Presented by Rusty Boicourt, P.G. NDE & Materials ......mix expressed as a decimal. • Theoretical...
Transcript of Presented by Rusty Boicourt, P.G. NDE & Materials ......mix expressed as a decimal. • Theoretical...
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Fundamentals of ConcreteFundamentals of Concrete
Presented byPresented byRusty Boicourt, P.G.
NDE & Materials SpecialistMaterials Testing & Inspection
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Concrete HistoryConcrete History
Named after quarry stone from the Isle of Portland in Britain.
First used by Joseph Aspdin from Leeds, England in 1824.England in 1824.
Other forms used throughout antiquity.
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Pantheon, RomePantheon, Romebuilt by Emperor Hadrian ~126 ADbuilt by Emperor Hadrian ~126 AD
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StabiaeStabiae Baths, PompeiiBaths, Pompeiibuilt 1built 1stst CenturyCentury
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Temple of Mercury, Temple of Mercury, BaiaeBaiaebuilt ~19 BCbuilt ~19 BC
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Glossary of TermsGlossary of Terms
Components
W/cm ratio
Admixtures
Pozzolans
Heat of Hydration
Curing
Drying
Concrete TestingPozzolans
Workability
Consolidation
Hydration
Concrete Testing
Compressive Strength
Permeability
Durability
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Cross Section of Hardened Cross Section of Hardened ConcreteConcrete
Concrete made with siliceous rounded gravelrounded gravel
Concrete made with crushed
limestone
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Concrete ComponentsConcrete Components
• Cement
• Water
• Fine • Fine Aggregate
• Coarse Aggregate
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Range in ProportionsRange in Proportions
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Cement TypesCement Types
• Type I: general purpose portland cement suitable for most uses.
• Type II: moderate sulfate resistant for use in sulfate-rich conditions.use in sulfate-rich conditions.
• Type III: high early strength.
• Type IV: hydration retarding.
• Type V: high sulfate resistant.
• Type _A: air entrained variants.
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Cement TypesCement Types
• Type I: general purpose portland cement suitable for most uses.
• Type II: moderate sulfate resistant for use in sulfate-rich conditions.use in sulfate-rich conditions.
• Type III: high early strength.
• Type IV: hydration retarding.
• Type V: high sulfate resistant.
• Type _A: air entrained variants.
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CementTypesCementTypes
• Type I: general purpose portlandcement suitable for most uses.
• Type II: moderate sulfate resistant for use in sulfate-rich conditions.use in sulfate-rich conditions.
• Type III: high early strength.
• Type IV: hydration retarding.
• Type V: high sulfate resistant.
• Type _A: air entrained variants.
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AdmixturesAdmixtures
• Additives introduced during batching to modify the physical properties of a concrete.
• Typically a liquid compound.• Typically a liquid compound.
• Must come from same manufacturer to assure compatibility.
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AdmixturesAdmixtures
• Water-Reducing Admixture (WRA)
• Air-Entraining Admixture (AEA)
• Plasticizer
• Accelerant• Accelerant
• Hydration retarders
• Waterproofing ???
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PozzolansPozzolans
• Materials that replace portland cement and generate strength.
• Typically a powdered solid:
� Fly ash� Fly ash
� Silica fume
� Lime
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W/CM Ratio W/CM Ratio
• Ratio of mass of water to mass of cementing materials in a concrete mix expressed as a decimal.
• Theoretical minimum w/cm ratio of • Theoretical minimum w/cm ratio of typical concrete ranges from 0.28 to 0.35.
• Common practice w/cm ratio ranges from 0.40 to 0.55.
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• Reducing w/cm ratio is the most effective way to increase the durability of concrete.
• Maintain workability using
W/CM Ratio W/CM Ratio
• Maintain workability using admixtures while achieving high-strength and low permeability.
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Typical Relationships of Typical Relationships of Strength to W/CMStrength to W/CM--RatioRatio
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Advantages of Reducing Water Advantages of Reducing Water ContentContent
• Increased strength
• Lower permeability
• Increased resistance to weatheringweathering
• Better bond between concrete and rebar
• Reduced drying shrinkage and cracking/curling
• Less volume change from wetting and drying
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To Calculate (by weight):
• w/cm = water wgt/cement wgt
W/CM Ratio W/CM Ratio
water cementfly ash
• = 300 lbs/450 lbs + 150 lbs
• = 300/600
• = .50
water cementfly ash
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Concrete ComponentsConcrete Components
• The only construction material that when it is delivered has none of its intended properties.intended properties.
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Concrete ComponentsConcrete Components
• Batching
• Mixing
• Delivery• Delivery
• Placement
• ACI 301 and 302 and ASTM C94
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Concrete ComponentsConcrete Components
Batching
• Set forth in ACI 302.1R section 7.1
• Cement, aggregate, water are • Cement, aggregate, water are measured by mass (weight)
• Admixtures and pozzolans must be carefully measured; liquids are preferred.
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Concrete ComponentsConcrete Components
Mixing
• Occurs inside drum of truck.
• Sufficient time to develop the • Sufficient time to develop the required slump and air content.
• Water withheld at batch plant and added onsite.
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Concrete ComponentsConcrete Components
Delivery
• Pot life depends on temperature and humidity and mix design.
• Maximum of 90 minutes.
• Maximum of 300 drum revolutions.
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Who Owns the Concrete?Who Owns the Concrete?
They own it
You own it
Inspection
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HydrationHydration
• Is the chemical reaction between the cement and water in which new compounds with strength producing properties are formed.
Heat of HydrationHeat of HydrationHeat of HydrationHeat of Hydration
• Is the heat given off during the chemical reaction as the cement hydrates.
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CuringCuring
• Maintenance of moisture and temperature in concrete for a suitable period immediately following placement & finishing to develop desired physical to develop desired physical properties:
� Time
� Temperature
�Moisture
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DryingDrying
• Independent of curing. Drying is the process of free-water (water not consumed in hydration) volatilizing from the hydration) volatilizing from the concrete.
• Concrete will cure even when placed under water.
• Water that dries out leaves void space in the cement.
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WorkabilityWorkability
That property of freshly mixed concrete that determines its working characteristics:
• Mixing• Mixing
• Placing
• Compacted
• Finished
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WWorkability & Consolidationorkability & Consolidation
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WorkabilityWorkability
Flowable
Placement
Pot-life
Important Important constructability
property
Orange safety vest→
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• Batch concrete with low w/cm ratio and use WRA or plasticizer to achieve desired slump.
• If more workability is needed
Improving Workability
• If more workability is needed on-site, add additional plasticizer. Water should not be added on-site unless mix is adjusted at the batch plant.
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Compressive StrengthCompressive Strength
• Is defined as the measured maximum resistance of a concrete specimen to an axial load at an age of 28-days (ASTM C42-10).of 28-days (ASTM C42-10).
� Most general-construction concrete: 20 to 40 Mpa (3000 to 6000 psi).
� High-strength concrete by definition:
70 MPa or greater (>10000 psi).
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Compressive Strength & LoadingCompressive Strength & Loading
• Slabs and pads are supported by compacted, structural fill.
• Slabs and pads are designed to be in compression.in compression.
• The spring coefficient (k) of the soil determines the strength of the slab/pad.
• Tensile/shear strength ~10% of f’c.
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Compressive Strength & LoadingCompressive Strength & Loading
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Compressive Strength & LoadingCompressive Strength & Loading
6296
4640
6396
y = 1931ln(x) + 172.8
5000
6000
7000
8000
Compressive Strength f'c• 0 days: 0 psi
• 7 days: 4500 psi
0
4500
0
y = 1897.7ln(x) + 153.21
0
1000
2000
3000
4000
5000
psi
time
~80%
4500 psi 4640 psi
• 28 days: 6296 psi 6396 psi
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Compressive Strength & LoadingCompressive Strength & Loading
Test Case
• Day 14: 5200 psi
• MOR: 5√f’c = 360 psi
• MOR: 9√f’c = 650 psi
• Shear strength for the portion of the load not supported by the soil.
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Compressive Strength & LoadingCompressive Strength & Loading
• Greatest strength in the core.
• “Free edges” have less strength.
• A side edge would be ½ the MOR.
• A corner would be ¼ MOR.
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Compressive Strength & LoadingCompressive Strength & Loading
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PermeabilityPermeability
• Amount of water migration through concrete when the water is under pressure.
• The ability of concrete to resist • The ability of concrete to resist penetration by water or other substances (liquids, gas, ions, etc.).
• For most concretes low-permeability is desired.
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• The ability of a concrete to achieve the designed service life without excess deterioration.
• Is not only dependent upon
DurabilityDurability
• Is not only dependent upon concrete strength.
• A typical minimum service life for normal concrete is at least 50 years. 75 years is proposed by ACI and PCA. Nuclear reactors 120 years.
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Ability of the concrete to resist its environment:
• Weathering/erosion
� Moisture
DurabilityDurability
� Moisture
� Freezing and thawing
� Temperature changes
• Physical impact
• Chemical attack
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Three keys to durability:
• Low w/cm
• Air entrainment
DurabilityDurability
• Air entrainment
• Curing
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DurabilityDurability
Resistance to:
• Weathering/erosion
• Physical impact• Physical impact
• Chemical attack
• Physical stresses
• Fatigue
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DurabilityDurability
• The ability of a concrete to achieve the designed service lifewithout excess deterioration.
• Is not dependent upon concrete • Is not dependent upon concrete strength.
• A typical minimum service life for normal concrete is at least 50 and often 75 years.
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Concrete TestingConcrete Testing
Field sampling and testing of fresh concrete:
• Air entrainment
• Slump cone
Laboratory testing of castings:
• 28-day compressive strength (f’c)
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Concrete TestingConcrete Testing
Air entrainment:
• 5% air content +/-1.0%
Slump:Slump:
• 3 to 4 1/2 inches
28-day f’c
• Typically 4,000 psi
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Air EntrainmentAir Entrainment
The only effective protection against freeze/thaw damage.
Consists of:
• Microscopic bubbles (1µm to 1 mm)• Microscopic bubbles (1µm to 1 mm)
• Evenly dispersed (.008 in. spacing)
• At 4% by volume (±1%)
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Air EntrainmentAir Entrainment
The only effective protection against freeze/thaw damage.
Consists of:
• Microscopic bubbles (1µm to 1 mm)• Microscopic bubbles (1µm to 1 mm)
• Evenly dispersed (.008 in. spacing)
• At 4% by volume (±1%)
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Air EntrainmentAir Entrainment
Field Measurement (fresh):
• Volumetric method by ASTM C 173
• Pressure method by ASTM C 231• Pressure method by ASTM C 231
� Is most commonly used
� Must be corrected for aggregate porosity
� Measures total air (entrained + entrapped air)
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Air EntrainmentAir Entrainment
All concrete contains air bubbles:
• Large, entrapped, accidental air
• Small, entrained, intentional air• Small, entrained, intentional air
� Made small by the type of agent
� Stabilized by static charge
� Kept spherical by surface tension
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Air EntrainmentAir Entrainment
air
shell Large bubbles: low shell to air ratio.
air
shellSmall bubbles: high shell to air ratio.
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HotHot--Weather Concrete PracticeWeather Concrete Practice
Potential problems:
• Early setting
• Slump loss (workability)
• Rapid drying shrinkage
• Plastic shrinkage
• Other?
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HotHot--Weather Concrete PracticeWeather Concrete Practice
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HotHot--Weather Concrete PracticeWeather Concrete Practice
General weather conditions that may trigger hot-weather practices:
• Temperatures >90°F
• Relative humidity <25%• Relative humidity <25%
• Winds in excess of 20 mph
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HotHot--Weather Concrete PracticeWeather Concrete Practice
Recommended mitigation for high temperatures:
• Reduce cement content
• Add WRA or retarding • Add WRA or retarding admixtures
• Chill mix water (ice!?)
• Cool rebar
• Use water fog
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HotHot--Weather Concrete PracticeWeather Concrete Practice
Recommended mitigation for windy conditions:
• Use water fog
• Use wet burlap• Use wet burlap
• Apply pigmented curing agents
• Cover with plastic sheeting
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ColdCold--Weather Concrete PracticeWeather Concrete Practice
General weather conditions that may trigger hot-weather practices:
• Temperatures <35°F
• Winds in excess of 10 mph• Winds in excess of 10 mph
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ColdCold--Weather Concrete PracticeWeather Concrete Practice
Recommended mitigation for
freezing temperatures:
• Warm mix water
• Accelerant admixture (non Cl-)• Accelerant admixture (non Cl-)
• Cover with insulating blankets
• Provide heat
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Corroded SteelCorroded Steel
Cover (clear cover) is what protects the reinforcement from degradation.
• 1.5 inches for above-grade elements.
• 3 inches for below-grade elements.
• Good quality concrete with appropriate cover should protect reinforcement from corrosion for 50 years.
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Corroded Steel Due to Chlorides Corroded Steel Due to Chlorides or Carbonationor Carbonation
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Corroded SteelCorroded Steel
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• Non-air-entrained
• High w/cm ratio
Freeze-Thaw Attack
samples subjected to 150 Cycles of freezesamples subjected to 150 Cycles of freeze--thawthaw
• Air-entrained
• Low w/cm ratio
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Freeze-Thaw Attack
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Freeze-Thaw Attack
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Freeze-Thaw Prevention
• Air entrainment is the only effective method of prevention.
• The capture and stabilization of a microscopic air-void system using microscopic air-void system using chemical admixtures (AEA).
• Must be microscopic and well-dispersed: (~5%, <1mm, .0007 in).
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AlkaliAlkali--Aggregate Reactivity Aggregate Reactivity (AAR)(AAR)
• Is a reaction between the active mineral constituents of reactive aggregates and the sodium and potassium alkali hydroxides and calcium hydroxide in the concrete.calcium hydroxide in the concrete.
�Alkali-Silica Reaction (ASR)
�Alkali-Carbonate Reaction (ACR)
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AlkaliAlkali--Silica Reactivity (ASR)Silica Reactivity (ASR)
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AlkaliAlkali--Silica Reactivity (ASR)Silica Reactivity (ASR)
• Control ASR with:� Fly ash� Slag�Calcined clay�Calcined clay�Blended cement� Low-alkali cement
� Lithium compounds
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Common ProblemsCommon Problems
• Workmanship defects
• Material defects
• Environmental exposure• Environmental exposure
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Common ProblemsCommon Problems
Workmanship defects:
• Poor consolidation – concrete is too stiff; not prepared for challenges; lack of vibration.challenges; lack of vibration.
• Overworking – depleting the air-entrainment.
• Re-tempering the surface.
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Common ProblemsCommon Problems
Material defects
• High w/cm ratio
• Lack of air-entrainment• Lack of air-entrainment
• Reactive aggregate
• Non-durable particles
• Admixture incompatibility
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QUESTIONS?QUESTIONS?