Half-Cell-Potential-Measurement-for-Concrete.ppt

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to find the rebar corrosion in concrete

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Half Cell Potential
Measurement Testing (HCPM)
The Objectives of Concrete Testing
Principle of Measurement &
Equipment (HCPM)
Nondestructive Vs Destructive Test
Comparison with Other Tests
Tips of Prevention for Corrosion
Discussion

The Objectives of The
Concrete Testing

Useful of Concrete Testing
Prediction of in-place concrete strength (relative
strength comparison, unless correlated with laboratory
strength tests, for example, core compressive strength
tests);
Location and extent of delaminations due to
reinforcement corrosion;
Location, size, and distribution of reinforcement bars;
Location and extent of concrete cracking;
Severity, location, and extent of fire and frost damage;
Location and extent of void honeycombing;
Determination of concrete thicknesses; and
Evaluation of reinforcement corrosion activity and rate.

Concrete Condition Assessment
Testing data helps Engineer on assessing a
building structure condition
Testing data helps Owner to monitor and control
their building structure condition
Testing data helps Engineer to design suitable
solutions on mitigating defects.
Testing data helps Owner to budget their building
maintenance cost, insurance…etc.
Testing data provide a good trend record on
building management

Example (1) –A Building Ceiling

Example (2) –Car Park

Principle of Measurement
& Equipment

What kind of parameter is useful for concrete
assessment?
•Temperature
•Humidity
•PH value
•Potential difference
•Polarization resistance
•Current density data
HCPM method uses potential difference.
Useful Parameters

Corrosion in Concrete
Anode
Reaction
Fe –2eFe
2+
Cathode Reaction
2H
2O + O
2+ 4e
4OH
-
•H
2O •H
2O•O
2 •O
2
•Cl
-
•Cl
-
•OH
- •OH
-
•Cathode •Cathode
•Anode
•e
- •e
-•Fe
2+
•rust•rust
•Cl
-
•Cl
-
•Cl
-
•Cl
-
•Cl
- •Cl
-
•Cl
-

Concrete Resistivity
Testing Mechanism
•I•~
•V
•S •S
•S
•Voltmeter
•Ammeter
•Alternating
•Current Supply
•Electrodes
•Current Flow Lines
•EquipotentialSurface

Corrosion Values
In ASTM C876 to determine possibility of corrosion
for a Copper-Copper Sulfate Reference Electrode
mV Range Probability of Corrosion
0 to -200 > 90% No Corrosion
-200 to -350 Uncertain Corrosion Activity
Less than -350 > 90% Corrosive Activity

Tips for using Half-cell
1.Concrete cover less than 75mm
2.Temperature range: 0 -49℃
3.Steel does not have metallic coating
4.Condition required experience corrosion
engineer or specialist:
a)Concrete is saturated in water
b)Carbonated at the depth of reinforcing steel
c)Steel is coated
d)Contains chloride or bromide

Instrument
•Wire Port to rebar
•Cell Holder
•Meter
•Meter Set

Nondestructive Test (NDT)
Vs Destructive Test (DT)

Nondestructive Test Vs
Destructive Test
DestructiveTesting(DT)involvesthephysical
destructionofacomponents.Avarietyoftesting
methodscanbeemployedtoevaluatethe
component'scharacteristics,italwaysrefertoa
samplinginspections.
DestructiveTesting(NDT)involvesinspectionof
acomponentsbysubjectingthemtotherequired
serviceconditionstodeterminesuitability.They
willnotbreakoralterthestructureor
appearanceofthefrictionofacomponent.

Destructive Test for Concrete
Tensile Test
Impact / Compression Test
Hardness Test
Fracture Test
Bend Test
Core Sample Test

Comparsion of Testing Method
•Non-destructive Test
On-site
Simple & faster
No damage to
installation
Cost effective
Require usually hand-
held equipment
Easy space allocation
Usually outdoor and
weather dependent
Destructive Test
Workshop or Laboratory
Heavy & time consuming
Rebuilt the testing point
Higher cost
Require elaborate
equipment
Difficult to some
locations
Indoor and weather
independent

Comparison with Other
Tests

Comparison to Other Tests
•Rebound Hammer ASTM C805
•Penetrating Probe ASTM C803
•Ultrasonic Wave Velocity
Through transmission testing
ASTM C597
Impact Echo testing ASTM C1383
•Pullout Test ASTM C900

Rebound Hammer ASTM C805

Rebound Number Correlations

Penetrating Probe ASTM C803

Penetrating Probe Correlations

Ultrasonic Wave Evaluation

Ultrasonic
Pulse
Velocity
ASTM
C597

ComparsionTable

Tips of Prevention for
Corrosion in Concrete

Corrosion may be prevented or
controlled by:
materials selection
reducing the temperature
applying physical barriers
adding inhibitors
cathodicprotection
•using metals that form a protective oxide
layer
•Painting/coating

Example of Applying Physical Barriers
Now aday Special coating such as epoxy or silicate are used
History of Development of Physical Barriers

Example of adding inhibitors
Spray-appliedreactivepenetrantscombinewithalkalis
withintheconcrete,reducingthepHandpermeability
tomoisturevapor

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