HG/T 2377-2009 PDF in English
HG/T 2377-2009 (HG/T2377-2009, HGT 2377-2009, HGT2377-2009)
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HG/T 2377-2009 | English | 100 |
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Virteous and porlelain enamels. Determination of resistance to boiling water and vapouy
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HG/T 2377-1992 | English | 199 |
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(Determination of resistance to boiling water glass lining layer corrosion)
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Standards related to (historical): HG/T 2377-2009
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HG/T 2377-2009: PDF in English (HGT 2377-2009) HG/T 2377-2009
HG
CHEMICAL INDUSTRY STANDARD
OF THE PEOPLE’S REPUBLIC OF CHINA
ICS 71.120; 25.220.50
G 94
Filing No.: 27318-2010
Replacing HG/T 2377-1992
Vitreous and porcelain enamels - Determination of
resistance to boiling water and vapor
(ISO 2744:1998, MOD)
ISSUED ON: DECEMBER 04, 2009
IMPLEMENTED ON: JUNE 01, 2010
Issued by: Ministry of Industry and Information Technology of PRC
Table of Contents
Foreword ... 3
1 Scope ... 5
2 Normative references ... 5
3 Principles ... 6
4 Reagents ... 6
5 Instruments and devices ... 6
6 Specimens ... 7
7 Test steps ... 7
8 Results expression ... 8
9 Test report ... 10
Appendix A (Informative) Technical differences between this standard and ISO
2744:1998 as well as their reasons ... 11
Vitreous and porcelain enamels - Determination of
resistance to boiling water and vapor
1 Scope
This standard specifies the method for measuring the corrosion resistance of vitreous
and porcelain enamels to boiling water and water vapor.
This standard applies to the determination of the corrosion resistance of vitreous and
porcelain enamels to boiling water or water vapor.
This standard is also applicable to the determination of the corrosion resistance of
vitreous and porcelain enamels to other corrosive media in liquid phase and gas phase.
Note 1: When the test temperature is lower than the boiling point of water, it shall be indicated
in the test report.
Note 2: The pH value of water and the substances contained in it determine the corrosion
resistance of the vitreous and porcelain enamel to water. In addition, the corrosion products of
the vitreous and porcelain enamel and the corrosion products of borosilicate glass instruments
used in the test will also affect the measurement results under liquid phase conditions. Therefore,
different test results will be obtained depending on the corrosion time (see note in 8.1).
2 Normative references
The provisions in following documents become the provisions of this Standard through
reference in this Standard. For the dated references, the subsequent amendments
(excluding corrections) or revisions do not apply to this Standard; however, parties who
reach an agreement based on this Standard are encouraged to study if the latest versions
of these documents are applicable. For undated references, the latest edition of the
referenced document applies.
GB/T 676-2007 Chemical reagent - Acetic acid (neq ISO 6353-2:1983, Reagents for
chemical analysis - Part 2: Specifications - First series)
GB/T 678-2002 Chemical reagent - Ethanol (neq ISO 6353-2:1983, Reagents for
chemical analysis - Part 2: Specifications - First series)
GB/T 7989-2003 Vitreous and porcelain enamels - Determination of resistance to
condensing hydrochloric acid vapor (mod ISO 2743:1986, Vitreous and porcelain
enamels - Determination of resistance to condensing hydrochloric acid vapor)
GB/T 12804-1991 Laboratory glassware - Graduated measuring cylinders (neq ISO
4788:1980, Laboratory glassware - Graduated measuring cylinders)
HG/T 3105-1987 Vitreous and porcelain enamels for sheet steel - Production of
specimens for testing (neq ISO 2723:1973, Vitreous and porcelain enamels for sheet
steel - Production of specimen for testing)
3 Principles
The vitreous and porcelain enamel is corroded by boiling water and vapor for 48 h (2
d) or 336 h (14 d); the corrosion weight loss is measured, to calculate the corrosion rate.
The lower the corrosion rate, the better the water corrosion resistance of the vitreous
and porcelain enamel.
4 Reagents
It shall use the proven and qualified reagents.
4.1 Distilled water or demineralized water
Freshly prepared distilled or demineralized water is used for each test.
4.2 Acetic acid solution
The concentration of acetic acid solution, which is used in the test, is 5% (volume
fraction), which meets the requirements of GB/T 676 and is used to clean test devices
and test pieces.
4.3 Cleaning agent
The cleaning agent is absolute ethanol (C2H5OH), which meets the requirements of
GB/T 678, OR use water containing a little liquid cleaning agent to clean the specimen
or remove oil stains on the surface of the specimen.
4.4 Neutral detergent
Neutral detergent is used to clean the stains on the surface of the test piece.
5 Instruments and devices
5.1 Test device: The same as the test device, which is specified in Chapter 5 of GB/T
7989.
5.2 Oven: 0 °C ~ 150 °C.
5.3 Dryer: The inner diameter is greater than 200 mm.
5.4 Graduated cylinder: 500 mL, which meets the requirements of GB/T 12804.
5.5 Balance: Accuracy 0.2 mg.
5.6 Sponge: Soft.
6 Specimens
6.1 Preparation of specimens
Prepare specimens, according to HG/T 3105. The number of specimens shall be
sufficient for the test. Single-sided vitreous and porcelain enamel specimens are only
suitable for short-term tests (48 h).
6.2 Selection of test pieces
Remove the specimens, which have uneven surface, cracked porcelain, cracks, powder
tumors and other defects. Make it subject to and pass the 10 kV high-voltage testing.
Finally, grind off all the vitreous and porcelain enamels that may be peeled off around
and on the back of the specimen. The number of selected specimens shall not be less
than 4.
6.3 Treatment of specimens
Use a sponge, which is dipped in neutral detergent (see 4.4), to scrub the first. Use tap
water to rinse it clean. Then use distilled water (see 4.1) to rinse it. Use absolute ethanol
(see 4.3) to wash it 2 ~ 3 times. Use hair dryer to blow it dry. Dry it in an oven, at 110 °C
± 5 °C (see 5.2) for 2 hours. Then move it into a desiccator (see 5.3) AND place it for
more than 4 hours. Use a balance (see 5.5), to weigh the initial mass m0, accurate to 0.2
mg.
6.4 Number of specimens
There are 4 specimens in total, two for liquid phase test and two for gas phase test.
7 Test steps
7.1 Place the specimen in the test device (see 5.1). The side with the vitreous and
porcelain enamel faces the inner side of the glass cylinder. Tighten the three wing nuts
evenly, to ensure that the test device is watertight.
7.2 Install the reflux condenser. Inject 450 mL of distilled water (see 4.1) into the test
device, through the interface of the reflux condenser. Turn on the power, to start heating.
When the test solution boils, start timekeeping. Adjust the temperature controller, so
...... Source: Above contents are excerpted from the PDF -- translated/reviewed by: www.chinesestandard.net / Wayne Zheng et al.
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