Đang tải... (xem toàn văn)
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.
Title: Coating System Qualification Test Procedure Doc No.: 05-1_EPC-SV-VSP-Q-PR-00005 Rev.: B4 Date: 27.03.18 Page: of 10 Revision Record Sheet Rev No Description Date of Rev B1 B2 B3 B4 Issue for review Issue for review Re-issue for review Re-issue for review & Approval 31/1/2018 27/2/2018 12/3/2018 27/3/2018 File Name: Rev B4 Title: Coating System Qualification Test Procedure Doc No.: 05-1_EPC-SV-VSP-Q-PR-00005 Rev.: B4 Date: 27.03.18 Page: of 10 TABLE OF CONTENTS 1.0 INTRODUCTION 2.0 SCOPE 3.0 REFERENCE AND STANDARDS 4.0 DEFINITIONS AND ABBREVIATIONS 5.0 EQUIPMENT 6.0 TEST PANEL PAINTING REQUIREMENTS 6.1 PAINT MANUFACTURERS 6.2 SELECTION OF TEST PANEL 6.3 SURFACE PREPARATION 6.4 COATING AND PAINTING 6.5 INSPECTION/ TESTING 6.6 INSPECTION OF EQUIPMENT 6.7 CALIBRATION 6.8 SPECIAL REQUIREMENTS 10 7.0 RECORDS 10 8.0 COATING SYSTEM TO BE TESTED 10 9.0 APPENDICES 10 File Name: Rev B4 Title: Coating System Qualification Test Procedure Doc No.: 05-1_EPC-SV-VSP-Q-PR-00005 Rev.: B4 Date: 27.03.18 Page: of 10 1.0 INTRODUCTION This procedure provides the details for carrying out Coating Procedure Tests (CPT) as required by the project Coating and Painting Specification All work will be performed in strict accordance with project specifications and the manufacturer’s current printed instructions Work shall be performed by skilled workmen in a safe and workmanlike manner 2.0 SCOPE The purpose of this procedure is to provide details of how the Contractor will carry out Coating Procedure Tests (CPT) at the worksite prior to actual application on the project materials The CPT will be qualified under realistic conditions likely to be present during coating application and will follow the recommendations of the coating manufacturers 3.0 REFERENCE AND STANDARDS B4 - 05-1_EPC-SV-AEI-M-SA-00001 Coating and Painting Specification - 05-1_EPC-SV-VSP-Q-LA-00004 Project Paint Matrix - 05-1_EPC-SV-VSP-Q-PR-00004 Surface Preparation and Painting Procedure - NORSOK STANDARD M-501 Surface preparation and protection coating - ASTM D 4541 Standard Test Method for Full-Off Strength of coating using portable Adhesion Testers - ISO 4624 Paints and Varnishes – Pull-off test for Adhesion - SSPC-SP1 Solvent Cleaning - ISO 8501-1 Visual Assessment of Surface Cleanliness 4.0 DEFINITIONS AND ABBREVIATIONS - Company Idemitsu Kosan Co., Ltd (IKC) - Contractor PTSC Mechanical & Construction Co.,Ltd (PTSC M&C) B4 - Sub-Contractor Vietsovpetro (VSP) - DFT Dry Film Thickness - WFT Wet Film Thickness - DPM Dew Point Meter - CPT Coating Procedure Test - ISO International Organization for Standardization - ASTM The American Society for Testing and Materials File Name: Rev B4 Title: Coating System Qualification Test Procedure Doc No.: 05-1_EPC-SV-VSP-Q-PR-00005 5.0 Rev.: B4 Date: 27.03.18 Page: of 10 EQUIPMENT Blasting and painting equipment shall be frequently checked and maintained prior to commencement of work This is to ensure that these equipment are in good condition and safe to operate 5.1 Blasting Equipment a) b) c) d) e) f) g) h) i) j) Auto-Blast Machine (Work shop) Manual Blast Machine Air Compressor Blasting helmet/ hood Air manifold and hoses Hose Safety Whip Checks/Couplings Air tools for power brushing Air filters/ Separators Regulations Blasting Hose and Nozzles 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 6.0 TEST PANEL PAINTING REQUIREMENTS Test panel painting requirements consists of the followings: - Paint Manufacturers - Selection of test panel - Surface Preparation - Coating & Painting - Inspection/Testing - Inspection of Equipment - Calibration - Special requirement 6.1 PAINT MANUFACTURERS It is expected that the following paint manufacturers will participate in the Coating Procedure Tests for the Sao Vang Project B4 - Jotun Paints - Hempel Paints - International Paint File Name: Rev B4 Title: Coating System Qualification Test Procedure Doc No.: 05-1_EPC-SV-VSP-Q-PR-00005 6.2 B4 Rev.: B4 Date: 27.03.18 Page: of 10 SELECTION OF TEST PANEL a) Reasonable test panel size should be selected The panel should be new plates with minimum size 1000 x 1000mm x 5mm b) Each Panel shall be surface treated and cleaned to the correct standard c) Succeeding coats shall be applied in the specified manner and to the specified thickness as described in this procedure d) Sub-Contractor shall notify Contractor and Client at least one (1) week in advance prior to conducting the qualification tests of each paint system e) On completion of a CPT, if all the results are acceptable the CPT panel shall be marked with the Coating System No and test date and retained for the duration of the project The test panel shall be available for inspection by Company if required throughout the duration of the project 6.3 SURFACE PREPARATION a) Check the test panel on its suitability for use Panels should not have any defects like pitting, etc b) Solvent cleaning in accordance with SSPC - SP1 shall be used to remove any oil grease and other contamination present on the steel surface before blasting c) Ensure that correct size of abrasive is being used It shall be dry and uncontaminated Suitable abrasives for use in blast cleaning are: - Steel Grit and Steel shot (using for Auto-Blast Machine) - PS Ball (Size: 0.6-1.0; 1.0-2.0mm) - Garnet d) Carry out of testing the Compressed Air quality, abrasive material quality prior to starting CPT e) Record down weather conditions prior to blasting & painting f) The grade of surface finished shall be in accordance to ISO 8501-1:1988 Sa 2.5 or as agreed in the specification g) Check surface profile measurements using a surface profile or profile comparator ensuring that they are within specification There preferred peak to valley height shall be 50-85 microns h) Prior to application of paint, record the substrate temperature Spraying may commence when the steel temperature is 3°C above dew point and when the relative humidity is lower than 85% 6.4 COATING AND PAINTING a) Check spray gun tip size on its suitability for use with the coating concerned b) Ensure that equipment (Conventional/Airless) used is as per recommendation c) During mixing of paint agitate paint base with power stirrer followed by addition of curing agent d) Record down batch Numbers of base and curing agent, and percentage of thinning if required in the test panel inspection report File Name: Rev B4 Title: Coating System Qualification Test Procedure Doc No.: 05-1_EPC-SV-VSP-Q-PR-00005 Rev.: B4 Date: 27.03.18 Page: of 10 e) Determine volume solids of the paint in order to determine required WFT to obtain minimum specified DFT f) Spray the paint on a sample plate/ beam to ensure that correct atomization and flow of paint is obtained before spraying onto test plate The spray gun shall not closer than 200mm or more 600mm from the surface to be coated g) Record number of passes made to obtain required WFT h) Clean system with recommended cleaner immediately after spraying i) Allow the coating to cure for a minimum of 12 hours at 320C or in accordance with the paint manufacturer’s recommendation before application of the subsequent paint or coating j) Tape – up a minimum 8” portion of painted surface and lightly abrade the remaining area prior to application k) Observe overcoating intervals as specified by the paint manufacturer’s recommendation l) 6.5 When spraying subsequent coats, please follow the steps (a) to (j) above INSPECTION/ TESTING a) Visual Inspection Individual coat and completed coatings shall be visually inspected for appearance Coats and coatings shall be smooth and free from dry spray, pinholes, blisters, craters and excessive sagging For glass flake surfaces, it is common to have an orange peel or wavy surface due to the high DFT application & high pressure used b) Surface Profile Measurements “Elcometer 124 guage with Testex Press –OFilm Tape” This method is used to measure the surface profile of abrasive blasted steel surface Following are the applicable method in determining the required surface profile This method consists of a compressible plastic tape which is placed on the blast-cleaned steel surface and compresses with a roller so that the tape retains a print of the surface The replica shall then be removed and its thickness be measured in a micrometer screw gauge, the reading obtained is the maximum peak to valley heights of the blasted surface c) Assessment Of Dust On Steel Surface Prepared For Painting Dust, blast abrasives etc shall be removed from the surface after blast cleaning such that the particle quantity and particle size not exceed rating of ISO 8502-3 Acceptable criteria: Dust quantity and size rating is acceptable d) Salt Contamination Test File Name: Rev B4 Title: Coating System Qualification Test Procedure Doc No.: 05-1_EPC-SV-VSP-Q-PR-00005 Rev.: B4 Date: 27.03.18 Page: of 10 The maximum content of soluble impurities on the blasted surface as sampled using ISO 8502-6 and distilled water, shall not exceed a conductivity measured in accordance with ISO 8502-9 corresponding to a NaCl content of 20 mg/m2 e) Wet Film Thickness (WFT) Measurements The comb-type gauge shall be used The surface selected for measurement should be smooth The comb is placed in the newly applied wet film The wet film thickness will be indicated where the tooth has touched the paint To calculate the desired wet film thickness from Dry Film Thickness, the formula is: f) Dry Film Thickness (DFT) Measurements The DFT of a non-magnetic coating applied on a magnetic substrate shall be determined or checked with calibrated film thickness gauges, using the magnetic resistance gauge or eddy current principle, such as “Elcometer”, Minitest”, etc The gauges for DFT checks shall be calibrated daily in accordance with the manufacturer’s recommendation 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 shall be measured by means of Dew Point Meter E319 or equivalent Readings shall be taken prior to commencement of blasting or painting and at regular intervals if there are changes in climatic conditions All gauges and recorders shall be calibrated and certified prior to testing Gauges with doubtful accuracy shall either be re-calibrated or not used h) Pull Off Test – ISO 4624 or ASTM D4541 Standards: This method is used to measure the adhesive/cohesive strength of coating This test will be performed using Elcometer 108 After days of application of final coat, attached six (6) dollies on each coat with using Epoxy Araldite glue after B4 lightly abrade the area of attachment allow the glue to be cured with minimum of 24 hours before commencing Pull-Off Test The force required to remove the dollies shall be recorded and reported as average of the least three pull off The area and mode of failure shall also be reported In the event of all the six (6) dollies on the same coating gave glue failures and the results are below the required pull of strength value, reattachment of dollies shall be carried out to determine the strength of coating File Name: Rev B4 Title: Coating System Qualification Test Procedure Doc No.: 05-1_EPC-SV-VSP-Q-PR-00005 Rev.: B4 Date: 27.03.18 Page: of 10 Coating System No and 7A – Required minimum pull off value Mpa for any single measurement Note: For adhesion test during CPT, glue failure with values below 15 MPa is not accepted If pull-off test be fail by 100% glue with value below 15Mpa, one (1) dolly shall be re-applied and will be re-retest next day B4 6.6 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 Surface Profile Gauge Model 124 with Press – O - Film, provides reliable measurements peak-to valley, height 0-600 microns after blasting or equivalent instrument equipment may also be used to assess the surface profile b) Wet Film Thickness Gauge The Wet Film Thickness Gauge (comb type) Model 112 is a measuring instrument which resembles a comb with teeth in between decreasing in length from one to the other It is used to monitor the wet film thickness on newly applied paint c) Dry Film Thickness Gauge 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 adhesive/cohesive strength of coating system 6.7 is used to measure the CALIBRATION All inspection equipment shall be maintained and calibrated The coating inspector shall be responsible for the proper maintenance, calibration and functioning of all testing and inspection equipment at all time Calibration certificates shall be valid and available for verification All inspection equipment shall be calibrated on each occasion before use on individual items and thereafter, dependent on frequency of use File Name: Rev B4 Title: Coating System Qualification Test Procedure Doc No.: 05-1_EPC-SV-VSP-Q-PR-00005 6.8 Rev.: Date: B4 27.03.18 Page: 10 of 10 SPECIAL REQUIREMENTS a) The succeeding coat shall not be applied until the preceding coat is sufficiently dry b) The paint shall not be forced dry under conditions that will cause cracking, wrinkling, blistering or detrimentally affect the condition of the paint c) Paint shall be protected practically to the fullest extent from rain, condensation and contamination until dry 7.0 RECORDS - FM01 Daily Inspection Report - FM02 Adhesive Strength Test Report - FM03 Photo Report Note: All reports are made by paint manufacturers 8.0 COATING SYSTEM TO BE TESTED Coating system No.1 Min DFT (µm) 60 Coat No Generic name 1st coat Zinc rich epoxy primer 2nd coat High build epoxy 170 3rd coat Acrylic Aliphatic Polyurethane 50 Total : Remark 280 Coating system No.7A Coat No Generic name 1st coat Glass-flake reinforced polyamine epoxy Min DFT (µm) 300 2nd coat Glass-flake reinforced polyamine epoxy 300 Total : 9.0 B4 600 APPENDICES - FM01 Daily Inspection Report - FM02 Adhesive Strength Test Report - FM03 Photo Report Painting Matrix for CPT: B4 - JOTUN PAINT - HEMPEL PAINT - INTERNATIONAL PAINT File Name: Rev B4 Remark 6.2 Test Parameter Adhesion Results: Panel Number N964983-02 Cyclic Ageing (ISO 20340:2009) N964983-03 N964983-04 N964983-06 Seawater Immersion (EN ISO 2812-2) N964983-07 N964983-08 Adhesion Test Unexposed (ISO 4624) 6.3 Test Parameter N964983Ref Panel Number N964983-03 N964983-04 Adhesion Test Unexposed (ISO 4624) A/B B B/C C -/Y 70 30 40 30 12.0 90 10 13.0 70 30 10 50 20 13.5 50 20 30 10.5 60 20 20 10.1 70 30 14.8 12.8 30 13.4 20 11.4 30 30 10 9.4 10 70 20 11.7 20 13.8 12.5 13.5 10.3 30 10 10.4 70 9.8 10 60 30 12.9 10 30 60 13.5 10 20 70 10.8 13.2 Start Temp(°C) 24.8 RH(%) 55.8 End Temp(°C) 24.8 RH(%) 55.8 N964983Ref Result (MPa) Mode of Failure(%) A/B B B/C C C/D 9.6 100 11.1 50 50 9.8 70 30 10.4 70 30 9.8 50 50 9.6 70 30 10.6 100 11.8 100 D -/Y Y/Z Average Result (MPa) 10.4 10.1 9.7 11.2 Start Temp(°C) 22.2 RH(%) 42.7 End Temp(°C) 23.6 RH(%) 53.2 Pull-off Adhesion key: A/B B B/C C C/D D -/ Y Y/Z Y/Z Average Result (MPa) Overcoat Adhesion Results: N964983-02 Cyclic Ageing (ISO 20340:2009) Mode of Failure(%) Result (MPa) Adhesive failure between the substrate and Coat Cohesive failure within Coat Adhesive failure between Coat and Coat Cohesive failure within Coat Adhesive failure between Coat and Coat Cohesive failure within Coat Adhesive failure between the outer coat and the adhesive Adhesive failure between the adhesive and the test dolly Document No.: N964983 Page No.: of 20 Author: S.Rice Issue Date: 18/02/2016 Client: International Paint Ltd Issue No.: 6.4 Corrosion Results: Cyclic Ageing (BS EN ISO 20340:2009) Corrosion Creep (mm) Corrosion Measurements (mm) Panel Number N964983-02 10.48 9.70 9.69 8.52 7.47 7.00 8.76 10.01 8.70 3.46 N964983-03 11.90 11.62 7.94 9.47 12.06 9.76 9.45 10.22 9.98 4.13 N964983-04 7.49 7.82 7.35 9.32 9.90 8.98 8.52 8.23 7.79 3.19 Seawater Immersion (BS EN ISO 2812-2:2007) Corrosion Creep (mm) Corrosion Measurements (mm) Panel Number N964983-06 2.33 3.55 3.52 2.04 2.09 3.06 3.00 2.97 2.49 0.39 N964983-07 2.53 2.22 2.76 2.09 2.57 2.74 2.13 2.19 2.77 0.22 N964983-08 3.52 2.00 2.31 2.12 2.22 3.62 3.45 2.57 3.45 0.40 6.5 Ambient Temperature Cathodic Disbondment Results: Ambient Temp CD (BS EN ISO 15711:2003) Equivalent Diameter (mm) Disbondment Measurements (mm) Panel Number N964983-11 6.00 6.00 6.00 6.00 0.00 N964983-12 6.00 6.00 6.00 6.00 0.00 N964983-13 6.00 6.00 6.00 6.00 0.00 Document No.: N964983 Page No.: 10 of 20 Author: S.Rice Issue Date: 18/02/2016 Client: International Paint Ltd Issue No.: Appendices Figure 1; Cyclic Ageing – Photographs Figure 2; Seawater Immersion – Photographs Figure 3; Ambient Cathodic Disbondment – Photographs Figure 4; Overcoat – Photographs Figure 5; Infrared Scan – Interzone 1000 Part A Figure 6; Infrared Scan – Interzone 1000 Part B Appendix A; General Test Information Appendix B; Equipment information Document No.: N964983 Page No.: 11 of 20 Author: S.Rice Issue Date: 18/02/2016 Client: International Paint Ltd Issue No.: FIGURE 1: Cyclic Ageing – Photographs N964983-Ref N964983-02 N964983-03 N964983-04 Document No.: N964983 Page No.: 12 of 20 Author: S.Rice Issue Date: 18/02/2016 Client: International Paint Ltd Issue No.: FIGURE 2: Seawater Immersion – Photographs N964983-06 N964983-07 N964983-08 Document No.: N964983 Page No.: 13 of 20 Author: S.Rice Issue Date: 18/02/2016 Client: International Paint Ltd Issue No.: FIGURE 3: Ambient Cathodic Disbondment – Photographs N964983 – 12 N964983 - 11 N964983 - 13 Document No.: N964983 Page No.: 14 of 20 Author: S.Rice Issue Date: 18/02/2016 Client: International Paint Ltd Issue No.: FIGURE 4: Overcoat – Photographs N964983-02 N964983-03 N964983-04 N964983-Ref Document No.: N964983 Page No.: 15 of 20 Author: S.Rice Issue Date: 18/02/2016 Client: International Paint Ltd Issue No.: FIGURE 5: IR Trace – Interzone 1000 Part A: Batch No.PH1717RG 105 CPL-00294 - Interzone 1000 Grey Part A - PH1717RG 100 95 90 85 %T 80 75 70 65 60 55 4000 3000 2000 W avenumbers (cm-1) 1000 FIGURE 6: IR Trace – Interzone 1000 Part B: Batch No.PG1676RG CPL-00297 - Interzone 1000 Part B - PG1676RG 100 95 %T 90 85 80 75 70 4000 3000 2000 Wav enumbers (cm-1) Document No.: N964983 Page No.: 16 of 20 Author: S.Rice Issue Date: 18/02/2016 Client: International Paint Ltd Issue No.: 1000 APPENDIX A – Test Details 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) Seawater Immersion:Testing was carried out in accordance to ISO2812-2 with the solution defined in ISO 15711 Scribed panels were subjected to an exposure of 4200 hours in circulating aerated water maintained at a temperature of 40°C ± 1°C The water was changed if it became turbid or coloured 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 shall be less than or equal to 3.0mm for coatings systems with a zinc rich primer, or less than or equal to 8.0mm for coatings systems with a primer that is not zinc rich or none zinc based Cathodic Disbondment:Testing was carried out in accordance with ISO 15711:2009 Panels with an artificial holiday introduced were exposed for 4200 hours in an artificial seawater solution with an impressed current of -1.05 Volts The electrolyte solution was maintained at a temperature of 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 Notes – 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 Record the total area exposed including the holiday (πr2 ) Calculate the disbonded area A, as the difference between the total area less the area of the holiday (28.3mm2) From the disbonded area calculate the equivalent diameter ( d= 2√ A/π) Worked Example Average diameter from readings = 12mm Exposed area = πr2 = 3.142 x x =113.1mm2 Disbonded area = 113.1- 28.3 = 84.8mm2 Equivalent Diameter = (2√ A/π) = 10.4mm Measured DFT:All panels were checked after each application to confirm dry film thickness Document No.: N964983 Page No.: 17 of 20 Author: S.Rice Issue Date: 18/02/2016 Client: International Paint Ltd Issue No.: Corrosion Creep Measurement:Corrosion creep was calculated from the average of measurements of the maximum width of the corrosion across the scribe The maximum width is measured in the middle of the scribe, and four points on each side of the middle, 5mm between each point Corrosion creep (M) is calculated as: M = (C-W)/2 Where: C is the average of the nine width measurements of corrosion across the scribe, and W is the original width of scribe Normally the disbondment width and the width between the corrosion edges is the same, but sometimes it is possible to lift the coating system from the substrate in a larger distance from the scratch than the corrosion edge The width between the corrosion edges across the scratch is reported as corrosion creep width Corrosion from the scribe shall be less than or equal to 3.0mm for coatings systems with a zinc rich primer, or less than or equal to 8.0mm for coatings systems with a primer that is not zinc rich or none zinc based Adhesion Testing:The pull off testing was carried out in accordance with ISO 4624 The dollies used had a contact area of 3.14cm2, 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 results General:All work sheets are available for inspection if required, and will be retained for a minimum of 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 Panels were subjected to weeks reconditioning after completion of cyclic ageing / seawater immersion test before adhesion evaluations were carried out All other evaluations were carried out within 24 hours of exposure completing Wet Paint Testing:Test Temperatures used for wet paint analysis: Ash content: hr @ 105°C then 4hrs @600°C Non-volatile: hr @105°C Document No.: N964983 Page No.: 18 of 20 Author: S.Rice Issue Date: 18/02/2016 Client: International Paint Ltd Issue No.: APPENDIX B – Equipment Details Equipment Machine Reference Serial Number QUV Machine CLQV07 CLQV10 CLQV11 CLQV13 07-14494-75-SE 12-1241-81-SE 12-1231-81-SE 12-1913-81-SE Cathodic Disbondment CLCU15 TopHex 15 Seawater Immersion Cabinets CLIB02 CWL/76412 Salt Spray Cabinet CLSS11 CLSS13 CLSS14 12-2591-40-SP1100 12-1391-40-CC 12-1961-40-CC CLFZ02 301006013972 CLFZ04 Model GM01 Elcometer 456 Sheen 1510 CLBL02 CWF 12/13 FTIR BX Spectrum II (Perkin Elmer) R14G-333209-RG 164 T456F65 092789/4 U25075 20-402756 Climatic Cabinet Portable Adhesion Tester DFT Gauge Pressure Cup Analytical Balance Furnace FTIR Document No.: N964983 Page No.: 19 of 20 Author: S.Rice Issue Date: 18/02/2016 Client: International Paint Ltd Issue No.: 78389 Report Signatories and Approval Author S.Rice Technical Administrator (For and on behalf of Exova (UK) Ltd) Approvers (For and on behalf of Exova (UK) Ltd) The results contained within this report have been reported in an abbreviated format The test data and result sheets containing more detailed information in accordance with the technical works procedures or standards used are held at Exova as part of the quality assurance system - END OF REPORT - Document No.: N964983 Page No.: 20 of 20 Author: S.Rice Issue Date: 18/02/2016 Client: International Paint Ltd Issue No.: ... B4 Title: Coating System Qualification Test Procedure Doc No.: 05-1_EPC-SV-VSP-Q-PR-00005 Rev.: B4 Date: 27.03.18 Page: of 10 Coating System. .. 05-1_EPC-SV-VSP-Q-PR-00005> Rev B4 Title: Coating System Qualification Test Procedure Doc No.: 05-1_EPC-SV-VSP-Q-PR-00005 Rev.: B4 Date: 27.03.18 Page:... Society for Testing and Materials File Name: Rev B4 Title: Coating System Qualification Test Procedure