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Is 2074 Ready Mix Paints Priming | Paint | Chromium
speichernIs 2074 Ready Mix Paints Priming für später speichern
Salinity Refers to the Concentration of Salts
Specification for Painting and Coating
FCF-1043-COR-EN
Silicone.pdf
Precipitation of Heavy Metals by Lime Mud
DOC:CHD 20 (1905)C August 2011 BUREAU OF INDIAN STANDARDS Draft Indian Standard
READY MIXED PATNT, AIR DRYING, RED OXIDE ZINC PRIMING SPECIFICATION (superseding IS 107:1952 and IS 108:1952) ( third revision of IS 2074) Part 1 for domestic and decorative applications (Not to be reproduced without the permission of BIS or used as STANDARD)
Last date for receipt of comments is 0. FOREWORD (formal clauses will be added later on)
This standard was first published in 1962 amalgamating IS 107:1952 Ready mixed paint, brushing, red oxide-zinc chrome, priming(withdrawn) and IS 108:1952 Ready mixed paint, spraying, red oxide-zinc chrome, priming(withdrawn). In the first revision in 1979 requirements for chromic anhydride and zinc oxide content in the zinc chrome content had been included. The optional requirements for spreading capacity and spreading time had been dropped. This standard was again revised in 1992 completely aligning it with Defence Specification J-347-13, Paint, RFU, Priming, Red oxide of iron, zinc chromate, universal, synthetic, brushing/spraying, issued by Ministry of Defence, by quantifying the values of wet opacity, gloss, weight per 10 litres, etc. Revision of this Indian Standard has been taken up with a view to incorporate the limit of lead restriction in this standard. The technical committee responsible for formulation of this standard observed that in practice most of the paints and primers are used for household/decorative as well as in industrial/commercial applications. Taking cognizance of the fact that lead exposure of human being, particularly children in residential premises is injurious to health and having adverse impact on human health and safety, the committee felt the need to introduce different level of lead restriction in all paints standards likely to be used for household and decorative purposes. This primer is extensively used for protection of grills, gates, window frames (metal) etc. in houses and buildings. However, it is observed that this primer has dual applications, namely usage for household/decorative purposes and usage for industrial/commercial applications. The committee felt that there is no need for lead restriction in this primer when it is meant exclusively for industrial/commercial applications. Keeping the above in perspective, the committee decided to bifurcate the existing specification into two parts namely Part 1 of this standard for household/decorative purposes and Part 2 of this standard for commercial/industrial applications.
It is also technologically feasible to formulate this product with very low maximum permissible limit of lead when it is intended to be used for decorative/household applications . Therefore, in this part 1 of the standard the requirement of maximum permissible limit of lead restriction has been modified as 90 ppm. This limit has been prescribed keeping in view of the scope for exposure to children to the paint once dried and also aiming at to reduce the adverse effect of lead in environment Further, majority of consumers are not aware of the consequences of lead toxicity and its long term implications to human health. Therefore, in this revision, along with lead restriction, a suitable cautionary notice has been included in the marking clause. The reference to different Indian standards have been up dated(e.g. for volume solids) and corrected wherever necessary For the purpose of deciding whether a particular requirement of this standard is complied with, the final value, observed or calculated, expressing the result of a test or analysis, shall be rounded off in accordance with IS 2: 1960 Rules for rounding off numerical values (revised). The number of significant places retained in the rounded off value should be the same as that of the specified value in this standard. 1 SCOPE 1.1 This Indian standard(Part 1) prescribes requirements methods of sampling an test for the material commercially known as ready mixed paint, air drying, red oxide-zinc chrome priming. 1.1.1 The material is used as a primer in the painting system normally followed for enamels for metal surfaces. It is used for the protection of steelwork for household and decorative purposes and also both under marine and inland outdoor conditions. 2 REFERENCES The standards listed in Annex A contain provisions which through reference in this text, constitute provisions of and necessary adjuncts to this standard. At the time of publication, the editions indicated were valid. All standards are subject to revision and parties to agreements based on this standard are encouraged to investigate the possibility of applying the most recent editions of the standards indicated in Annex A. 3 TERMINOLOGY For-the purpose of this standard, the definitions given in IS 1303:1983 shall apply. 4 CLASSES The material shall be supplied in brushing consistency but shall be suitable for application by spraying after thinning with petroleum hydrocarbon solvent, 145/205, low aromatic grade conforming to IS 1745:1978. The smell of the material shall not be objectionable during application. 5 REQUIREMENTS 5.1 Composition The material shall consist of the ingredients mixed in the proportions, by mass, specified below: a) Pigment (in accordance with 5.1.1) 50 + 5 percent
b) Driers -- Remainder, in suitable proportions to produce a paint satisfying the requirements of this standard.
NOTE -For defence supplies, the material shall meet an additional requirement of non volatile vehicle, Min 20 percent by mass when tested as per IS 101(Part 8/Sec 2).
5.1.1 The pigment used in the manufacture of the material shall consist of ingredients mixed in the proportions by mass, specified below. Zinc chromate content shall be determined as prescribed in Annex D: a) Zinc chrome, percent by mass, Min (conforming to Type 2 of IS 51:1998) which shall correspond to chromic anhydride contents of minimum 6.88 percent by mass and 5.84 percent by mass of zinc oxide b) Manufactured red oxides of iron (conforming to Class 2 or IS 44:1991) orNatural red oxides of iron ( conforming to Class 3 of IS 44:1991 ) or A mixture of both which shall correspond to red oxide ( as Fe2O3), percent by mass, Min; when tested as prescribed in 6 of IS 6947(Part 2):1975 c) Suitable extenders - 16.0
5.1.2 The volatile vehicle shall be of such composition so as to satisfy the requirements of this specification. 5.1.3 Lead Restriction 5.1.3.1 The composition of the material shall be subject to test for restriction from lead in accordance with IS 101 (Part 8/See 5), in addition to the requirements at 5.1.1 and 5.1.2. 5.1.3.2 When thus tested the material shall not contain lead or compounds of lead or mixtures of both, calculated as Metallic lead exceeding 90 ppm. 5.2 The material shall be suitable for use with oleoresinous synthetic and nitrocellulose-based undercoats, surfacers, fillers and putties. 5.3 Freedom from Objectionable Impurities Thinner containing chlorinated compounds or other substances which are injurious to operators during or after application shall not be used. 5.4 Compatibility with Thinner The material shall be suitable for thinning with thinners used for synthetic paints (see IS 1872). 5.5 Resistance to humidity under conditions of condensation 5.5.1 Resistance to natural and artificial sea water ( Applicable for Marine Paints Only ) The material, when tested as prescribed in Annex C for 7 days, shall pass the test and the panel prepared from the material shall show no damage, blistering or flaking of the paint film, or under film corrosion.
5.5.2 Resistance to Salt Spray The material, when tested as prescribed in Annex D for a period of 96 hours continuously shall pass the test and the paint film shall show no signs of breakdown and the underlying metal shall be free from corrosion. 5.6 The material shall also comply with the requirements given in Table 1.
TABLE 2 REQUIREMENTS FOR ENAMEL, SYNTHETIC, EXTERIOR (A) UNDERCOATING (B) FINISHING
(Clause 5.6 and 8)
(2) a) Consistency
(3) Smooth, uniform and suitable for brushing without appreciable drag on the brush 80-120 s
Methods of Test Ref to IS 101 Annex
(4) (5) E
b) Viscosity by ford cup No. 4 at 27 + 2C ii) Mass, in lig/10 Iitres, Min 13.5 iii) Drying time, h, Max a) Surface dry 2 b) Hard dry 12 iv) a) Finish Smooth, matt to egg shell gloss
Clause 2 of (Part l/See 5) (Part l/See 7) (Part 3/See 1)
(Part 3/See 4) (Part 4/See 1) (Part 3/See 5) (Part 4/See 2) Clause 3 of (Part 5/See 2) Clause 2 of (Part 5/See 2) (Part l/See 6) (Part 8/See 6) clause 2 of (Part 6/sec 1) (Part 6/See 2)
b) Gloss value, specular, at 60o Not more than 40 units v) Fineness of grind Not more than 50 microns vi) Colour That of red oxide vii) Scratch hardness No such scratch as to show after 48 h air the bare metal drying (1 000 g) viii) Flexibility and adhesion No visible damage or after 48 h of air drying detachment or cracking of the film ix) Flash point Not below 30oC x) Volume solids, percent 45 + 5 xi) Resistance to humidity No signs of corrosion under conditions of condensation xii) Accelerated storage Shall pass the test stability test, at 60oC, 96 h xiii) Keeping properties Not less than one year from date of manufacturing
6 SAMPLING 6.1 Representative samples of the material shall be drawn as prescribed in IS 101( Part1/Sec1) 6.2 Criteria for Conformity A lot shall be declared as conforming to the requirements of this standard if the test results of composite sample satisfy the requirements prescribed under 5. 7 TEST METHODS 7.1 Test shall be conducted as prescribed in various parts of IS 101 and various Annexes to this standard. References to the relevant clauses of these standards are given in Col 4 & 5 of Table 1 and 5.1 to 5.6 7.2 Quality of Reagents Unless specified otherwise pure chemicals and distilled water (see 1S 1070) shall be employed in tests.
8 PACKING AND MARKING 8.1 Packing Unless otherwise agreed to between the purchaser and the supplier, the enamel shall be packed in suitable metal containers (see IS 1407 and IS 2552). 8.2 Marking 8.2.1 Each container shall be marked with the following: a) Name of the material and indication whether undercoating or finishing; b) Indication of the source of manufacture; c) Lead Content (Maximum) d) Volume of the material; e) Batch number or Lot number in code or otherwise; f) Month and year of manufacture; and g) A cautionary note as below - Keep out of reach of children. - Dried film of this paint may be harmful if eaten or chewed. - This product may be harmful if swallowed or inhaled. 8.2.2 BIS Certification Marking The container may also be marked with the Standard Mark. 8.2.2.1 The use of the Standard Mark is governed by the provisions of Bureau of Indian Standards Act, 1986 and the Rules and Regulations made there under. The details of conditions under which the Iicence for the use of the Standard Mark may be granted to manufacturers or producers maybe obtained from the Bureau of Indian Standards.
A N N E X (Clause 2)
LIST OF REFERRED INDIAN STANDARDS IS No. IS 44: 1991 IS 51:1979 IS 101 (Part l/ Sec 1): 1986 Sec 2): 1987 Sec 3): 1986 Sec 5): 1989 Sec 6): 1987 Sec 7): 1987 (Part 2 Sec 1: 1988 (Part 3 Sec 1):1986 Sec 4): 1987 Sec 5): 1987 (Part 4 Sec 1): 1988 Sec 2): 1989 Sec 4): 1988 (Part 5 Sec 1): 1988 Sec 2): 1988 (Part 6 Sec 1): 1988 Sec 2): 1989 (Part 8 Sec 5): 1993 IS 1070:1992 IS 1303:1983 IS 1407:1980 IS 1745:1978 IS 1872:1961 IS 2552: 1989 IS 6947(part 2):1975 Title Iron oxide pigments for paints ( second revision ) Zinc chrome for paints ( third revision ) Methods of sampling and test for paints, varnish and related products: Part 1 Test on liquid paints (general and physical), Section 1 Sampling (third revision) Section 2 Preliminary examination and preparation of samples for testing (third revision) Section 3 Preparation of panels (third revision) Section 5 Consistency (third revision) Section 6 Flash point (third revision) Section 7 Mass per 10 litres (third revision) Part 2 Test on liquid paints (chemical examination), Section 1 Water content (third revision) Part 3 Tests on paint film formation Section 1 Drying time (third revision) Section 4 Finish (third revision) Section 5 Fineness of grind (third revision) Part 4 Optical tests on paint films Section 1 Opacity (third revision) Section 2 Colour (third revision) Section 4 Gloss (third revision) Part 5 Mechanical tests on paint films Section 1 Hardness tests (third revision) Section 2 Flexibility and adhesion (third revision) Part 6 Durability tests on paint films Section 1 Resistance to humidity under conditions of condensation (third revision) Section 2 Keeping properties(third revision) Part 8 Tests for pigments and other solids Section 5 Lead Restriction test Reagent grade water (third revision) Glossary of terms relating to paints (second revision) Round paint tins (second revision) Petroleum hydrocarbon solvents (second revision) Thinner for synthetic paints and varnishes for aircrafts Steel drums (galvanized and ungalvanized) (third revision) Methods of estimation of composite pigments in oil pastes, ready mixed paints and enamels : Part 2 Estimation of zinc chromes, ferric oxide and aluminium
ANNEX B (Clause 5.1.1) DETERMINATION OF CHROMIC ANHYDRIDE AND ZINC OXIDE B-0 OUTLINE OF THE METHOD B-0.1 Chromic anhyride is determined by titrating the iodine liberated from potassium iodide with standard sodium thiosulphate solution. Zinc oxide is determined in the same solution by titrating the iodine subsequently liberated on addition of potassium ferricyanide, with standard sodium thiosulphate solution. B-l REAGENTS B-l.1 Dilute Sulphuric Acid(see IS 266) approximately 7 N. B-1.2 Potassium Iodide Solution (see IS 7163) freshly prepared, 10 percent. B-l .3 Standard Sodium Thiosulphate - 0.1 N. B-1.4 Starch Solution - 0.5 percent. B-1.5 Potassium Ferricyanide Solution - M/10, prepared in cold water, filtered rapidly and kept in a dark bottle. The solution can be suitably used for seven days if kept in dark when not in use. B-1.6 Ammonium Bifluoride (NH,) HF2(see IS 13119) - solid. B-1.7 Sodium Hydroxide Solution(see IS 376) -- 10 percent ( approx ). B-2 PROCEDURE B-2.1 Weigh accurately about 1 g of the pigment in a 250-ml beaker and add about 100 ml of sodium hydroxide solution. Stir well by rubbing with a glass rod and boil slowly for 5 minutes over a wire gauze. Place the beaker, covered with a clock-glass on a water-bath for about ha1 an hour. Filter over filter paper ( Whatman No. 42 ) in a 500-ml conical flask. Wash well with hot water until the residue is free from chromate. Cool the filtrate in ice water and neutralize it with dilute sulphuric acid. Add 30 ml of dilute sulphuric acid after neutralization and cool. Then estimate chromic anhydride and zinc oxide content as given in B-2.2, B-2.3 and B-2.4. B-2.2 Transfer the solution to a 500-ml iodine flask containing 100 ml of water and 20 ml of dilute sulphuric acid. Add 30 ml of potassium iodide solution and allow to stand for 5 minutes. Titrate the liberated iodine with standard sodium thiosulphate solution after adding 5 ml of starch solution as indicator. Note the volume of sodium thiosulphate solution used in the titration V1. B-2.3 After the titration for chromic anhydride, add ammonia solution drop wise until the litmus test paper first turns blue. (An excess of ammonia solution, more than 3 to 4 drops, should not be added as it is essential that the blue litmus should turn red with ammonium bitluoride to be added subsequently). Cool and add 2 to 3 g of ammonium bifluoride and sufficient water to make volume approximately 250 ml. (Sometime traces of iodine liberated during neutralization can be cleared by one or two drops of sodium thiosulphate solution). Add V1 /3 ml of potassium ferricyanide solution. Stir and allow to stand for about 2 minutes. Titrate
the liberated iodine with standard thiosulphate solution. After the end point, the colour of the test solution will be bright pale greenish-yellow. Note the volume of sodium thiosulphate solution used in the second titration (V2). If V2 is less than 6 ml, the titration is to be repeated with the addition of (V2 - 2) ml of potassium ferricyanide solution in place of V1/3 ml. B-2.4 If V2 is less than 2 ml, the titration is to be repeated, starting from the extracted pigment, with the addition of 5 ml of potassium ferricyanide solution. B-3 CALCULATION B-3.1 Chromic anhydride ( CrO3 ), percent by mass = 3.334 x V1 x N M where V1 = volume, in ml, of sodium thiosulphate solution used in the first titration; N = normality of sodium thiosulphate solution used; and M = mass, in g, of the material taken for the titration. B-3.2 where and V2 = volume, in ml, of sodium~thiosulphate solution used in the second titration; N and M have the same legend as B-3.1. A NNE X (Clause 5.5.1) RESISTANCE TO NATURAL OR ARTIFICIAL SEA WATER C-0. GENERAL C-0.1 Outline of the Method This is the test for determination of resistance of paint films to natural or artificial sea water spray condensation conditions. The painted panel is immersed in natural or artificial sea water for specified period and paint film examined for any deterioration. C-1. COMPOSITION OF NATURAL SEA WATER C-1.1 The natural sea water should be taken for not less than one foot below the surface by a method which does not contaminate from the surface layer. In areas where there is pronounced tidal action, the water should be taken near full flood and shall have a pH of 7.9 to 8.3 and initially have a chlorinity of not less than 17 parts and salinity of 31 parts per 1 000.
NOTE The chlorinity and consequently salinity of natural sea water on the Indian coast line is subject to variations due to the monsoon. Dilution occurs during this period, lowering these values considerably. This period usually varies from 3 to 4 months during the year. In the other months, salinity is equal to or even higher than the artificial sea water but seldom exceeds 36 to 37 parts. This rise in salinity, however, has not a very significant effect on the test.
Zinc oxide ( ZnO ), percent by mass = 12.45 x V2 x N M
C-2. COMPOSITION OF ARTIFICIAL SEA WATER C-2.1 The artificial sea water is prepared as described in clause 4.2 of IS 101(Part 6/Sec 1) C-3 APPARATUS
C-3.1 The apparatus used is as described in clause 4.3 of IS 101(Part 6/Sec 1) C-4. PROCEDURE C-4.1 Preparation of Test Panels Prepare a panel of 150 50 1.25 mm mild steel plate as described in IS:101 (Part 1/Sec 3)-1986. Apply a coat of this primer to give a dry film mass in accordance with 101(Part 3/sec 4) and allow to dry for 24 hours. After seven days of application determine the thickness in micrometres, of the dry coating, by any appropriate method but using any one of the non-destructive procedures. Seal the edges of the panel with wax up to a depth of 6 mm by dipping in molten wax. C-3.2 Immerse the 75 mm of the test panels at room temperature for a period of seven days in natural or artificial sea water which is aerated by a continuous slow stream of air free from oil or grease. Examine the panels at the end of 7days visually for signs of deterioration of the system. Also carefully remove 25 mm strip of the film from the centre of the panel along the length with a cotton wool swab soaked in suitable paint remover and examine the exposed metal for signs of corrosion, neglecting 25 mm portions of the exposed surface from each edge. C-3.3 The material shall be deemed to have passed the test if the panel does not show any sign of corrosion and not more than slight blistering. ANNEX D
(Clause 5.5.2) RESISTANCE TO SALT SPRAY D-0. GENERAL D-0.1 Outline of the Method The painted panels are subjected to intermittent salt spray for 96 hours and paint film examined for any deterioration. D-1 COMPOSITION D-1.1 The spray solution shall have a composition as specified in B-2.1. D-2 APPARATUS D-2.1 The apparatus used is as described in clause 3.2 of IS 101(Part 6/Sec 1) D-3. PROCEDURE D-3.1 The test panels shall be prepared as prescribed in C-4.1. One side will have a three-coat system. Make a scratch or scribed mark through the coating to the substrate. Use the single cutting tool and locate the scratch at least 20 mm from any edge of the test panel. Then follow the procedure as described in clause 3.5 of IS 101(Part 6/Sec 1) except for clause 3.5.2.2 wherein the pH will be between 7.9 and 8.3 and concentration of the collected salt water will be the same as freshly prepared. At the end of 96 hours the panels shall be examined visually for any deterioration of the paint film. Carefully remove 25 mm strip of the film from the centre of the panel along the length carefully with a cotton wool swab soaked in suitable paint remover and examine the exposed metal for signs of corrosion, neglecting 25 mm portions of the exposed surface from each edge.
D-3.2 The material shall be deemed to have passed the test if the panel does not show any sign of corrosion and not more than slight blistering. ANNEX E
[Table 1, Sl. No. i) a)] CONSISTENCY E-1 APPARATUS E-1.1 Palette Knife or Metal Rod E-1.2 Glass Panels E-1.2.1 Unless specified otherwise, glass panels of size 150 x 50 mm shall be prepared as prescribed in 5 of IS 101 (Part 1/Sec 3). E-2 PROCEDURE Insert a clean metal rod or palette knife into the original container and examine the nature of settling. The material shall not cake hard inside the container and shall be in such a condition that stirring easily produces a smooth uniform paint suitable for brushing on glass panels.
[Table 1, Sl. No.xii)] ACCELERATED STORAGE STABILITY TEST F-l PROCEDURE F-1.1 Store the paint sample in a closed 500-ml container and keep at 60C for 96 h. F-1.2 After the test, paint shall not gel, liver, curdle or increase in efflux time by more than 20 percent and there shall be no evidence of seeding. The paint shall meet the drying time requirement and shall produce dry film that is uniform in appearance and free from streaking, mottling and seediness Further, the change in gloss value from the original shall not be more than 5 units.
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