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INSPECTION TEST PLAN
The inspection and test plan is a vital part of Quality control and Quality assurance plan. It occurs in different stages of work implementation as already shown in our Performance schedule. The test plan procedure is carried out in three stages of inspection and testing.
1. Surface preparation2. Coating applications3. Concrete Repair
1. Surface Preparation: On Steel Beam SurfacesDuring surface preparation, the one length section of steel beam is enclosed properly with management of proper air circulation system equipment such as PARP and Respiratory Protective devices. Steel has to be sand blasted according to SSPC-SP-10 (NACE Standard) or SA 2 ½ (ISO 8501-1). Average surface profile Rz > 50μm has to be achieved. Ensure that the substrate is free from containments detrimental to adhesion. The blasting is done by Euro grit, Aluminum Oxide, Copper slag 1 and 2.The surface is thoroughly inspected to remove any sharp edges, undercut, rough beads etc. After inspection, the survey of steel member will carry out to determine thickness with precise measurement such as calipers and the steel area loss is calculated in percentage at the Initial and after blasting. Furthermore, the procedure is carried out as specified in specification for strengthening. After strengthening, again the surface roughness, splatter of weld is inspected and removed if any. On Concrete SurfacesAll the Cracks underside of slab will be inspected thoroughly and marked the repair areas. The temporary propping will be done around the repair areas. The Loose concrete near the cracks will be removed and concrete will be removed at least 25mm behind the rusted reinforcement. The rusted bar is blast clean. The repair area will be enclosed properly with management of proper air circulation system equipment such as PARP and Respiratory Protective devices. Rusted Steel has to be sand blasted according to SSPC-SP-10 (NACE Standard) or SA 2 ½ (ISO 8501-1). Average surface profile Rz > 50μm has to be achieved. Ensure that the substrate is free from containments detrimental to adhesion. The blasting is done by Euro grit, Aluminum Oxide, Copper slag 1 and 2.The diameter of steel reinforcement will be measured and the steel area loss is calculated in percentage at the Initial and after blasting. Furthermore, the procedure is carried out as specified in specification for strengthening.
2. Coating applications:The Coating of Steel beam will be done by Sika Guard 62.The working areas shall be protected from strong winds or rain etc., to prevent adverse conditions for the materials preparation, application and curing during and after the lining works. The Climatic conditions such as Ambient and Surface temperature shall be defined as Substrate temp. > 3°K above dew point and measured e.g. by thermometer, hygrometer, dew point table. The range of temperature should be Min. +10°C (but at least 3°K above dew point) and
Max. +35°C. In all of the application condition, the substrate must be at least 3°K above dew point. The mixing and application of this coating along with the applicator’s information is attached in the Annexure of this submittal for reference.
3. Concrete repair:
After Completion of strengthening of reinforcement bars, the Coating of steel bar carry out by Sikaguard 62. The working areas shall be protected from strong winds or rain etc., to prevent adverse conditions for the materials preparation, application and curing during and after the lining works. The Climatic conditions such as Ambient and Surface temperature shall be defined as Substrate temp. > 3°K above dew point and measured e.g. by thermometer, hygrometer, dew point table. The range of temperature should be Min. +10°C (but at least 3°K above dew point) and Max. +35°C. In all of the application condition, the substrate must be at least 3°K above dew point. The mixing and application of this coating along with the applicator’s information is attached in the Annexure of this submittal for reference. After completion of Coatings, a dense concrete repair mortar, Sika MonoTop 615HB will be applied as mentioned in data sheets of Sika Monotop 615HB.
The Inspectors CV and inspection procedure check list of Steel beam lining is also attached in the Annexure-I of this submittal for reference.
ANNEXURE – I1. Method of Statement of Application of Sikaguard 62
2. Method of statement of Application as mentioned in Data sheet of Sika MonoTop 615 HB
3. Check list for Inspection of Steel Lining with Sikaguard
4. Punch List Format
5. CV’s for Inspection team
Himalayan Builders and Engineers
EOB Steel Beam Upgrade Project at the American Embassy, Bangkok, Thailand Contract No.: SGE500- 12 - C - 0024
Check List for Steel Lining with Sikagard® 62
Area……….……….………………………………………………………Supervisor……………................. Project Engineer..................................... Date.............................
1Material Preparation
Batch No.Quantity
Who Date Time Accept Reject Singature
- Sikagard
® 62 …………… …..kg.HB
…………… …..kg.
…………… …..kg.
2 Steel Surface Preparation Who Date Time Accept Reject Singature
- Perform steel surface preparation according to Sa 2½ as defined by ISO 8501-1 (Shotblasting)
HB
- Check no visible rust on steel surface and steel surface is free from dust and other friable matter.
HB / Sika (Thailand) at start up
and agreed time
intervals
3Application of Sikagard® 62 (1 st Coat)
Who Date Time Accept Reject Singature
- Check material quantity per area
before application of First coatHB
- Check substrate temp. > 3°K
above dew pointHB
- During application check wet film
thicknes every square meterHB
- Allow coat to cure based on
minimum / maximum intercoat waiting times
HB
- Check dry film thickness before application of 2nd coat
HB / Sika (Thailand) at start up
and agreed time
intervals
4Application of Sikagard® 62 (2 st Coat)
Who Date Time Accept Reject Singature
- Check material quantity per area
before application of 2nd coatHB
- Check substrate temp. > 3°K
above dew pointHB
- During application check wet film
thicknes every square meterHB
- Check dry film thickness of coat'sapplied
HB / Sika (Thailand) at start up
and agreed time
intervals
With reference to the various Check listed above, Sika confirms with its signatures that, based on its respective site visits on the dates indicated above, the application of the above mentioned Sika products has been effected in accordance with Sika’s written recommendations; Sika has not detected any visible defects in Sika's products as applied. However, the above confirmations are based only on a visual check of the actual status of the job site and the works executed as seen during Sika’s site visit. Sika’s responsibility is therefore limited to the results of its visual check and does not imply any further responsibility as to Sika's products, and/or their correct application by any third party.
…………… …...………………………….………………………
….
( ) (..........................................)
(..........................................)
Sika Thailand Applicator
Owner Representative
CURRICULUM VITAE
Personnel Data:Surname: RiebandtChristian Names: Harald JuergenDate of Birth: April, 18th 1960Place of Birth: Urach, Baden WuertembergMarital Status: De - FactoDependence: TwoTelephone (Home): ++ (66 38) 630 185Telephone (Mobile): ++ (66) 8 1862 3413
Education Details:1980 Abitur, Aufbau Gymnasium Moessingen1980 -1982 University Tuebingen, Biology 3 Semester1982 - 1983 Luftwaffe Mengen1983 - 1986 Completed Apprenticeship in Chemistry with Sika
Chemie in Stuttgart
Work Experience: Sika Chemie, continued1986 - 1987 Research & Development Chemist for bridge -
deck waterproofing membranes and industrial applied heavy duty corrosion protection.
1987 - 1990 Project Manager in R & D Department for the following projects:
1) Elastomer additive for black roads2) Electrical conductive flooring materials3) High chemical resistant materials for bund areas
1990 - 1995 Technical Manager, Sika Thailand LimitedResponsibilities:1) Technology transfer, production / lab. for Admixtures, mortars and epoxy based products.2) Formulating and market introduction of
melamine based admixtures.3) Providing technical service to big projects such
as Infrastructure (B+B, Dywidag, etc.), Power plants (various contractors), Refineries
4) Providing technical service for Vietnam market
1995 - 1999 Director of Technical & Production Departments, Sika VietnamResponsibilities:1) Managing production, technical service and
laboratories 2) Project manager for construction and
commissioning of new Sika factories.3) Servicing key accounts and big projects.
1999 – to date Technical Manager, Sika Thailand LimitedResponsibilities:1) Head of “Expert Team” BU Concrete &
ContractorTechnical responsibility for introduction of newAnd maintenance of existing products in the Following application fields:
- Concrete Repair and Strengthening- Concrete Technology- Industrial Flooring and Lining- Structural Grouting & Cable Duct Injection- Engineered Waterproofing2) Reporting of R&D activities via Sika Innovation Portal
(Global Data Base)3) Managing QC / R&D laboratory (10 persons) and
technical service department (8 persons)4) Providing technical support to projects in
Thailand, Myanmar and Laos..