Friday, June 29, 2018

COMPARISON BETWEEN CPCC, FBEC & CRSD

A Vision To Clear Solutions.


Before doing the comparison study lets know what these terms mean.
CPCC –Cement-Polymer Composite Coated Rebars
FBEC – Fusion Bonded Epoxy Coated Rebars
CRSD – Corrosion Resistant Steel Deformed Rebars
1.0   Corrosion Control of Reinforcement bars (Rebars)
40% of failure of structures is on account of corrosion of embedded steel reinforcement in concrete. Therefore corrosion control of steel reiorcement is a subject of paramount importance.First and foremost for corrosion control is the good quality of concrete through good construction practices.



2.0 Cement-Polymer Composite Coated Rebars (CPCC)
System at a glance
Products involved in CPCC normally are:
• De-rusting Solution
• Alkaline Powder
• Phosphating Jelly
• Inhibitor Solution
• Sealing Solution
S No
Parameter
Requirement
1.
Pre-treatment
(Surface reparation)
Sand blasting to the near white metal
2.
Primer Coat
To be given within 4 hours of sand blasting.
3.
Sealer Coat
Within 30 minutes of primer coat, this should be given. Thickness 150 microns plus minus 25 microns.
4.
Air curing
Six hours before use in the work.
5.
Continuity of coating
No defects such as cracking, bulging, peeling, no rust mark. Inspect visually.
6.
Adhesion of coating – test
Coated bars are bent at 120 o around a mandrel. NO peeling or cracking should be observed on outer radius.
7.
Stacking
Stack bars on buffer material.
8.
Cutting , bending, welding
Coat bars can be cut and bent. Cut ends and weld positions should be treated with same formulation.
Advertisements
This system has been developed mainly as a factory / shop process.
• The approach behind development of this system is that the base metal of rebars, contains ? electrons which get readily released in corrosive environment leading to oxidation of iron and thereby formation of Ferrous Oxide (II) (rust) as principal deterrent.
• In order to prevent this oxidation a surface coating capable of interacting/nullifying the released electrons is provided.
• Further pre-stressing and reinforcing steel, in concrete during service life, are exposed to an alkaline environment and this necessitates introductions of a top coat which should be compatible to primer and alkaline environment.
3.0 Fusion Bonded Epoxy Coated Rebars (FBEC)
System at a glance
No.
Parameter
Requirement
1.
Pre-treatment
(Surface reparation)
1. Bars are first cleaned from surface contamination
such as oil, grease etc. by chemical process before shot blasting.
2. The reinforcement bars are cleaned by shot blasting or
grit blasting to white or near white stage.
3. The blast cleaned bars are then heated through
induction heaters at preset temperature level around 230°C.
2.
Coating
Hot bars are then fed to the coating booth, where the
epoxy powder is sprayed electrostatically.
3.
Curing and Cooling
Coated bars are then cured and forced
cooled by water spraying to enable handling and testing.
4.
Continuity of coating
On line and off line holiday checks, thickness checks are carried out. The adhesion of the coated bars is also tested frequently by bending of the bar.
5.
Testing of Performance of
rebar
Various other tests are performed in laboratory like chemical resistance, short spray, resistance in continuance boiling water, abrasion resistance and impact resistance etc. These are conducted on every batch of production.
6.
Handling & Stacking
Fusion Bonded Epoxy Coated Bars require padded contacts during transportation, stacking, handling and till the concreting is done.
7.
Cutting, bending & welding
The cut ends, welded spots and handling damages are required to be repaired with special liquid epoxy compatible with the coating material as per specification of the coating agency.
• Fusion bonded epoxy is basically 100% solid finely ground fused powder particles, which when heated; melt to form a continuous adherent film.
• There is no passivating primer film provided in case of FBEC rebars.
• This coating introduces a medium of weakness in the path of an intimate bond between rebar and alkaline concrete.
• Extensive investigation carried out on 40 bridges in Florida Key in USA has revealed that disbandment can occur easily in the FBEC rebars which lacked passivation layer of Ferrous oxide (II) and is a precursor to corrosion.
• Higher co-efficient of Thermal Expansion of fusion bonded epoxies impose large thermal stresses in epoxy coating leading to its early failure.
Epoxy coats the rebar in the following manner:
Melts
Flows
Gels
Cures
Cools
Adheres as coating


4.0 Corrosion Resistant Steel Deformed Rebars (CRSD)
• Mechanism of resistance to corrosion begins with the formation of initial layer of protective oxide or rust. (Hypo oxides). Unlike common rust on normal rebars, the CRSD rust is passive, tenacious and self-renewing.
• The protective oxide is fine textured, tightly adherent and a barrier to moisture, oxygen, carbon dioxide, Sulphur dioxide and chloride effectively preventing further corrosion.
• Scale on normal bars of steel is coarse textured flaky oxide that does not prevent moisture or oxygen from reaching the underlying bars and continuing the corrosion.
• As corrosion resistance is in the chemistry of the grade, if the passive oxide layer gets removed somehow, a new passive layer is formed immediately.
CRSD – Mechanical Properties
Properties
IS:1786 Fe500D
CRSD
Yield Stress, YS (min, N/mm2)
500
500
% Elongation
16
16
Ultimate Tensile Strength, UTS (min, N/mm2)
565
580

5.0       Comparison (CPCC – FBEC – CRSD)
Parameters
CPCC
FBEC
CRSD
Thickness of Coating
175 mm – 300 mm
300 mm – 675 mm
No coating required
Type of Protection to rebar
Extrinsic
Extrinsic
Intrinsic
Pre-treatment
Pretreatment is required before coating
Pretreatment is required before coating
No pre-treatment required
Treatment to surface
Before coating the surface made little rough when some damage is introduced.
Before coating the surface made little rough when some damage is introduced.
The surface of the finished good is not disturbed or damaged at all.
Temperature treatment
The whole process is done at room temperature.
230°C – 400°C
No treatment required
Special Bending requirement
Modified mandrel diameter is specified by Indian Standard
Modified mandrel diameter is specified by Indian Standard
Same as other TMT rebars of Fe 500D grade
Defects introduced
Holiday Effect
Holliday Effect
Nil

No comments:

Post a Comment