1500 - E117 - Concrete Technology and Codes - 13 - Curing

ML12153A355
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Issue date:	06/01/2012
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Concrette Tech C hnolog gy and Codes s

Curing g

Definition of Curing Curing - maintenance of a satisfactory moisture content and temperature in concrete for a period of time immediately following placing and finishing so that desired properties may develop Important for all concrete, but particularly when:

• Placing conditions result in rapid drying of fresh concrete

• Concrete exhibits little bleeding g (e.g.

( g silica fume concrete))

• Concrete develops properties slowly (e.g. fly ash concrete)

Hydration of cement Portland cement is a hydraulic cement: its components, t mainly i l calcium l i silicates, react with water to form other components called calcium silicate y

hydrates hydrates- -CSH ((hydration y )).

hydration).

Hydration stops when internal humidity is lower than 80% or temp. falls below 1414ºF

ºF

Abrams 1919

Abrams, Still holds in 2009?

Why cure concrete?

• To allow cement hydration progress and the concrete to develop its desired properties

• To prevent moisture loss from the plastic concrete (protect against plastic shrinkage cracking)

• To o minimizee moisture o s u e loss oss from o thee concrete o eea after e

setting (drying shrinkage)

Effect of the Duration of Moist-Moist-Curing on the Strength Development for Concrete 40 Strength gain of concrete stored in fog room (or 30 immersed in lime Strength (M S MPa) water) t )

20

- i.e.

continuouslyy Continuous cured 10 curing 0

1 3 7 14 28 Age (days)

Effect of the Duration of Moist-Moist-Curing on the Strength Development for Concrete If concrete is not cured for a sufficient 40 period of time, time it will not develop its full potential in terms of 30 Strrength (MP Pa) p compressive strength g

(and other properties). 20 The pproperties p of concrete close to the Continuous surface are 10 1 day particularly sensitive t curing to i effects.

ff t Concrete at depth 0 1 3 7 14 28 will lose its moisture att a slower l rate t A (d Age (days))

when the surface is not protected.

Effect of the Duration of Moist-Moist-Curing on the Strength Development for Concrete 40 As the duration of moist i t curing i isi extended -

30 concrete achieves Strrength (MP Pa) a greater proportion of its 20 maximum potential strength p g Continuous 10 7 days 3 days 1dday 0

1 3 7 14 28 Age (days)

Curing Requirements - ACI 308R- 308R-01 Basic Curingg Period 7 days above 50oF or Time to reach 100% of specified performance, including post post-curing curing gains Additi AdditionallCCuring i R Requirements i t Based B d on Exposure

Curing Requirements - ACI 308R- 308R-01 (Continued)

St ct al Safety Structural Safet Curing period extended until 70% of specified strength is reached Reinforced Mass Concrete 7 days or until 70% of specified strength is reached Unreinforced Mass Concrete 2 weeks without SCMs SCMs, 3 weeks with SCMs

Methods of Curing

1. Ponding or continuous sprinkling

2. Absorptive mat or fabric continuously wet

3. Wet sand or straw 4

4. Spray curing compounds

5. Waterproof paper or plastic film

6. Vapor mist bath (precast)

7. Forms in contact with concrete surface

8. Others, approved by the Owner

Methods of Curing

1. Ponding or continuous sprinkling

2. Absorptive mat or fabric continuously wet

3. Wet sand or straw

4. Spray curing compounds

5. Waterproof paper or plastic film

6. Vapor mist bath (precast)

7. Forms in contact with concrete surface f

8. Others, approved by the Owner

Methods of Curing

1. Ponding or continuous sprinkling

2. Absorptive mat or fabric continuously wet

3. Wet sand or straw 4

4. Spray curing compounds

5. Waterproof paper or plastic film

6. Vapor mist bath (precast)

7. Forms in contact with concrete surface

8. Others, approved by the Owner

Methods of Curing

1. Ponding or continuous sprinkling

2. Absorptive mat or fabric continuously wet

3. Wet sand or straw 4

4. Spray curing compounds

5. Waterproof paper or plastic film

6. Vapor mist bath (precast)

7. Forms in contact with concrete surface

8. Others, approved by the Owner

Methods of Curing

1. Ponding or continuous sprinkling

2. Absorptive mat or fabric continuously wet

3. Wet sand or straw

4. Spray curing compounds

5. Waterproof paper or plastic film

6. Vapor mist bath (precast)

7. Forms in contact with concrete surface f

8. Others, approved by the Owner

Methods of Curing

1. Ponding or continuous sprinkling

2. Absorptive mat or fabric continuously wet

3. Wet sand or straw

4. Spray curing compounds

5. Waterproof paper or plastic film

6. Vapor mist bath (precast)

7. Forms in contact with concrete surface f

8. Others, approved by the Owner

Methods of Curing

1. Ponding or continuous sprinkling

2. Absorptive mat or fabric continuously wet

3. Wet sand or straw

4. Spray curing compounds

5. Waterproof paper or plastic film mperature (oC Curing Tem C)

6. Vapor mist bath (precast)

7. Forms in contact with concrete surface f

8. Others, approved by the Owner

Methods of Curing

1. Ponding or continuous sprinkling

2. Absorptive mat or fabric continuously wet

3. Wet sand or straw

4. Spray curing compounds

5. Waterproof paper or plastic film

6. Vapor mist bath (precast)

7. Forms in contact with concrete surface f

8. Others, approved by the Owner

METHODS OF CURING Membrane Partially saturated

• SEAL IN MIXING WATER Spray curing compound Saturated Waterproof paper Polyethylene sheets

• SUPPLY ADDITIONAL WATER Water supplied from external Ponding source Soaker hose Wet sand W t burlap Wet b l S Saturated d Immersion (precast)

Steam curing (saturated air)

600 4

Tensile Strength 500 Cracking Drying y g Stress 3 400 Tension n, psi Tension,, Mpa 300 8 in. (200 mm) wall 2 73 °F (23 °C) temp.

Fully Restrained 200 Cement: 517 lb / ya 3 (307 kg / m 3 )

W / C = 0.45 1 100 3 7 Start of drying at 50% R.H.

1 28 40 60 Age, days

Timing of Operations Heat Development Heat generated H d Contact of cement and water setting 0 2 to 3 Time (hours)

Evaporation of Surface Moisture from Concrete

Precautions to Minimize Plastic Shrinkage Cracking

• Moisten aggregates

• Cool aggregates and mixing water

• Dampen subgrade

• Erect temporary windbreaks and sunshades

• Cover concrete

• Fogg slab immediately y after placing

• Add plastic fibers

Fogging Good Fogging Bad Fogging Evaporation Retarders Curing Compound Applied to Fresh Concrete Moist Curing After the C

Concrete t HHardens d

Ad Adequate t curing i isi essential ti l

Wet burlap & plastic X

Curing Membrane

X

Ensuring Adequate Curing

• Curing should be a separate pay item in the contract

• Contractor should submit a curing plan

• The various tasks - initial, intermediate &

final curing - have to made someones specific responsibility

• Adequate inspection required

• Problems with curing-membrane systems?

• Proper coverage/application

• No thermal benefit (+/-)

( /)

• Bonding of subsequent overlay materials

Field example, Iff time allowsll Examplel where h curing was criticall on thin h

low permeability shotcrete overlay:

Specification 1/2 - in. thick 6000 psi at 28 days Less then 1500 coulombs rating (low permeability)

Bond strength of 200 psi Project Climate: frequently hot and windy conditions

Questions.