![Page 46: Dr. NAGY-GYÖRGY Tamás Concre… · Dr.ing. Nagy-György T. Faculty of Civil Engineering 3 Reinforced Concrete I. / Beton Armat I. Concrete is a composite material composed of: -](https://reader033.vdocuments.us/reader033/viewer/2022053117/609844831755a67cf37206b4/html5/thumbnails/46.jpg)
Faculty of Civil EngineeringDr.ing. Nagy-György T. 46
Reinforced Concrete I. / Beton Armat I.
Theory concrete deformations is due to water migration in concrete mass
![Page 47: Dr. NAGY-GYÖRGY Tamás Concre… · Dr.ing. Nagy-György T. Faculty of Civil Engineering 3 Reinforced Concrete I. / Beton Armat I. Concrete is a composite material composed of: -](https://reader033.vdocuments.us/reader033/viewer/2022053117/609844831755a67cf37206b4/html5/thumbnails/47.jpg)
Faculty of Civil EngineeringDr.ing. Nagy-György T. 47
Reinforced Concrete I. / Beton Armat I.
The irreversible component of shrinkage due to aging of gels, manifested by progressive reduction of their volume and increased volume of crystals
The reversible component of shrinkage decreases over time and is due to:
- the capillary action, independent from concrete age- the thickness of the film of water adsorbed on the surface of gels, dependent on concrete age
![Page 48: Dr. NAGY-GYÖRGY Tamás Concre… · Dr.ing. Nagy-György T. Faculty of Civil Engineering 3 Reinforced Concrete I. / Beton Armat I. Concrete is a composite material composed of: -](https://reader033.vdocuments.us/reader033/viewer/2022053117/609844831755a67cf37206b4/html5/thumbnails/48.jpg)
Faculty of Civil EngineeringDr.ing. Nagy-György T. 48
Reinforced Concrete I. / Beton Armat I.
Factors influencing concrete shrinkage and swelling
- Humidity and temperature
RH ↘ + Temp ↗ εcs ↗
- Volume of the gels increases with cement content
Vgel ↗ εcs ↗
- Aggregates: influencing the gravel-to-sand ratio
gravel-to-sand ratio ↘ Water ↗ Aggregate/Cement ↘ εcs ↗
εcs, cement > εcs, mortar > εcs, concrete
![Page 49: Dr. NAGY-GYÖRGY Tamás Concre… · Dr.ing. Nagy-György T. Faculty of Civil Engineering 3 Reinforced Concrete I. / Beton Armat I. Concrete is a composite material composed of: -](https://reader033.vdocuments.us/reader033/viewer/2022053117/609844831755a67cf37206b4/html5/thumbnails/49.jpg)
Faculty of Civil EngineeringDr.ing. Nagy-György T. 49
Reinforced Concrete I. / Beton Armat I.
Factors influencing concrete shrinkage and swelling
- Concrete superplasticizer reduce W/C without decrease of workability
- Increased concrete compaction higher concrete strength smaller deformations from shrinkage
- Possibility of water evaporation: the contraction is greater as thesurface area given by the ratio of the exposed surface and theelement volume is greater.
beamslab
![Page 50: Dr. NAGY-GYÖRGY Tamás Concre… · Dr.ing. Nagy-György T. Faculty of Civil Engineering 3 Reinforced Concrete I. / Beton Armat I. Concrete is a composite material composed of: -](https://reader033.vdocuments.us/reader033/viewer/2022053117/609844831755a67cf37206b4/html5/thumbnails/50.jpg)
Faculty of Civil EngineeringDr.ing. Nagy-György T. 50
Reinforced Concrete I. / Beton Armat I.
Shrinkage of reinforced concrete
Experimentally: the value of reinforced concrete shrinkage it is less than of plain concrete, so for a higher reinforcement ratio lower shrinkage will result.
Explanation: bond between concrete and reinforcement reduces the tendency of shrinkage of the concrete, reinforcement opposing to shrinkage.
In reinforcement arise compression stresses, while in concretetensile stresses
![Page 51: Dr. NAGY-GYÖRGY Tamás Concre… · Dr.ing. Nagy-György T. Faculty of Civil Engineering 3 Reinforced Concrete I. / Beton Armat I. Concrete is a composite material composed of: -](https://reader033.vdocuments.us/reader033/viewer/2022053117/609844831755a67cf37206b4/html5/thumbnails/51.jpg)
Faculty of Civil EngineeringDr.ing. Nagy-György T. 51
Reinforced Concrete I. / Beton Armat I.
Shrinkage of reinforced concrete
Reinforced concrete element with free deformations:εcs = εct + εsc
εcs = total shrinkage strain of plain concreteεsc = compression strain in reinforcement ( = shrinkage of RC)εct = tensile strain in concrete, caused by the presence of reinforcement
ε cs
L o
ε ct
ε scL
ε ct
L o=
L
AcAs
Plain concrete Reinforced concrete
Reinforced concrete with restrained deformations
εcs = εct
![Page 52: Dr. NAGY-GYÖRGY Tamás Concre… · Dr.ing. Nagy-György T. Faculty of Civil Engineering 3 Reinforced Concrete I. / Beton Armat I. Concrete is a composite material composed of: -](https://reader033.vdocuments.us/reader033/viewer/2022053117/609844831755a67cf37206b4/html5/thumbnails/52.jpg)
Faculty of Civil EngineeringDr.ing. Nagy-György T. 52
Reinforced Concrete I. / Beton Armat I.
Shrinkage of reinforced concrete
Compression stress in reinforcement:
𝜎𝑠 = 𝜀𝑠𝑐 ∙ 𝐸𝑠
Corresponding compression force in reinforcement:
𝐹𝑠 = 𝐴𝑠 ∙ 𝜎𝑠
Tensile stress in concrete:
𝜎𝑐 = 𝜀𝑐𝑡 ∙ 𝐸𝑐 = (𝜀𝑐𝑠 − 𝜀𝑠𝑐) ∙ 𝐸𝑐
Corresponding tensile force in concrete:
𝐹𝑐 = 𝐴𝑐 ∙ 𝜎𝑐
εcs εscεct
![Page 53: Dr. NAGY-GYÖRGY Tamás Concre… · Dr.ing. Nagy-György T. Faculty of Civil Engineering 3 Reinforced Concrete I. / Beton Armat I. Concrete is a composite material composed of: -](https://reader033.vdocuments.us/reader033/viewer/2022053117/609844831755a67cf37206b4/html5/thumbnails/53.jpg)
Faculty of Civil EngineeringDr.ing. Nagy-György T. 53
Reinforced Concrete I. / Beton Armat I.
Shrinkage of reinforced concrete
Equilibrium condition in longitudinal direction: 𝐹𝑠 = 𝐹𝑐
𝐴𝑠 ∙ 𝜀𝑠𝑐 ∙ 𝐸𝑠 = 𝐴𝑐 ∙ (𝜀𝑐𝑠−𝜀𝑠𝑐) ∙ 𝐸𝑐 / 𝐴𝑐 ∙ 𝐸𝑐
𝜌 ∙ 𝜀𝑠𝑐 ∙ 𝑛 = 𝜀𝑐𝑠 − 𝜀𝑠𝑐
Where
𝜌 =𝐴𝑠
𝐴𝑐- reinforcement coefficient
𝑛 =𝐸𝑠
𝐸𝑐- coefficient of equivalence
(= how many times is stiffer the steel then the concrete)
![Page 54: Dr. NAGY-GYÖRGY Tamás Concre… · Dr.ing. Nagy-György T. Faculty of Civil Engineering 3 Reinforced Concrete I. / Beton Armat I. Concrete is a composite material composed of: -](https://reader033.vdocuments.us/reader033/viewer/2022053117/609844831755a67cf37206b4/html5/thumbnails/54.jpg)
Faculty of Civil EngineeringDr.ing. Nagy-György T. 54
Reinforced Concrete I. / Beton Armat I.
Shrinkage of reinforced concrete
𝜌 ∙ 𝜀𝑠𝑐 ∙ 𝑛 = 𝜀𝑐𝑠 − 𝜀𝑠𝑐 𝜀𝑠𝑐 =𝜀𝑐𝑠
1+𝜌∙𝑛
Stress in reinforcement: 𝜎𝑠 =𝜀𝑐𝑠
1+𝜌∙𝑛∙ 𝐸𝑠 compression
To determine the stress in concrete: 𝐹𝑠 = 𝐹𝑐
𝐴𝑐 ∙ 𝜎𝑠 = 𝐴𝑐 ∙ 𝜎𝑐 /𝐴𝑐
𝜎𝑐 =𝐴𝑠
𝐴𝑐∙ 𝜎𝑠 = 𝜌 ∙ 𝜎𝑠 = 𝜌 ∙
𝜀𝑐𝑠
1+𝜌∙𝑛∙ 𝐸𝑠=
𝜀𝑐𝑠1
𝜌+𝑛
∙ 𝐸𝑠
![Page 55: Dr. NAGY-GYÖRGY Tamás Concre… · Dr.ing. Nagy-György T. Faculty of Civil Engineering 3 Reinforced Concrete I. / Beton Armat I. Concrete is a composite material composed of: -](https://reader033.vdocuments.us/reader033/viewer/2022053117/609844831755a67cf37206b4/html5/thumbnails/55.jpg)
Faculty of Civil EngineeringDr.ing. Nagy-György T. 55
Reinforced Concrete I. / Beton Armat I.
Shrinkage of reinforced concrete < Shrinkage of plain concrete
Considering 𝜌 % ↗ ⟹ 𝜀𝑠𝑐 ↘
𝜌1 < 𝜌2 < 𝜌3(for example 𝜌1 = 1%; 𝜌2 = 2%; 𝜌3 = 3%)
εcsεsc
εct
𝜀𝑠𝑐 =𝜀𝑐𝑠
1 + 𝜌 ∙ 𝑛
ρ1
ρ2
ρ3
t
σs
t
σc
ρ3
ρ2
ρ1
Yielding of R Cracking of C
![Page 56: Dr. NAGY-GYÖRGY Tamás Concre… · Dr.ing. Nagy-György T. Faculty of Civil Engineering 3 Reinforced Concrete I. / Beton Armat I. Concrete is a composite material composed of: -](https://reader033.vdocuments.us/reader033/viewer/2022053117/609844831755a67cf37206b4/html5/thumbnails/56.jpg)
Faculty of Civil EngineeringDr.ing. Nagy-György T. 56
Reinforced Concrete I. / Beton Armat I.
Shrinkage of reinforced concrete
In statically indeterminate structures shrinkage introduce stresses.
These stresses could be assimilated with a variation of temperature (approximatively 15⁰C)
![Page 57: Dr. NAGY-GYÖRGY Tamás Concre… · Dr.ing. Nagy-György T. Faculty of Civil Engineering 3 Reinforced Concrete I. / Beton Armat I. Concrete is a composite material composed of: -](https://reader033.vdocuments.us/reader033/viewer/2022053117/609844831755a67cf37206b4/html5/thumbnails/57.jpg)
Reinforced Concrete I. / Beton Armat I.
Concrete shrinkage in EN 1992-1-1:2004 (EC2)
𝜀𝑐𝑠 = 𝜀𝑐𝑑 + 𝜀𝑐𝑎
where
𝜀𝑐𝑠 - total shrinkage strain𝜀𝑐𝑑 - drying shrinkage strain𝜀𝑐𝑎 - autogenous shrinkage strain
Facultatea de Construcții .Dr.ing. Nagy-György T. 57
Normal concrete
contracția de uscare
High-strength concrete(Sakata & Shimomura 2004)
![Page 58: Dr. NAGY-GYÖRGY Tamás Concre… · Dr.ing. Nagy-György T. Faculty of Civil Engineering 3 Reinforced Concrete I. / Beton Armat I. Concrete is a composite material composed of: -](https://reader033.vdocuments.us/reader033/viewer/2022053117/609844831755a67cf37206b4/html5/thumbnails/58.jpg)
Faculty of Civil EngineeringDr.ing. Nagy-György T. 58
Reinforced Concrete I. / Beton Armat I.
Concrete shrinkage in EN 1992-1-1:2004 (EC2)
𝜀𝑐𝑠 = 𝜀𝑐𝑑 + 𝜀𝑐𝑎
𝜀𝑐𝑠,∞ = 𝑘ℎ ∙ 𝜀𝑐𝑑,0
𝑘ℎ = coefficient depending on the ℎ0ℎ0 = 2𝐴𝑐/𝑢 (notional size of the cross-section)𝐴𝑐 = concrete cross-sectional area𝑢 = perimeter of that part of the cross section which is exposed to drying
𝜀𝑐𝑎 ∞ = 2,5(𝑓𝑐𝑘 − 10) ∙ 10−6
Creep of the concrete depend on the ambient humidity, the dimensions of the element and the composition of the concrete + the maturity of the concrete when the load is first applied and depends on the duration and magnitude of the loading.
![Page 59: Dr. NAGY-GYÖRGY Tamás Concre… · Dr.ing. Nagy-György T. Faculty of Civil Engineering 3 Reinforced Concrete I. / Beton Armat I. Concrete is a composite material composed of: -](https://reader033.vdocuments.us/reader033/viewer/2022053117/609844831755a67cf37206b4/html5/thumbnails/59.jpg)
Faculty of Civil EngineeringDr.ing. Nagy-György T. 59
Reinforced Concrete I. / Beton Armat I.
Creep of the concrete depend on the ambient humidity, the dimensions of the element and the composition of the concrete + the maturity of the concrete when the load is first applied and depends on the duration and magnitude of the loading.
Concrete shrinkage in EN 1992-1-1:2004 (EC2)
𝜀𝑐𝑠 = 𝜀𝑐𝑑 + 𝜀𝑐𝑎
𝜀𝑐𝑑 𝑡 = 𝛽𝑑𝑠(𝑡, 𝑡𝑠) ∙ 𝑘ℎ ∙ 𝜀𝑐𝑑,0 development of the drying shrinkage strain in time
𝜀𝑐𝑎 𝑡 = 𝛽𝑎𝑠(𝑡) ∙ 𝜀𝑐𝑎 ∞ autogenous shrinkage strain in time
![Page 60: Dr. NAGY-GYÖRGY Tamás Concre… · Dr.ing. Nagy-György T. Faculty of Civil Engineering 3 Reinforced Concrete I. / Beton Armat I. Concrete is a composite material composed of: -](https://reader033.vdocuments.us/reader033/viewer/2022053117/609844831755a67cf37206b4/html5/thumbnails/60.jpg)
Faculty of Civil EngineeringDr.ing. Nagy-György T. 60
Reinforced Concrete I. / Beton Armat I.
Deformations of concrete from temperature variation
The effect of temperature variation on structures can be assimilated with imposed strains.
Temperature variations considered are from:- environment- climate- technology
±∆𝑙 = 𝑙 ∙ 𝜀∆𝑡 = 𝑙 ∙ ∆𝑡 ∙ 𝛼
where𝑙 - initial element length∆𝑡 - temperature gradient, in °C
𝛼 = 10 ∙ 10−6/°𝐶 - linear coefficient of thermal expansion of concrete
![Page 61: Dr. NAGY-GYÖRGY Tamás Concre… · Dr.ing. Nagy-György T. Faculty of Civil Engineering 3 Reinforced Concrete I. / Beton Armat I. Concrete is a composite material composed of: -](https://reader033.vdocuments.us/reader033/viewer/2022053117/609844831755a67cf37206b4/html5/thumbnails/61.jpg)
Faculty of Civil EngineeringDr.ing. Nagy-György T. 61
Reinforced Concrete I. / Beton Armat I.
Deformations of concrete under short term static loads
Characteristic curve of concrete subjected to short term axial load
e – elastic strainp – plastic strainEc = c/ e – Young modulus
compression
tension
![Page 62: Dr. NAGY-GYÖRGY Tamás Concre… · Dr.ing. Nagy-György T. Faculty of Civil Engineering 3 Reinforced Concrete I. / Beton Armat I. Concrete is a composite material composed of: -](https://reader033.vdocuments.us/reader033/viewer/2022053117/609844831755a67cf37206b4/html5/thumbnails/62.jpg)
Faculty of Civil EngineeringDr.ing. Nagy-György T. 62
Reinforced Concrete I. / Beton Armat I.
Deformations of concrete under short term static load
Influence of the concrete quality on the characteristic curve shape
Co
ncr
ete
clas
s
Deformation corresponding to compressive strength of concrete is practically the same regardless of the quality of concrete
![Page 63: Dr. NAGY-GYÖRGY Tamás Concre… · Dr.ing. Nagy-György T. Faculty of Civil Engineering 3 Reinforced Concrete I. / Beton Armat I. Concrete is a composite material composed of: -](https://reader033.vdocuments.us/reader033/viewer/2022053117/609844831755a67cf37206b4/html5/thumbnails/63.jpg)
Faculty of Civil EngineeringDr.ing. Nagy-György T. 63
Reinforced Concrete I. / Beton Armat I.
Deformations of concrete under short term static load
Influence of the concrete quality on the characteristic curve shape
Co
ncr
ete
clas
s
Ultimate strains decreases when the concrete class increase
![Page 64: Dr. NAGY-GYÖRGY Tamás Concre… · Dr.ing. Nagy-György T. Faculty of Civil Engineering 3 Reinforced Concrete I. / Beton Armat I. Concrete is a composite material composed of: -](https://reader033.vdocuments.us/reader033/viewer/2022053117/609844831755a67cf37206b4/html5/thumbnails/64.jpg)
Faculty of Civil EngineeringDr.ing. Nagy-György T. 64
Reinforced Concrete I. / Beton Armat I.
Deformations of concrete under short term static load
Influence of the concrete quality on the characteristic curve shape
Co
ncr
ete
clas
s
Modulus of elasticity increases with the concrete strength
![Page 65: Dr. NAGY-GYÖRGY Tamás Concre… · Dr.ing. Nagy-György T. Faculty of Civil Engineering 3 Reinforced Concrete I. / Beton Armat I. Concrete is a composite material composed of: -](https://reader033.vdocuments.us/reader033/viewer/2022053117/609844831755a67cf37206b4/html5/thumbnails/65.jpg)
Faculty of Civil EngineeringDr.ing. Nagy-György T. 65
Reinforced Concrete I. / Beton Armat I.
Deformations of concrete under short term static load
Influence of the concrete quality on the characteristic curve shape
Co
ncr
ete
clas
s
curve shape depends also on the loading speed concrete strength increases and deformations decreases as the load is applied with higher speed
![Page 66: Dr. NAGY-GYÖRGY Tamás Concre… · Dr.ing. Nagy-György T. Faculty of Civil Engineering 3 Reinforced Concrete I. / Beton Armat I. Concrete is a composite material composed of: -](https://reader033.vdocuments.us/reader033/viewer/2022053117/609844831755a67cf37206b4/html5/thumbnails/66.jpg)
Faculty of Civil EngineeringDr.ing. Nagy-György T. 66
Reinforced Concrete I. / Beton Armat I.
Deformations of concrete under short term static load
The influence of the confinement effect on ultimate compressive strain of concrete
Uniaxial compression
Triaxial compression
![Page 67: Dr. NAGY-GYÖRGY Tamás Concre… · Dr.ing. Nagy-György T. Faculty of Civil Engineering 3 Reinforced Concrete I. / Beton Armat I. Concrete is a composite material composed of: -](https://reader033.vdocuments.us/reader033/viewer/2022053117/609844831755a67cf37206b4/html5/thumbnails/67.jpg)
Faculty of Civil EngineeringDr.ing. Nagy-György T. 67
Reinforced Concrete I. / Beton Armat I.
Tension
Compression
(fc ↗ Ec ↗)
![Page 68: Dr. NAGY-GYÖRGY Tamás Concre… · Dr.ing. Nagy-György T. Faculty of Civil Engineering 3 Reinforced Concrete I. / Beton Armat I. Concrete is a composite material composed of: -](https://reader033.vdocuments.us/reader033/viewer/2022053117/609844831755a67cf37206b4/html5/thumbnails/68.jpg)
Faculty of Civil EngineeringDr.ing. Nagy-György T. 68
Reinforced Concrete I. / Beton Armat I.
Tension
Compression
![Page 69: Dr. NAGY-GYÖRGY Tamás Concre… · Dr.ing. Nagy-György T. Faculty of Civil Engineering 3 Reinforced Concrete I. / Beton Armat I. Concrete is a composite material composed of: -](https://reader033.vdocuments.us/reader033/viewer/2022053117/609844831755a67cf37206b4/html5/thumbnails/69.jpg)
Faculty of Civil EngineeringDr.ing. Nagy-György T. 69
Reinforced Concrete I. / Beton Armat I.
Deformations of concrete under long term static loadCreep – Time dependent deformation
years
damping
failure
![Page 70: Dr. NAGY-GYÖRGY Tamás Concre… · Dr.ing. Nagy-György T. Faculty of Civil Engineering 3 Reinforced Concrete I. / Beton Armat I. Concrete is a composite material composed of: -](https://reader033.vdocuments.us/reader033/viewer/2022053117/609844831755a67cf37206b4/html5/thumbnails/70.jpg)
Faculty of Civil EngineeringDr.ing. Nagy-György T. 70
Reinforced Concrete I. / Beton Armat I.
Deformations of concrete under long term static loadCreep – Time dependent deformation
t=0
F = const. F = const.
L=1
t=t
εφ
εtεo
![Page 71: Dr. NAGY-GYÖRGY Tamás Concre… · Dr.ing. Nagy-György T. Faculty of Civil Engineering 3 Reinforced Concrete I. / Beton Armat I. Concrete is a composite material composed of: -](https://reader033.vdocuments.us/reader033/viewer/2022053117/609844831755a67cf37206b4/html5/thumbnails/71.jpg)
Faculty of Civil EngineeringDr.ing. Nagy-György T. 71
Reinforced Concrete I. / Beton Armat I.
Deformations of concrete under long term static loadCreep – Time dependent deformation
σs ↗ σc ↘ρ ↗ εφ↘ Δσs ↘ρ ↗ force transfer ↗ Δσc ↗ σc ↘
ρ1
ρ2
ρ3
t
σs
fy
t0 tt0
σc
fc
Δσs=εφEs
Δσc
ρ1
ρ2
ρ3
𝜌1 < 𝜌2 < 𝜌3
σs (increase of stress in reinforcement)
![Page 72: Dr. NAGY-GYÖRGY Tamás Concre… · Dr.ing. Nagy-György T. Faculty of Civil Engineering 3 Reinforced Concrete I. / Beton Armat I. Concrete is a composite material composed of: -](https://reader033.vdocuments.us/reader033/viewer/2022053117/609844831755a67cf37206b4/html5/thumbnails/72.jpg)
Faculty of Civil EngineeringDr.ing. Nagy-György T. 72
Reinforced Concrete I. / Beton Armat I.
Deformations of concrete under long term static loadCreep – Time dependent deformation
- Creep and shrinkage in compressed elements acting in the same directionσs ↗ σc ↘
- In the case of tension elements or with tension zone the action of creep isfavorable and acțiunea curgerii lente este favorabilă and reduces the risk of cracking
σs ↗ σct ↘
- Transversal reinforcement does not influence the creep, because it has linearcharacter
- Creep has significant influence in case of deflection and buckling
![Page 73: Dr. NAGY-GYÖRGY Tamás Concre… · Dr.ing. Nagy-György T. Faculty of Civil Engineering 3 Reinforced Concrete I. / Beton Armat I. Concrete is a composite material composed of: -](https://reader033.vdocuments.us/reader033/viewer/2022053117/609844831755a67cf37206b4/html5/thumbnails/73.jpg)
Reinforced Concrete I. / Beton Armat I.
Deformations of concrete under long term static loadCreep in SR EN 1991-1-1
t 0 (d
ays
)
(∞, t0)
- Choose of environmental condition (RH=50% inside; RH=80% outside)- Choose of cement type (N, R, S)
- Choose of concrete class - compute h0 coefficient
Cf ck
/ f ck
,cu
be
h0=2Ac /u
Creep of the concrete depend on the ambient humidity, the dimensions of the element and the composition of the concrete + the maturity of the concrete when the load is first applied and depends on the duration and magnitude of the loading.
Facultatea de Construcții .Dr.ing. Nagy-György T. 73
![Page 74: Dr. NAGY-GYÖRGY Tamás Concre… · Dr.ing. Nagy-György T. Faculty of Civil Engineering 3 Reinforced Concrete I. / Beton Armat I. Concrete is a composite material composed of: -](https://reader033.vdocuments.us/reader033/viewer/2022053117/609844831755a67cf37206b4/html5/thumbnails/74.jpg)
Reinforced Concrete I. / Beton Armat I.
(∞, t0)
1. t0 - age of the concrete at time of loading 2. Secant
3. h0 [mm]
Cf ck
/ f ck
,cu
be
h0=2Ac /u
1
2
3
4
5
Facultatea de Construcții .Dr.ing. Nagy-György T. 74
Deformations of concrete under long term static loadCreep in SR EN 1991-1-1
t 0 (d
ays
)
Creep of the concrete depend on the ambient humidity, the dimensions of the element and the composition of the concrete + the maturity of the concrete when the load is first applied and depends on the duration and magnitude of the loading.
![Page 75: Dr. NAGY-GYÖRGY Tamás Concre… · Dr.ing. Nagy-György T. Faculty of Civil Engineering 3 Reinforced Concrete I. / Beton Armat I. Concrete is a composite material composed of: -](https://reader033.vdocuments.us/reader033/viewer/2022053117/609844831755a67cf37206b4/html5/thumbnails/75.jpg)
Faculty of Civil EngineeringDr.ing. Nagy-György T. 75
Reinforced Concrete I. / Beton Armat I.
Time dependent deformations – The total deformation of concrete
instantaneous deformations
shrinkage
creep
![Page 76: Dr. NAGY-GYÖRGY Tamás Concre… · Dr.ing. Nagy-György T. Faculty of Civil Engineering 3 Reinforced Concrete I. / Beton Armat I. Concrete is a composite material composed of: -](https://reader033.vdocuments.us/reader033/viewer/2022053117/609844831755a67cf37206b4/html5/thumbnails/76.jpg)
Faculty of Civil EngineeringDr.ing. Nagy-György T. 76
Reinforced Concrete I. / Beton Armat I.
Time dependent deformations – Effect of unloading on creep
εc0
εcc,t creep
elastic recovery
creep recovery
residual plastic deformation
![Page 77: Dr. NAGY-GYÖRGY Tamás Concre… · Dr.ing. Nagy-György T. Faculty of Civil Engineering 3 Reinforced Concrete I. / Beton Armat I. Concrete is a composite material composed of: -](https://reader033.vdocuments.us/reader033/viewer/2022053117/609844831755a67cf37206b4/html5/thumbnails/77.jpg)
Reinforced Concrete I. / Beton Armat I.
Time dependent deformations – Effect of unloading on creep
Facultatea de Construcții .Dr.ing. Nagy-György T. 77
Casting time
0
Strain
Timet0
Start of drying
![Page 78: Dr. NAGY-GYÖRGY Tamás Concre… · Dr.ing. Nagy-György T. Faculty of Civil Engineering 3 Reinforced Concrete I. / Beton Armat I. Concrete is a composite material composed of: -](https://reader033.vdocuments.us/reader033/viewer/2022053117/609844831755a67cf37206b4/html5/thumbnails/78.jpg)
Reinforced Concrete I. / Beton Armat I.
Facultatea de Construcții .Dr.ing. Nagy-György T. 78
0
Final shrinkage
t0
shrinkage
If no external force applied at t0
Time dependent deformations – Effect of unloading on creep
Casting time
Strain
TimeStart of drying
![Page 79: Dr. NAGY-GYÖRGY Tamás Concre… · Dr.ing. Nagy-György T. Faculty of Civil Engineering 3 Reinforced Concrete I. / Beton Armat I. Concrete is a composite material composed of: -](https://reader033.vdocuments.us/reader033/viewer/2022053117/609844831755a67cf37206b4/html5/thumbnails/79.jpg)
Reinforced Concrete I. / Beton Armat I.
Facultatea de Construcții .Dr.ing. Nagy-György T. 79
0
t0
If external force is applied at t0
shrinkage
Time dependent deformations – Effect of unloading on creep
Casting time
Strain
Time
![Page 80: Dr. NAGY-GYÖRGY Tamás Concre… · Dr.ing. Nagy-György T. Faculty of Civil Engineering 3 Reinforced Concrete I. / Beton Armat I. Concrete is a composite material composed of: -](https://reader033.vdocuments.us/reader033/viewer/2022053117/609844831755a67cf37206b4/html5/thumbnails/80.jpg)
Reinforced Concrete I. / Beton Armat I.
Facultatea de Construcții .Dr.ing. Nagy-György T. 80
0
inst
anta
neo
us
def
orm
atio
ns
t0
F
If external force is applied at t0
shrinkage
Time dependent deformations – Effect of unloading on creep
Casting time
Strain
Time
![Page 81: Dr. NAGY-GYÖRGY Tamás Concre… · Dr.ing. Nagy-György T. Faculty of Civil Engineering 3 Reinforced Concrete I. / Beton Armat I. Concrete is a composite material composed of: -](https://reader033.vdocuments.us/reader033/viewer/2022053117/609844831755a67cf37206b4/html5/thumbnails/81.jpg)
Reinforced Concrete I. / Beton Armat I.
Facultatea de Construcții .Dr.ing. Nagy-György T. 81
0
t0
If the force disappear
inst
anta
neo
us
def
orm
atio
ns
shrinkage
Time dependent deformations – Effect of unloading on creep
Casting time
Strain
Time
![Page 82: Dr. NAGY-GYÖRGY Tamás Concre… · Dr.ing. Nagy-György T. Faculty of Civil Engineering 3 Reinforced Concrete I. / Beton Armat I. Concrete is a composite material composed of: -](https://reader033.vdocuments.us/reader033/viewer/2022053117/609844831755a67cf37206b4/html5/thumbnails/82.jpg)
Reinforced Concrete I. / Beton Armat I.
Facultatea de Construcții .Dr.ing. Nagy-György T. 82
𝜎𝑏 = 𝑐𝑜𝑛𝑠𝑡𝑎𝑛𝑡
LOAD
0
t1
cre
ep
t0
If the load is maintained
inst
anta
neo
us
def
orm
atio
ns
shrinkage
Time dependent deformations – Effect of unloading on creep
Casting time
Strain
Time
![Page 83: Dr. NAGY-GYÖRGY Tamás Concre… · Dr.ing. Nagy-György T. Faculty of Civil Engineering 3 Reinforced Concrete I. / Beton Armat I. Concrete is a composite material composed of: -](https://reader033.vdocuments.us/reader033/viewer/2022053117/609844831755a67cf37206b4/html5/thumbnails/83.jpg)
Reinforced Concrete I. / Beton Armat I.
Facultatea de Construcții .Dr.ing. Nagy-György T. 83
𝜎𝑏 = 𝑐𝑜𝑛𝑠𝑡𝑎𝑛𝑡
0
t1t0
If the load is maintained further
Tota
l str
ain
LOAD
cre
ep
inst
anta
neo
us
def
orm
atio
ns
shrinkage
Time dependent deformations – Effect of unloading on creep
Casting time
Strain
Time
![Page 84: Dr. NAGY-GYÖRGY Tamás Concre… · Dr.ing. Nagy-György T. Faculty of Civil Engineering 3 Reinforced Concrete I. / Beton Armat I. Concrete is a composite material composed of: -](https://reader033.vdocuments.us/reader033/viewer/2022053117/609844831755a67cf37206b4/html5/thumbnails/84.jpg)
Reinforced Concrete I. / Beton Armat I.
Facultatea de Construcții .Dr.ing. Nagy-György T. 84
𝜎𝑏 = 𝑐𝑜𝑛𝑠𝑡𝑎𝑛𝑡 𝜎𝑏(𝑡1) = 0
UNLOAD
0
elastic recovery
t1
creep recovery
t0
If is unloaded
Re
sid
ual
str
ain
time
LOAD
cre
ep
inst
anta
neo
us
def
orm
atio
ns
shrinkage
Time dependent deformations – Effect of unloading on creep
Casting time
Strain
Time
![Page 85: Dr. NAGY-GYÖRGY Tamás Concre… · Dr.ing. Nagy-György T. Faculty of Civil Engineering 3 Reinforced Concrete I. / Beton Armat I. Concrete is a composite material composed of: -](https://reader033.vdocuments.us/reader033/viewer/2022053117/609844831755a67cf37206b4/html5/thumbnails/85.jpg)
Reinforced Concrete I. / Beton Armat I.
Facultatea de Construcții .Dr.ing. Nagy-György T. 85
0
t1t0
𝜎𝑏 = 𝑐𝑜𝑛𝑠𝑡𝑎𝑛𝑡 𝜎𝑏 = 0
UNLOAD
elastic recovery
creep recovery
Re
sid
ual
str
ain
time
LOAD
cre
ep
inst
anta
neo
us
def
orm
atio
ns
shrinkage
Time dependent deformations – Effect of unloading on creep
Casting time
Strain
Time
![Page 86: Dr. NAGY-GYÖRGY Tamás Concre… · Dr.ing. Nagy-György T. Faculty of Civil Engineering 3 Reinforced Concrete I. / Beton Armat I. Concrete is a composite material composed of: -](https://reader033.vdocuments.us/reader033/viewer/2022053117/609844831755a67cf37206b4/html5/thumbnails/86.jpg)
Faculty of Civil EngineeringDr.ing. Nagy-György T. 86
Reinforced Concrete I. / Beton Armat I.
Deformations of concrete under repeated dynamic loads
stabilization
failure
r = remanent strain (irreversible)
![Page 87: Dr. NAGY-GYÖRGY Tamás Concre… · Dr.ing. Nagy-György T. Faculty of Civil Engineering 3 Reinforced Concrete I. / Beton Armat I. Concrete is a composite material composed of: -](https://reader033.vdocuments.us/reader033/viewer/2022053117/609844831755a67cf37206b4/html5/thumbnails/87.jpg)
Faculty of Civil Engineering .Dr.ing. Nagy-György T. 87
Thank you for your attention!
Reinforced Concrete I. / Beton Armat I.
Dr. NAGY-GYÖRGY TamásAssociate Professor
E-mail: [email protected]
Tel:+40 256 403 935
Web:http://www.ct.upt.ro/users/TamasNagyGyorgy/index.htm
Office:A219