NACE TM0104-2004 Offshore Platform Ballast Water Tank Coating System Evaluation (Item No 21243)《海洋平台式调整水舱涂料系统评估 项目编号21243》.pdf

1、NACE Standard TM0104-2004 Item No. 21243 Stan da rd Test Method Offshore Platform Ballast Water Tank Coating System Eva I u at i on This NACE International standard represents a consensus of those individual members who have reviewed this document, its scope, and provisions. Its acceptance does not

2、in any respect preclude anyone, whether he has adopted the standard or not, from manufacturing, marketing, purchasing, or using products, processes, or procedures not in conformance with this standard. Nothing contained in this NACE International standard is to be construed as granting any right, by

3、 implication or otherwise, to manufacture, sell, or use in connection with any method, apparatus, or product covered by Letters Patent, or as indemnifying or protecting anyone against liability for infringement of Letters Patent. This standard represents minimum requirements and should in no way be

4、interpreted as a restriction on the use of better procedures or materials. Neither is this standard intended to apply in all cases relating to the subject. Unpredictable circumstances may negate the usefulness of this standard in specific instances. NACE International assumes no responsibility for t

5、he interpretation or use of this standard by other parties and accepts responsibility for only those official NACE International interpretations issued by NACE International in accordance with its governing procedures and policies which preclude the issuance of interpretations by individual voluntee

6、rs. Users of this NACE International standard are responsible for reviewing appropriate health, safety, environmental, and regulatory documents and for determining their applicability in relation to this standard prior to its use. This NACE International standard may not necessarily address all pote

7、ntial health and safety problems or environmental hazards associated with the use of materials, equipment, and/or operations detailed or referred to within this standard. Users of this NACE International standard are also responsible for establishing appropriate health, safety, and environmental pro

8、tection practices, in consultation with appropriate regulatory authorities if necessary, to achieve compliance with any existing applicable regulatory requirements prior to the use of this standard. CAUTIONARY NOTICE: NACE International standards are subject to periodic review, and may be revised or

9、 withdrawn at any time. NACE International requires that action be taken to reaffirm, revise, or withdraw this standard no later than five years from the date of initial publication. The user is cautioned to obtain the latest edition. Purchasers of NACE International standards may receive current in

10、formation on all standards and other NACE International publications by contacting the NACE International Membership Services Department, 1440 South Creek Drive, Houston, Texas 77084-4906 (telephone +I 281 228-6200). Approved 2004-12-03 NACE International 1440 South Creek Drive Houston, Texas 77084-

11、4906 +I (281) 228-6200 ISBN 57590-1 93-5 02004, NACE International TM0104-2004 Foreword This standard specifies test methods to evaluate ballast water tank coating systems on offshore platorms, such as tension leg platforms (TLPs), semi-submersible platorms, or floating production and storage offloa

12、ding systems (FPSOs). This standard is intended for use by facility owners and coating manufacturers. This standard was prepared by NACE Task Group 263 on Offshore Ballast Water Tank Coatings: Standard Test Method. This Task Group is administered by Specific Technology Group (STG) 03 on Coatings and

13、 Linings, Protective: Immersion and Buried Service. It is also sponsored by STG 33 on Oil and Gas Production-Nonmetallics and Wear Coatings (Metallic). This standard is issued by NACE International under the auspices of STG 03. In NACE standards, the terms shall, must, should, and may are used in ac

14、cordance with the definitions of these terms in the NACE Publications Style Manual, 4th ed., Paragraph 7.4.1.9. Shall and must are used to state mandatory requirements. The term should is used to state something good and is recommended but is not mandatory. The term may is used to state something co

15、nsidered optional. NACE International I TM0104-2004 Standard Test Method Offshore Platform Ballast Water Tank Coating System Evaluation Contents 1. General 1 2. Definitions 1 3. Coating Materials 1 4. Test Solution . 2 5. Test Specimens 2 6. Coating Application . 4 7. Cathodic Disbondment Test 4 8.

16、Seawater Immersion Resistance Test 5 9. Dimensional Stabili 6 IO. Aging Stability Te 6 11. Edge-Retention T 7 12. Thick-Film Cracki 8 13. Hotmet Cycling Test (for FPSOs only) 8 Referenc . 9 Figure 1: ngle Aluminum Bar for Edge-Retention Test . 7 Figure 2: Cross-Section of C-Channel Steel Used for Th

17、ick-Film Cracking Test 8 Table 1 : Fingerprinting of Coating Materials 2 Table 2: Test Specimen Geometry, Size, Substrate Material, and Minimum 3 II NACE International TM0104-2004 Section 1: General 1.1 This NACE standard test method covers both new construction and maintenance ballast water tank co

18、ating systems for tension leg platorms (TLPs), semi-submersible platorms, and floating production and storage offloading systems (FPSOs). 1.2 Six test methods-cathodic disbondment, seawater immersion resistance, dimensional stability, aging stability, edge retention, and thick-film cracking-are used

19、 to evaluate these coating systems. The facility owners shall specify the acceptance criteria according to their specific requirements. 1.3 The ballast water temperature in a TLP or semi- submersible platorm is normally below 25C (77F) and can be much higher in a FPSO, depending on crude oil tempera

20、tures. Therefore, FPSOs require one additional h owet cycling test. Section 2: Definitions Cathodic Disbondment: The destruction of adhesion between a coating and the coated sutface caused by products of a cathodic reaction. Coating System: The complete number and types of coats applied to a substra

21、te in a predetermined order. Edge Retention: The ratio of dry-film thickness (DFT) of the entire multicoat coating system at peak to average DFT on both flat sutfaces of a sharp angle bar. This is a measurement of a coatings ability to retain film coverage over sharp corners. components of a coating

22、 material in the process of delivering them to the spray gun. Plural-component spray equipment is used to apply coatings with a pot life that is too short to permit mixing and application by conventional air and airless spray equipment. Pot Life: The elapsed time within which a coating can be effect

23、ively applied after all components of the coating have been thoroughly mixed. Room Temperature: An indoor temperature generally between 20 and 25C (68 and 77F). Fingerprinting: Method of identifying a coating material through laboratory analyses of coating density, solids remains in usable condition

24、. content, pigment content, etc. Infrared (IR) spectroscopy is often used in the analyses. Synthetic Seawater: An aqueous solution containing inorganic salts in proportions and concentrations Plural-Component Spraying: An application method that representative of ocean water (also known as “substitu

25、te automatically proportions and mixes two or more ocean water”). Shelf Life: The amount of time a coating or other material Section 3: Coating Materials 3.1 General The coating system petformance shall pass the acceptance criteria specified by facility owners according to their specific requirement

26、s. If the coating formulation is changed after the qualification test, the new coating system shall be requalified according to the latest revision of this standard. 3.2 Required Product Information When each coating system is submitted to qualification testing the coating manufacturer shall provide

27、 the following information. This information shall be included as part of the test report: (1) Product data sheet (2) Material safety data sheet (MSDS) (3) Fingerprinting-The requirements for fingerprinting for each coat of the multicoat coating system are listed in Table 1. NACE International 1 TM0

28、104-2004 Table 1 : Fingerprinting of Coating Materials # Property Component Standard 1 Density Part A and B, each ASTM?A? D 1475? 2 Solids content bv weiqht Mixed Parts A and B ASTM D 2369? component 3 Pigment content by weight Part A and B, each ASTM D 23723 4A Fourier transform infrared-attenuated

29、 total Part A and B, each Equipment instruction component reflection (FTIR-ATR) scan with pigment, or component manufacturer?s 4B Infrared (IR) scan without pigment Part A and B, each ASTM D 26214 component ASTM International, 100 Barr Harbor Drive, West Conshohocken, PA 19428. If the fingerprinting

30、 test is conducted by the supplier, the test results shall be certified by the manufacturer?s quality assurance/quality control manager or the senior technical manager. (4) All of the following information: Manufacturer?s name Address Telephone/fax numbers Sutface preparation standard (NACE, SSPC,?

31、ISO,? etc.) Anchor profile (pm or mil) For each coat of the coating system, the following information shall also be provided: Product name Color Material type Batch numbers, Part A and Part B Manufacturing date Shelf life Volatile organic compounds (VOCs), (g/L or Ib/gal) Cleaning solvent Thinner ty

32、pe Maximum percentage of thinner content by volume Mixing ratio by volume or weight Application method Application temperature range (?C or OF) Application humidity range (% R.H.) Pot life (hourstem peratu re) Induction time (minutes) Minimum recoat and dry-to-touch time (hou rstem peratu re) Maximu

33、m recoat time (daystemperature) Percentage of solids content by volume Wet-film thickness (WFT) range (pm or mil) Dry-film thickness (DFT) range (pm or mil) Section 4: Test Solution Synthetic seawater used in several of the test methods in prepare the synthetic seawater. Commercial-grade sea this st

34、andard shall be prepared with the sea salt chemical salts may be used instead of reagent-grade sea salts to composition in accordance with ASTM D 1141.5 The prepare the synthetic seawater. minute concentration of heavy metals is not required to Section 5: Test Specimens 5.1 Test Specimen Geometry, S

35、ize, Substrate Material, quantity of test specimens for each sutface preparation and Minimum Quantity and test method, for both new construction and maintenance coating system evaluation. Extra coated 5.1.1 Table 2 lists the specified test specimen test specimens should be prepared in case a repeat

36、geometry, size, substrate material, and the minimum test is needed later. (I) SSPC: The Society for Protective Coatings, 40 24th Street 6th Floor, Pittsburgh PA 15222-4656. International Organization for Standardization (ISO), 1 rue de Varernb, Case postale 56, CH-I21 1 Geneva 20, Switzerland. NACE

37、International TM0104-2004 Table 2: Test Specimen Geometry, Size, Substrate Material, and Minimum Quantity Test Method Test Specimen Substrate Surface Minimum Number Material Preparation Geometry and Size New Maintenance Construction Cathodic Disbondment Seawater Immersion Resistan ce Dimensional Sta

38、bility Aging Stability Edge Rete nt ion Th ic k-Film Cracking HoWet Cycling (for FPSO only) 76 x 150 x 4.75-mm panel ASTM A 366 NACE No. I/ SSPC- (3.0 x 6.0 x 0,188-in.) carbon steel SP 5 Damp I 00 mg/m2 CI- 76 x 150 x 4.75-mm ASTM A 36 NACE NO. I/ SSPC- (3.0 x 6.0 x 0,188-in.) carbon steel SP 5 pan

39、el Damp I 00 mg/m2 CI- 76 x 25-mm (3.0 x 1 .O-in.) HDPE SSPC-SP i7 free film Panel with minimum carbon steel NACE No. I/ SSPC- width of 12.7 to 25.0 mm (0.500 to 1 .O0 in.), and thickness at least 1 O times coating system DFT. 90“ angle bar, 150-mm aluminum #80 grit sandpaper (6.0-in.) long, 19 x 19

40、 x 3.1 8 mm (0.75 x 0.75 x 0.125 in.) 76 x 50 x 3.1 8-mm C-channel length of 150 mm (6.0 in), SP 5 carbon steel NACE No. I/ SSPC- SP 5 (3.0 x 2.0 x 0.125-in.) 76 x 150 x 4.75-mm ASTM A 36 NACE NO. I/ SSPC- (3.0 x 6.0 x 0,188-in.) carbon steel SP 5 panel Damp I 00 mg/m2 CI- 2 2 2 2 2 2 2 2 3 3 12 12

41、3 3 3 3 4 4 4 4 5.1.2 A welding rod 3.18 mm (0.125 in.) in diameter and 76 mm (3.0 in.) in length should be welded to the center of one of the 76-mm (3.0-in.) sides of each steel panel to suspend the panel in the air so that the entire panel can be coated at one time. Other techniques to spray all s

42、ides of a panel may also be used. 5.2 Sutface Preparation for New Construction Coating System Evaluation The steel panels shall be grit blasted to a white-metal finish (NACE No. l/SSPC-SP 5 or IS0 85O1-l9Sa 3). 5.3 Sutface Preparation for Maintenance Coating System Evaluation 5.3.1 For evaluation of

43、 maintenance coating systems, test specimens with three different surface preparations shall be used for the cathodic disbondment, seawater immersion resistance, and howet cycling tests: (1) NACE No. l/SSPC-SP 5 or IS0 8501-1 Sa 3 white metal finish (2) Damp sutface: Immediately prior to the applica

44、tion of the prime coat, the NACE No. I/SSPC- SP 5 or IS0 8501-1 Sa 3 white metal finish steel NACE International 3 TM0104-2004 panels shall be dipped into tap water and then stippled with a wet and wrung cloth. No water droplets shall be visually evident on the steel panel sutfaces. (3) Salted sutfa

45、ce: NACE No. l/SSPC-SP 5 white metal finish plus 100 mg/m chloride (Ci-). 5.4 The procedure to prepare 100 mg/m CI- for 76 x 150- mm (3.0 x 6.0-in.) test specimens shall be as follows: 5.4.1 The sutface area of each side of a 76 x 150-mm (3.0 x 6.0-in.) steel panel is 11,600 mm (1 8.0 in.). 5.4.2 1,

46、160 pg of CI ion is required to make a 100- mg/m CI concentration. 5.4.3 0.5 mL of salt solution of 2.32-g/L CI ion concentration shall be used to cover each side of the steel panel. To make a 1 .O-L salt solution, 2.32 g of CI ion is required; therefore 3.82 g of sodium chloride (NaCI) is required.

47、 5.4.4 NaCI shall be placed in a 93 to 121C (200 to 250F) oven for at least 2 hours to remove any moisture. 5.4.5 The 3.82 g of dry NaCI shall be mixed thoroughly with 1 .O L of distilled or deionized water. 5.4.6 Using a syringe, 0.5 mL of the salt solution shall be drawn and poured on a steel pane

48、l preheated to 66 to 93C (150 to 200F). A glass rod shall be used to spread the salt solution over the sutface of the panel. Using warm panels allows the water to evaporate quickly. 5.5 Sutface Preparation by High-pressure Waterjetting for Maintenance Coating System Evaluation If high-pressure water

49、jetting is used for sutface preparation prior to application of maintenance coatings in the field, the steel panels used to make the test specimens shall be prepared in the same manner. All the test methods shall still be applicable. 5.6 Anchor Profile Anchor profile on all steel panels shall be as specified by the coating manufacturer. If not specified, the anchor profile shall be 40 to 75 pm (1.5 to 3.0 mil) as measured with a replica tape in accordance with NACE Standard RP0287.I Section 6: Coating Application 6.1 All coatings shall be well mixed with Part