GB/T 25996-2019_English: PDF (GB/T25996-2019)
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Test method for thermal insulations on external stress corrosion cracking of austenitic stainless steel
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GB/T 25996-2019
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Test method for thermal insulations on external stress corrosion cracking of austenitic stainless steel
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Standard ID | GB/T 25996-2019 (GB/T25996-2019) | Description (Translated English) | Test method for thermal insulations on external stress corrosion cracking of austenitic stainless steel | Sector / Industry | National Standard (Recommended) | Classification of Chinese Standard | Q25 | Classification of International Standard | 91.120.10 | Word Count Estimation | 10,182 | Date of Issue | 2019-10-18 | Date of Implementation | 2020-09-01 | Drafting Organization | Nanjing Fiberglass Research and Design Institute Co., Ltd., Hebei Jinwei New Building Materials Co., Ltd., Hubei Institute of Product Quality Supervision and Inspection, Zhejiang Pusen New Material Technology Co., Ltd., National Glass Fiber Product Quality Supervision and Inspection Center | Administrative Organization | National Technical Committee for Standardization of Thermal Insulation Materials (SAC/TC 191) | Proposing organization | China Building Materials Federation | Issuing agency(ies) | State Administration for Market Regulation, China National Standardization Administration | Standard ID | GB/T 25996-2010 (GB/T25996-2010) | Description (Translated English) | Test method for thermal insulations on external stress corrosion cracking of austenitic stainless steel | Sector / Industry | National Standard (Recommended) | Classification of Chinese Standard | Q25 | Classification of International Standard | 91.100.60 | Word Count Estimation | 10,150 | Date of Issue | 2011/1/10 | Date of Implementation | 2011/10/1 | Quoted Standard | GB/T 228; GB/T 4132; GB/T 15970.3; GB/T 20878 | Adopted Standard | ASTM C692-2008, NEQ | Drafting Organization | Nanjing Fiberglass Research and Design Institute | Administrative Organization | National Standardization Technical Committee insulation materials | Regulation (derived from) | Announcement of Newly Approved National Standards 2011 No. (No. 166 overall) 1 | Proposing organization | China Building Materials Federation | Issuing agency(ies) | Administration of Quality Supervision, Inspection and Quarantine of People's Republic of China; Standardization Administration of China | Summary | This Standard specifies the insulating material of austenitic stainless steel external stress corrosion cracking test method. This Standard is applicable to coverage of austenitic stainless steel with a fiber-type insulation materials include wool, slag wool, glass wool, aluminum silicate, such as cotton and its products, but also other types suitable for this purpose, such as calcium silicate insulation materials, cement composite silicate, foam asbestos, foam, foam rubber and so on. |
GB/T 25996-2019
NATIONAL STANDARD OF THE
PEOPLE’S REPUBLIC OF CHINA
ICS 91.120.10
Q 25
Replacing GB/T 25996-2010
Test method for thermal insulations on external stress
corrosion cracking of austenitic stainless steel
ISSUED ON: OCTOBER 18, 2019
IMPLEMENTED ON: SEPTEMBER 01, 2020
Issued by: State Administration of Market Regulation;
Standardization Administration of the People's Republic of
China.
Table of Contents
Foreword ... 3
Introduction ... 5
1 Scope ... 6
2 Normative references ... 6
3 terms and definitions ... 7
4 Instruments and equipment ... 7
5 Reagents and materials ... 9
6 Preparation of stainless steel specimens ... 9
7 Preparation of thermal insulation samples ... 12
8 Test methods ... 14
9 Qualification verification of sensitized stainless steel test specimens for test
... 16
10 Inspection of stainless steel specimens after test ... 17
11 Test results ... 18
12 Test report... 18
Test method for thermal insulations on external
stress corrosion cracking of austenitic stainless steel
1 Scope
1.1 This Standard specifies the terms and definitions, instruments and
equipment, reagents and materials, preparation of stainless steel specimens,
preparation of thermal insulation specimens, test methods, qualification
verification of sensitized stainless steel specimens for test, inspection of
stainless steel specimens after test, test results, test report of test method for
thermal insulations on external stress corrosion cracking of austenitic stainless
steel.
1.2 This Standard applies to thermal insulations and products for covering
austenitic stainless steel, which mainly include mineral wool, calcium silicate,
composite silicate, expanded perlite, foamed asbestos, foam glass, aerogel,
and thermal insulation fireproof coatings. It also applies to cement and
adhesives.
1.3 This Standard provides two test methods, i.e. Dana method and drip
method. The applicability is as follows:
- Dana method applies only to wicking-type insulations; drip method applies
to all insulations that can be cut or shaped into test specimens;
- When the insulation can be heat treated into a wicking-type insulation, it
can be tested by either Dana method or drip method;
- When the insulation cannot be treated into a wicking-type insulation or the
heat treatment temperature is higher than the manufacturer's
recommended temperature, use drip method for test.
2 Normative references
The following referenced documents are indispensable for the application of
this document. For dated references, only the edition cited applies. For undated
references, the latest edition of the referenced document (including any
amendments) applies.
GB/T 228 Metallic materials - Tensile testing at ambient temperature
4.1.6 Thermocouple type thermometer.
4.1.7 Precision bending machine.
4.1.8 Wet belt sander: The belt specification is P80.
4.1.9 Stainless steel bolt: 65 mm long, 5 mm in diameter, with insulating washer
and stainless steel nut.
4.1.10 Microscope: X10 ~ X30.
4.1.11 Drill bit: ϕ 7 mm.
4.1.12 Magnifier: X10 ~ X20.
4.1.13 Electric saw.
4.1.14 Box-type resistance furnace: The maximum temperature is not lower
than 1200 °C.
4.2 Instruments and equipment for drip method
4.2.1 Heating device: The outer diameter of the heating tube is 38 mm, and the
temperature of the outer wall is the water boiling point temperature ± 6 °C.
4.2.2 Multi-channel peristaltic pump or other water supply device: It is used to
supply 250 mL/d sodium chloride solution, distilled water or deionized water to
each sample.
4.2.3 Glass bottle: 1 L.
4.2.4 Specimen holder.
4.2.5 Thermocouple type thermometer.
4.2.6 Cylindrical sampler: The outer diameter is 25.5 mm.
4.2.7 Precision bending machine.
4.2.8 Box-type resistance furnace: The maximum temperature is not lower than
1200 °C.
4.2.9 Wet belt sander: The belt specification is P80.
4.2.10 Stainless steel bolt: 65 mm long, 5 mm in diameter, with insulating
washer and stainless steel nut.
4.2.11 Microscope: X10 ~ X30.
where:
δ - the deflection of the stainless steel specimen after applying a certain
stress, in millimeters (mm);
S - the elastic stress, in megapascals (MPa);
R - the bending radius, in millimeters (mm);
h - the thickness of the stainless steel plate, in millimeters (mm);
L - the length of the straight part of the stainless steel specimen, in
millimeters (mm);
E - the elastic modulus, in megapascals (MPa);
L0 - the distance between the two inner planes of the U-shaped stainless
steel specimen after applying stress, in millimeters (mm).
7 Preparation of thermal insulation samples
7.1 General requirements
7.1.1 During the entire preparation process, clean polyethylene gloves shall be
worn to avoid direct contact with the thermal insulation with bare hands and to
prevent chloride ion pollution.
7.1.2 If the surface and the interior of the thermal insulation are different, the
thermal insulation shall be tested at the location determined to be the most
likely to cause corrosion.
7.1.3 When the thermal insulation can be heat treated into a wicking-type
insulation, the heat treatment shall be carried out at the temperature
recommended by the manufacturer. If necessary, the treatment temperature
can be the maximum use temperature of the thermal insulation.
7.2 Preparation of samples of thermal insulation with consistent surface
and interior
7.2.1 CUT the thermal insulation into sample blocks of 102 mm × 178 mm × 38
mm. USE the sampler to drill a hole in the center of each sample block, and
then CUT it into two parts to make samples of 102 mm × 89 mm × 38 mm, of
which the quantity if not less than four. INSTALL each sample on the
corresponding bolted stainless steel specimen. If they do not match each other,
USE a clean chlorine-free water-resistant abrasive paper to grind the sample
to fit the stainless steel specimen, and BLOW the polished sample with air to
electronic transformer are connected by copper wires.
8.1.3 PLACE the temperature measurement end of the thermocouple in the
middle of the bottom of the stainless steel specimen concave, COVER the
thermocouple with aluminum powder, and then DROP a few drops of epoxy
adhesive on the aluminum powder to make the contact tip of the thermocouple
reliably adhere to the stainless steel specimen.
8.1.4 FILL the crystallizing dish with distilled or deionized water until the level is
about 13 mm below the bottom of the stainless steel specimen groove. TURN
ON the power and heat up. When the temperature reaches the water boiling
point temperature, start timing. The test duration is 28 d ± 6 h. In the event of a
power outage during the 28-day test, the time taken for the power outage shall
be compensated.
8.1.5 ADJUST the water level of each specimen in time according to the
temperature. The increase of the water level will decrease the temperature. The
amount of water required to control each specimen is 200 mL/d ~ 600 mL/d.
8.1.6 After the test, TURN OFF the power to cool the stainless steel specimens,
DISCONNECT the electrical wires, and REMOVE the stainless steel
specimens from the thermal insulation sample.
8.1.7 At the same time, carry out the qualification verification of sensitized
stainless steel test specimens for test in accordance with 9.2.
8.2 Drip method (arbitration method)
8.2.1 PLACE each stainless steel specimen on the heating tube, with the
opening downward; APPLY the thermal grease between the stainless steel
specimen and the heating tube to bring them into close contact with each other;
INSTALL the bolts and nuts in accordance with 6.10.
8.2.2 WET the thermal insulation sample to be tested with distilled water or
deionized water. If it cannot be made wet, immerse it for 10 min. Take it out and
place it on the stainless steel specimen and fix it, and make them fully contact.
8.2.3 INSERT the drip tube that is connected to each glass bottle through the
peristaltic pump IN the center of the thermal insulation sample, START the
peristaltic pump, ADJUST the dripping speed, and ENSURE that each thermal
insulation sample is evenly dripped with (250 ± 25) mL of water every day.
During the test, (250 ± 25) mL of water is added to the glass bottle
corresponding to each thermal insulation sample every day.
8.2.4 TURN ON the heating device. The temperature of the outer wall of the
tube shall be controlled at the water boiling point temperature ± 6 °C. After the
temperature is reached, start the timer. The test duration is 28 d ± 6 h. In the
event of a power outage during the 28-day test, the time taken for the power
outage shall be compensated.
8.2.5 After the test, TURN OFF the power to cool the stainless steel specimens,
and then carefully REMOVE the stainless steel specimens.
8.2.6 At the same time, carry out the qualification verification of sensitized
stainless steel test specimens for test in accordance with 9.2.
9 Qualification verification of sensitized stainless steel
test specimens for test
9.1 Dana method
9.1.1 REPLACE the thermal insulation sample with borosilicate glass wool (5.7).
The stainless steel specimen shall contact the top of the glass wool block.
9.1.2 INJECT sodium chloride solution into the crystallizing dish until the liquid
level is in the range of 6.4 mm to 19 mm from the bottom of the stainless steel
specimen. KEEP the temperature within the range of the water boiling point
temperature ± 6 °C, and the amount of evaporated water is 250 mL/d ~ 1000
mL/d. When the temperature is reached, start the timer. The test duration is 72
h ± 30 min.
9.1.3 CARRY OUT a 28-day blank test on the 4 U-shaped stainless steel
specimens with distilled or deionized water in the same way.
9.1.4 When all the 4 stainless steel specimens corroded by sodium chloride
solution show cracks, and none of the 4 stainless steel specimens in the blank
test show cracks, it proves that this batch of stainless steel is qualified and can
be used for test in this Standard.
9.2 Drip method
9.2.1 REPLACE the thermal insulation sample with low-dust wiping paper of
neutral wicking type, and PLACE it on the stainless steel specimen. INSTILL
evenly (250 ± 25) mL of sodium chloride solution into the center of the low-dust
wiping paper through a peristaltic pump daily. Add (250 ± 25) mL of sodium
chloride solution to the glass bottle corresponding to each stainless steel
specimen every day.
9.2.2 TURN ON the heating device. The temperature of the outer wall of the
tube shall be controlled at the water boiling point temperature ± 6 °C. The timer
shall be started after reaching the temperature. The test duration is 72 h ± 30
......
GB/T 25996-2010
Test method for thermal insulations on external stress corrosion cracking of austenitic stainless steel
ICS 91.100.60
Q25
National Standards of People's Republic of China
Austenitic stainless steel external insulation
Test methods for stress corrosion cracking
Issued on. 2011-01-10
2011-10-01 implementation
Administration of Quality Supervision, Inspection and Quarantine of People's Republic of China
Standardization Administration of China released
Foreword
This standard was drafted in accordance with GB/T 1.1-2009 given rules.
This standard is based on the American Society for Testing and Materials ASTMC692-2008 "assessment of external insulation of austenitic stainless steel stress corrosion
Standard Test Method for cracking effects "to develop, in the technical content of the standard is not equivalent.
The standard proposed by China Building Materials Federation.
This standard by the National Standardization Technical Committee heat insulating material (SAC/TC191) centralized.
This standard is drafted by. Nanjing Fiberglass Research and Design Institute.
The main drafters of this standard. Yang Chunying, Shad benevolence.
Austenitic stainless steel external insulation
Test methods for stress corrosion cracking
1 Scope
This standard specifies the test methods for insulating material for austenitic stainless steel external stress corrosion cracking.
This standard applies to austenitic stainless steel covered with a fibrous insulation materials include rock wool, slag wool, glass wool, cotton and aluminum system
Product, suited for this purpose also other types of insulating materials such as calcium silicate, cement, composite silicate, asbestos foam, foam plastic, foam rubber
Plastic and so on.
2 Normative references
The following documents for the application of this document is essential. For dated references, only the edition are not applicable to the present
file. For undated references, the latest edition (including any amendments) applies to this document.
GB/T 228 metal materials at room temperature tensile test method
GB/T 4132 insulation materials and related terms
GB/T 15970.3 Stress corrosion testing of metals and alloys - Part 3. Preparation and use of U-bend specimens
GB/T 20878 stainless steel and heat-resistant steel grades and chemical composition
3 Terms and Definitions
GB/T 4132 and established the following terms and definitions apply to this document.
3.1
Stress corrosion cracking stresscorrosioncracking
Damage in the form of metal crack may occur in some combined effects of the corrosive environment and the stress or residual stress.
3.2
Wicking-type insulating material wicking-typeinsulation
Wicking-type insulating material when it is a 50% to 75% of the partially submerged in water 10min or less all the time will never wetted
Hot material.
4 Requirements
For rock wool, slag wool, glass wool, aluminum silicate and calcium silicate, such as cotton and its products, cement, composite silicate, foam asbestos highest use
High temperature insulation materials were tested in local water boiling temperature ± 6 ℃, stainless steel specimen sample used should be a no cracks; for
Some foam, foam rubber and other less than its maximum use temperature of 100 ℃ products at its maximum operating temperature limit of the test, the test
Stainless steel specimen sample used should be a no cracks.
5 Method Description
This standard gives two test methods --- instillation and Dana (Dana) method. The principle is to continue making the deionized water through the heat insulating material
Sample surface 28d reaches the thermal stresses present in Type 304 austenitic stainless steel. If the material can be dissolved in the presence of chloride ions, will
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