Hệ thống sơn chống ăn mòn dự án sao vàng đại nguyệt

Khí mỏ Sao Vàng Đại Nguyệt sẽ là nguồn bổ sung quan trọng, góp phần cung cấp và đáp ứng nhu cầu tiêu thụ tại khu vực Đông Nam Bộ. Trong đó, các nhà máy điện khí khu vực này chiếm khoảng 22% sản lượng điện cả nước, và nhà máy đạm khu vực này (Phân bón Phú Mỹ PVFCCo) cung cấp khoảng 35% sản lượng urê toàn quốc. Sao Vàng Đại Nguyệt ước tính sẽ bổ sung 1,8 tỷ m3 khí (15% sản lượng hiện tại) cho PV GAS trong năm 2021, tổng sản lượng khí ẩm về bờ năm 2021 tăng 9,5% so với năm 2020, ước tính sẽ đem lại khoảng 8.550 tỷ đồng doanh thu và 1.710 tỷ đồng lợi nhuận gộp cho PV GAS.

INTRODUCTION

This document outlines the process for conducting Coating Procedure Tests (CPT) in alignment with the project's Coating and Painting Specification All tasks will be executed in strict compliance with project specifications and the manufacturer's latest printed guidelines Skilled workers will carry out the work safely and professionally.

SCOPE

This procedure outlines the Contractor's method for conducting Coating Procedure Tests (CPT) at the worksite before applying coatings to project materials The CPT will be performed under realistic conditions expected during the actual coating application and will adhere to the guidelines provided by the coating manufacturers.

EQUIPMENT

Regular maintenance and thorough inspections of blasting and painting equipment are essential before starting any work This practice guarantees that the equipment is in optimal condition and safe for operation.

Blasting equipment is essential for effective surface preparation and includes various tools such as auto-blast machines and manual blast machines Key components also feature air compressors, blasting helmets or hoods for safety, and air manifolds with hoses for efficient operation Safety is paramount, which is why hose safety whip checks and couplings are necessary Additionally, air tools for power brushing and air filters or separators help maintain optimal performance Compliance with regulations is crucial, and selecting the right blasting hoses and nozzles ensures effective blasting results.

5.2 Painting Equipment a) Airless spray pump b) Airless spray gun c) Paint agitator d) Paint brush/ roller e) Moisture filter/ Separators f) Spray hose/ Tips

TEST PANEL PAINTING REQUIREMENTS

Test panel painting requirements consists of the followings:

PAINT MANUFACTURERS

It is expected that the following paint manufacturers will participate in the Coating Procedure Tests for the Sao Vang Project

Title: Coating System Qualification Procedure Rev.: Date: Page:

Doc No.: 05-1_EPC-SV-VSP-Q-PR-00005 D1 07.05.18 6 of 10

File Name: Rev D1

SELECTION OF TEST PANEL

When selecting a test panel, it is essential to use new plates with a minimum size of 1000 x 1000mm x 5mm, which must be surface treated and cleaned to meet the required standards Subsequent coats should be applied according to the specified method and thickness outlined in the procedure The Sub-Contractor is required to inform the Contractor and Client at least one week in advance before conducting qualification tests for each paint system Upon completion of a Coating Performance Test (CPT), if the results are satisfactory, the panel should be marked with the Coating System Number and test date, and retained for the project's duration The test panel must also be available for inspection by the Company throughout the project.

SURFACE PREPARATION

Before using a test panel, verify its suitability by checking for defects such as pitting To ensure a clean steel surface prior to blasting, perform solvent cleaning following SSPC-SP1 standards to eliminate any oil, grease, or other contaminants Additionally, confirm that the abrasive used is the correct size, dry, and uncontaminated; suitable abrasives for blast cleaning must meet these criteria.

- Steel Grit and Steel shot (using for Auto-Blast Machine)

Before commencing the Compressed Air Testing (CPT), it is essential to assess the quality of the compressed air and abrasive materials Additionally, document the weather conditions prior to blasting and painting Ensure that the surface finish grade adheres to ISO 8501-1:1988 Sa 2.5 or the specifications outlined in the project Verify surface profile measurements with a profile comparator, aiming for a peak-to-valley height of 50-85 microns Finally, record the substrate temperature before applying paint, and ensure that spraying can begin only when the steel temperature is at least 3°C above the dew point and relative humidity is below 85%.

When coating and painting, it is essential to verify the spray gun tip size for compatibility with the specific coating Ensure that the equipment used, whether conventional or airless, adheres to the recommended specifications During the paint mixing process, agitate the paint base with a power stirrer before adding the curing agent Additionally, document the batch numbers of both the base and curing agent, along with any thinning percentages, in the test panel inspection report.

To ensure proper application of the coating system, begin by determining the volume solids of the paint to establish the required wet film thickness (WFT) for achieving the minimum specified dry film thickness (DFT) Prior to application on the test plate, spray the paint on a sample plate or beam to verify correct atomization and flow, maintaining a distance of 200mm to 600mm from the surface Record the number of passes needed to achieve the desired WFT and promptly clean the system with the recommended cleaner after spraying Allow the coating to cure for a minimum of 12 hours at 32°C, or according to the manufacturer’s recommendations, before applying subsequent coats Prepare the surface by taping off an 8-inch section and lightly abrading the remaining area before application, and adhere to the overcoating intervals specified by the manufacturer Repeat steps (a) to (j) for subsequent coats.

Individual coats and completed coatings must undergo a visual inspection to ensure they are smooth and free from defects such as dry spray, pinholes, blisters, craters, and excessive sagging It's important to note that glass flake surfaces may exhibit an orange peel or wavy texture due to the high dry film thickness (DFT) application.

& high pressure used b) Surface Profile Measurements “Elcometer 124 guage with Testex Press –O- Film Tape”

This method measures the surface profile of abrasive blasted steel by using a compressible plastic tape The tape is applied to the blast-cleaned surface and compressed with a roller, capturing a print of the surface profile After removal, the thickness of the tape is measured with a micrometer screw gauge, providing the maximum peak-to-valley height of the blasted surface Additionally, it is essential to assess the dust on the steel surface prepared for painting to ensure optimal adhesion and finish.

Dust, blast abrasives etc shall be removed from the surface after blast cleaning such that the particle quantity and particle size do not exceed rating 2 of ISO 8502-3

Acceptable criteria: Dust quantity and size rating 2 is acceptable d) Salt Contamination Test

According to ISO 8502-6, the maximum allowable level of soluble impurities on the blasted surface, when sampled with distilled water, must not exceed a conductivity that correlates to a NaCl content of 20 mg/m², as measured in accordance with ISO 8502-9.

File Name: Rev D1 e) Wet Film Thickness (WFT) Measurements

To measure wet film thickness accurately, a comb-type gauge should be utilized on a smooth surface The gauge is positioned within the freshly applied wet film, and the thickness is determined by the point where the tooth contacts the paint To derive the desired wet film thickness from the Dry Film Thickness (DFT), the appropriate formula must be applied.

To accurately determine the dry film thickness (DFT) of a non-magnetic coating on a magnetic substrate, it is essential to use calibrated film thickness gauges, such as those based on magnetic resistance or eddy current principles, like "Elcometer" or "Minitest." Additionally, these gauges must be calibrated daily following the manufacturer's guidelines to ensure precise measurements.

The determine the dry film thickness (DFT) from the measured wet film thickness, the formula is:

The measurement procedure for measuring of dry thickness thickness shall be in accordance with SSPC-PA2 standard g) Temperature and Relative Humidity:

Temperature and relative humidity must be measured using a Dew Point Meter E319 or an equivalent device, with readings taken before blasting or painting and at regular intervals during any climatic changes All gauges and recorders should be calibrated and certified before testing, and any gauges with questionable accuracy must be re-calibrated or discarded Additionally, the Pull Off Test should adhere to ISO 4624 or ASTM D4541 standards.

The adhesive and cohesive strength of the coating is measured using the Elcometer 108 method After applying the final coat, six dollies are attached to each coat with Epoxy Araldite glue, following a light abrasion of the attachment area The glue must be allowed to cure for a minimum period of time.

Twenty-four hours prior to the Pull-Off Test, the force needed to detach the dollies must be documented, with the average calculated from the lowest three pull-off values Additionally, the area and type of failure should be noted If all six dollies on the same coating exhibit glue failures and the results fall below the required pull-off strength, reattachment of the dollies will be necessary to assess the coating's strength.

Coating System No 1 and 7A – Required minimum pull off value 5 Mpafor any single measurement

For adhesion tests conducted during the CPT, any glue failure with values below 15 MPa is deemed unacceptable If the pull-off test fails due to 100% glue with a value under 15 MPa, one dolly must be reapplied, and the retest will occur the following day.

File Name: Rev D1

Contractor may utilize approved inspection equipment or its equivalent, i.e Elcometer, Positector, etc other than describe herein for the inspection of test panel/coating system a) Surface Profile

The Surface Profile Gauge Model 124, equipped with Press-O-Film, delivers accurate peak-to-valley measurements ranging from 0 to 600 microns after blasting Additionally, alternative instruments can be utilized to evaluate the surface profile, including the Wet Film Thickness Gauge.

The Wet Film Thickness Gauge (comb type) Model 112 is a specialized measuring tool designed to assess the wet film thickness of freshly applied paint This gauge features a comb-like structure with teeth that progressively decrease in length, allowing for accurate monitoring of paint application Additionally, it is important to consider the use of a Dry Film Thickness Gauge for measuring the thickness of dried paint films.

A magnetic or electro – magnetic gauge maybe used to determine the dry coating thickness, i.e Elcometer 355; 456; Minitest 600; Positector 600 or equivalent d) Temperature and Relative Humidity

The Elcometer E319 or Positector DPM “Dew Point Meter”: Measure and records climatic conditions includings:

Relative humidity, air temperature, surface temperature, dew point temperature and difference between surface and dew point temperatures Ideal for surface preparation as required by ISO 8502-4 e) Pull-Off Test

The Elcometer 108 Hydraulic Adhesion Testers is used to measure the adhesive/cohesive strength of coating system

INSPECTION/ TESTING

All individual coats and complete coatings must undergo a visual inspection to ensure they are smooth and free from defects such as dry spray, pinholes, blisters, craters, and excessive sagging It is important to note that glass flake surfaces may exhibit an orange peel or wavy texture as a result of high dry film thickness (DFT) application.

& high pressure used b) Surface Profile Measurements “Elcometer 124 guage with Testex Press –O- Film Tape”

This method is utilized to measure the surface profile of abrasive blasted steel surfaces It involves placing a compressible plastic tape on the blast-cleaned steel and compressing it with a roller, allowing the tape to capture a print of the surface The tape is then removed, and its thickness is measured using a micrometer screw gauge, providing the maximum peak-to-valley heights of the blasted surface Additionally, the assessment of dust on steel surfaces prepared for painting is crucial for ensuring optimal adhesion and finish quality.

Dust, blast abrasives etc shall be removed from the surface after blast cleaning such that the particle quantity and particle size do not exceed rating 2 of ISO 8502-3

Acceptable criteria: Dust quantity and size rating 2 is acceptable d) Salt Contamination Test

According to ISO 8502-6, the maximum allowable level of soluble impurities on the blasted surface, when sampled with distilled water, must not exceed a conductivity that correlates to a sodium chloride (NaCl) content of 20 mg/m², as determined by ISO 8502-9.

File Name: Rev D1 e) Wet Film Thickness (WFT) Measurements

To measure the wet film thickness accurately, a comb-type gauge should be utilized on a smooth surface The gauge is inserted into the freshly applied wet film, and the thickness is determined by the point where the tooth makes contact with the paint To convert the desired wet film thickness to dry film thickness, the formula for Dry Film Thickness (DFT) measurements should be applied.

To accurately determine the dry film thickness (DFT) of a non-magnetic coating on a magnetic substrate, calibrated film thickness gauges, like those based on magnetic resistance or eddy current principles (e.g., "Elcometer" or "Minitest"), should be utilized It is essential to calibrate these gauges daily following the manufacturer's guidelines to ensure reliable measurements.

The determine the dry film thickness (DFT) from the measured wet film thickness, the formula is:

The measurement procedure for measuring of dry thickness thickness shall be in accordance with SSPC-PA2 standard g) Temperature and Relative Humidity:

Temperature and relative humidity must be measured using a Dew Point Meter E319 or an equivalent device Readings should be recorded before starting blasting or painting and at regular intervals during any changes in weather conditions All gauges and recorders must be calibrated and certified before testing, and any gauges with questionable accuracy should be re-calibrated or discarded Additionally, the Pull Off Test should adhere to ISO 4624 or ASTM D4541 standards.

The adhesive and cohesive strength of coatings is measured using the Elcometer 108 method This test is conducted seven days after applying the final coat, where six dollies are attached to each coat using Epoxy Araldite glue Prior to attachment, the area is lightly abraded, and the glue is allowed to cure for a minimum duration.

Twenty-four hours prior to the Pull-Off Test, the force needed to detach the dollies must be documented, with the average taken from at least three pull-off attempts Additionally, the area and type of failure should be noted If all six dollies on the same coating experience adhesive failures and the results fall below the required pull-off strength, reattachment of the dollies will be necessary to assess the coating's strength.

Coating System No 1 and 7A – Required minimum pull off value 5 Mpafor any single measurement

For adhesion tests conducted during Concrete Performance Testing (CPT), any glue failure resulting in values below 15 MPa is deemed unacceptable If the pull-off test fails with 100% glue and a value under 15 MPa, one dolly must be reapplied, and the test will be retested the following day.

File Name: Rev D1

INSPECTION OF EQUIPMENT

Contractor may utilize approved inspection equipment or its equivalent, i.e Elcometer, Positector, etc other than describe herein for the inspection of test panel/coating system a) Surface Profile

The Surface Profile Gauge Model 124, equipped with Press-O-Film, delivers accurate peak-to-valley measurements ranging from 0 to 600 microns after blasting Additionally, equivalent instruments can be utilized to evaluate the surface profile, while a Wet Film Thickness Gauge is also available for precise assessments.

The Wet Film Thickness Gauge (comb type) Model 112 is a specialized instrument designed to measure the wet film thickness of freshly applied paint Its unique comb-like structure features teeth that progressively decrease in length, allowing for precise monitoring of paint thickness Additionally, it is important to consider the use of a Dry Film Thickness Gauge for comprehensive evaluation of the paint's final thickness after drying.

A magnetic or electro – magnetic gauge maybe used to determine the dry coating thickness, i.e Elcometer 355; 456; Minitest 600; Positector 600 or equivalent d) Temperature and Relative Humidity

The Elcometer E319 or Positector DPM “Dew Point Meter”: Measure and records climatic conditions includings:

Relative humidity, air temperature, surface temperature, dew point temperature and difference between surface and dew point temperatures Ideal for surface preparation as required by ISO 8502-4 e) Pull-Off Test

The Elcometer 108 Hydraulic Adhesion Testers is used to measure the adhesive/cohesive strength of coating system.

CALIBRATION

All inspection equipment must be properly maintained and calibrated to ensure accurate results The coating inspector is accountable for the ongoing maintenance, calibration, and functionality of all testing and inspection tools Valid calibration certificates should be readily available for verification purposes.

All inspection equipment shall be calibrated on each occasion before use on individual items and thereafter, dependent on frequency of use.

SPECIAL REQUIREMENTS

To ensure optimal results, each coat of paint must be applied only after the previous layer is completely dry It is crucial to avoid methods that force-dry the paint, as this can lead to issues such as cracking, wrinkling, or blistering Additionally, protecting the paint from rain, condensation, and contamination until it is fully dry is essential for maintaining its quality.

File Name: Rev D1

RECORDS

- FM02 Adhesive Strength Test Report

Note: All reports are made by paint manufacturers.

COATING SYSTEM TO BE TESTED

Coat No Generic name Min DFT

1 st coat Zinc rich epoxy primer 60

2 nd coat High build epoxy 170

3 rd coat Acrylic Aliphatic Polyurethane 50

Coat No Generic name Min DFT

1 st coat Glass-flake reinforced polyamine epoxy 300

2 nd coat Glass-flake reinforced polyamine epoxy 300

APPENDICES

- FM02 Adhesive Strength Test Report

ATTACHMENT

- Paint Test Panel Inspection & Testing

SAO VANG AND DAI NGUYET DEVELOPMENT

WEATHER CONDITION DT( 0 C) WT( 0 C) ST( 0 C) RH(%) DP( 0 C) SUNNY CLOUDY RAINY

Remarks: - DT= Dry Temperature ( 0 C); - WT=Wet Temperature ( 0 C); - ST = Surface Temperature ( 0 C)

- RH = Relative Humidity (%); - DP = Dew Point ( 0 C)

Time/Date of Blasting Cleanliness:

Surface Profile Achieved: Profile Tap attachment Type of abrasive used:

No Coat No Generic name Specified DFT

Coating Layer 1 st Coat 2 nd Coat 3 rd Coat

Results of WFT Average (àm):

Results of DFT Average (àm):

Remarks: DFT of external coats are included DFT of internal coats

Paint Manufacturer VSP PTSC M&C IKC

Prepared by Checked by Reviewed/witnessed by Reviewed/witnessed by

DAILY TEST PANEL INSPECTION REPORT

Appendix 1 , Rev C Doc No: 2005-4100-4P-2001 Pages : 1/1

Sub-contractor: VSP Adhesion equipment used:

Test panel location: Testing standard:

Date dolies attached: Date dolies pulled off:

Coat No Generic Name/Product name Specified Min DFT (àm)

Painting System DFT (Microns) Individual

Remarks: Adhesion strength test with Required Pull off value: Min 5Mpa for the single measurement

Prepared by: Checked by Witnessed/Reviewed by Witnessed/Reviewed by Signature:

Contractor: PTSC M&C Coating system: No

Sub-contractor: VSP Job No: TEST PANEL

Test panel location: Date: From to

Prepared by Checked by Witnessed/Reviewed by Witnessed/Reviewed by Signature:

This report in issued in accordance with our terms and conditions, a copy of which is available on request

E : info@exova.com W: www.exova.com

Registered Office: Exova (UK) Ltd, Lochend Industrial Estate, Newbridge, Midlothian EH28 8PL United Kingdom Reg No.SC 70429

Testing in accordance with Norsok M-501 Edition 6,

Date: 18/02/2016 Issue No.: 2 Authored by:

Document No.: N964983 Page No.: 2 of 20

Client: International Paint Ltd Issue No.: 2

Norsok pre-qualification testing in accordance with Norsok M-501

Issue No : 2 Re - Issue Date : 18/02/16

Revised By: G Addicott Approved By: T Haynes

Reason for Revision: Traces amended for low temperature FTIR - Part B

1.1 Exova was instructed to carry out a program of testing in accordance with NORSOK M-501, Edition 6,

February 2012 system No 7A at the request of:

1.2 Exova has tested the items supplied by International Paint Ltd., as sampled in accordance with NORSOK

 Steel panels blasted to Sa2ẵ (ISO 8501-1:2007)

 Coat 1 – Interzone 1000 @ 500àm nominal dry film thickness

 Coat 2 – Interzone 1000 @ 500àm nominal dry film thickness

SUMMARY

Cyclic Ageing BS EN ISO 20340:2009 Pass

Seawater Immersion BS EN ISO 2812-2:2007 Pass

Cathodic Disbondment BS EN ISO 15711:2003 Pass

The exposure tests were carried out during the dates below:

Test Start Date Finish Date

This coating system meets the performance requirements of NORSOK M-501 Edition 6 February 2012, System No 7A

TEST METHOD

3.1 The pre-qualification tests have been executed in accordance with NORSOK M-501, Edition 6 February

2012, NORSOK system No.7A All testing has been carried out in full accordance with the requirements given in these standards

Dry film thickness BS EN ISO 19840:2004

Wet paint density BS EN ISO 2811-4:2011

Non-volatile matter BS EN ISO 3251:2008

Ash content BS EN ISO 14680-2:2000

Adhesion (pull-off) BS EN ISO 4624:2003

Cyclic Ageing BS EN ISO 20340:2009

Seawater Immersion BS EN ISO 2812-2:2007

Cathodic Disbondment BS EN ISO 15711:2003

APPLICATION DETAILS

Blast Cleaning Standard Sa2ẵ (ISO 8501-1:2007)

Sales Code (Part A) EPA490 EPA490

Sales Code (Part B) EPA538 EPA538

Batch No (Part A) PH1717RG PH1717RG

Batch No (Part B) PG1676RG PG1676RG

Sales Code (Part A) EPA490 EPA490

Sales Code (Part B) EPA538 EPA538

Batch No (Part A) PH1717RG PH1717RG

Batch No (Part B) PG1676RG PG1676RG

Nominal Wet Film Thickness (àm) 570 550

Nominal Dry Film Thickness (àm) 500 500

Witness present at application of test coating: Geoffrey Addicott

Coat Dry Film Thickness (àm)

The client provided the data (4.0.) to Exova, where the paint system was applied on-site and observed by Exova coatings division representative, Mr G Addicott.

PRODUCT IDENTIFICATION

DETAILED RESULTS

Disbonding Blistering Rusting Cracking Flaking Chalking Adhesion Over Coat Adhesion RESULT ISO 20340 ISO 4628-2 ISO 4628-3 ISO 4628-4 ISO 4628-5 ISO 4628-6 ISO 4624

Pass / Fail mm Density (Size) Ri Density (Size) Density (Size) Rating MPa

Req Res Req Res Req Res Req Res Req Res Req Res Req Res Res

* Pass/Fail criteria Reference panel

No adhesive failure between the substrate and the first coat unless the pull-off value is 5MPa or more

≥ 3MPa for a Zinc-rich primer , ≥ 4MPa for all other primers

** Pass/Fail criteria Seawater Immersion panels (post-exposure):

Minimum pull-off value of 50% of the pre-exposure value measured on the reference panel, with a minimum value of 2 MPa

*** Pass/Fail criteria Cyclic Ageing panels (post-exposure):

Minimum of 5MPa and a maximum reduction of 50% of the pre- exposure value measured on the reference panel

A / B Adhesive failure between the substrate and Coat 1

B / C Adhesive failure between Coat 1 and Coat 2

C / D Adhesive failure between Coat 2 and Coat 3

-/ Y Adhesive failure between the outer coat and the adhesive

Y / Z Adhesive failure between the adhesive and the test dolly

Cyclic Ageing (BS EN ISO 20340:2009)

Seawater Immersion (BS EN ISO 2812-2:2007)

6.5 Ambient Temperature Cathodic Disbondment Results:

Ambient Temp CD (BS EN ISO 15711:2003)

Figure 3; Ambient Cathodic Disbondment – Photographs

Figure 5; Infrared Scan – Interzone 1000 Part A

Figure 6; Infrared Scan – Interzone 1000 Part B

FIGURE 3: Ambient Cathodic Disbondment – Photographs

FIGURE 5: IR Trace – Interzone 1000 Part A: Batch No.PH1717RG

CPL-00294 - Interzone 1000 Grey Part A - PH1717RG

FIGURE 6: IR Trace – Interzone 1000 Part B: Batch No.PG1676RG

CPL-00297 - Interzone 1000 Part B - PG1676RG

Cyclic Ageing:- scribed panels are subjected to 25 cycles (4200 hours) which consist of (per cycle):

72 hours UV exposure in accordance with ISO 11507:2007, Method A

72 hours salt spray in accordance with ISO 9227:2012

24 hours exposed to low temperature (-20°C ± 2°C)

Testing adhered to ISO 2812-2 standards, utilizing a solution specified in ISO 15711 Scribed panels underwent 4,200 hours of exposure to circulating aerated water at a controlled temperature of 40°C ± 1°C, with water changes implemented whenever turbidity or discoloration occurred.

The scribe line was horizontal with the following dimension: minimum 50mm long, 2mm wide and down to bare metal

Any defects seen within 10mm of the edges of the test panel were not taken into account

Corrosion from the scribe must not exceed 3.0mm for coating systems utilizing a zinc-rich primer, while for those with non-zinc-based primers or no primer at all, corrosion should be limited to 8.0mm or less.

Testing adhered to ISO 15711:2009 standards, where panels with an artificial holiday were subjected to 4200 hours in an artificial seawater solution at an impressed current of -1.05 Volts The electrolyte solution's temperature was consistently maintained at 23°C ± 2°C.

The artificial holiday was 6mm in diameter

Cathodic disbondment from the artificial holiday shall be less than or equal to 20mm diameter

1 Determine the maximum disbondment (diameter) along each of four points, each taken through the centre of the holiday at angles of 45° to the previous measurement

2 Record the total area exposed including the holiday (πr2 )

3 Calculate the disbonded area A, as the difference between the total area less the area of the holiday (28.3mm 2 )

4 From the disbonded area calculate the equivalent diameter ( d= 2√ A/π)

Average diameter from 4 readings = 12mm

All panels were checked after each application to confirm dry film thickness

Corrosion creep was determined by averaging nine measurements of the maximum width of corrosion along the scribe line This maximum width is assessed at the midpoint of the scribe, with additional measurements taken at four points on either side, spaced 5mm apart.

Corrosion creep (M) is calculated as:

Where: C is the average of the nine width measurements of corrosion across the scribe, and W is the original width of scribe

Typically, the disbondment width matches the distance between corrosion edges; however, there are instances where the coating system can detach from the substrate at a greater distance from the scratch than the corrosion edge This distance between the corrosion edges along the scratch is known as the corrosion creep width.

For coatings systems utilizing a zinc-rich primer, corrosion from the scribe must not exceed 3.0mm In contrast, for coatings systems that employ a non-zinc-based primer or lack a primer altogether, the acceptable corrosion limit is 8.0mm.

The pull off testing was carried out in accordance with ISO 4624 The dollies used had a contact area of 3.14cm 2 , and the glue used was 3M Scotch-Weld DP460

The uncertainty of the pull-off test method is 10% for adhesion values less than 20 MPa and 15% for adhesion values greater than 20 MPa

The adhesion result for the unexposed test panel is the mean value of 2 results

All work sheets are available for inspection if required, and will be retained for a minimum of 6 years For all exposure tests three test panels were used

Panels sizes were 150mm x 75mm x 4mm for ageing and cathodic disbondment panels, and 150mm x 100mm x 4mm for Seawater Immersion and Reference panels

After completing the cyclic aging and seawater immersion tests, the panels underwent a two-week reconditioning period before adhesion evaluations were conducted All other assessments were performed within 24 hours following the exposure.

Test Temperatures used for wet paint analysis:

Ash content: 1 hr @ 105°C then 4hrs @600°C

Equipment Machine Reference Serial Number

Seawater Immersion Cabinets CLIB02 CWL/76412

Portable Adhesion Tester Model GM01 164

Tiêu đề	Coating System Qualification Procedure
Trường học	University Name
Chuyên ngành	Coating Systems
Thể loại	Procedure Document
Năm xuất bản	2018
Thành phố	City Name

Định dạng
Số trang	86
Dung lượng	16,66 MB