GB/T 42899-2023 English PDF (GBT42899-2023)
GB/T 42899-2023 English PDF (GBT42899-2023)
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GB/T 42899-2023: Test method for weldability of ocean engineering structural steel
GB/T 42899-2023
GB
NATIONAL STANDARD OF THE
PEOPLE’S REPUBLIC OF CHINA
ICS 77.140.60
CCS H 44
Test Method for Weldability of Ocean Engineering
Structural Steel
ISSUED ON: AUGUST 6, 2023
IMPLEMENTED ON: MARCH 1, 2024
Issued by: State Administration for Market Regulation;
Standardization Administration of the People’s Republic of China.
Table of Contents
Foreword ... 3
1 Scope ... 4
2 Normative References ... 4
3 Terms and Definitions ... 5
4 General Requirements ... 5
5 Butt Welding Test ... 7
6 Overlay Welding Test ... 24
7 Controlled Thermal Strength Test ... 26
Appendix A (Informative) Correspondence Table of Steel Grades and Designations of
Ocean Engineering Structural Steel ... 33
Bibliography ... 34
Test Method for Weldability of Ocean Engineering
Structural Steel
1 Scope
This Document specifies the general requirements, butt welding tests, cladding tests, controlled
thermal strength tests (CTS), and the like requirements for weldability tests of ocean
engineering structural steel
This Document is applicable to weldability tests of ocean engineering structural steel such as
steel plates with a thickness not exceeding 150mm and hot-rolled H-shaped steel with a
thickness not exceeding 63mm.
2 Normative References
The provisions in following documents become the essential provisions of this Document
through reference in this Document. For the dated documents, only the versions with the dates
indicated are applicable to this Document; for the undated documents, only the latest version
(including all the amendments) is applicable to this Document.
GB/T 229 Metallic materials - Charpy pendulum impact test method
GB/T 2651 Method of tensile test for welded joint
GB/T 2653 Bend test methods on welded joints
GB/T 3375 Welding terminology
GB/T 4340.1 Metallic materials - Vickers hardness test - Part 1: Test method
GB/T 5185 Welding and allied processes - Nomenclature of processes and reference
numbers
GB/T 16672 Welds - Working positions - Definitions of angles of slope and rotation
GB/T 17505 Steel and steel products General technical delivery requirements
GB/T 19869.1 Welding Procedure Qualification Test for Steels, Nickel and Nickel Alloys
GB/T 21143 Metallic materials - Unified method of test for determination of quasistatic
fracture toughness
GB/T 28896 Metallic materials - Method of test for the determination of quasistatic
a) The heating rate shall not exceed (5500/t)℃/h or 55℃/h, whichever is larger; where t is
the thickness of the test plate in mm;
b) The welded specimen shall be cooled to 400℃ at a cooling rate not exceeding
(6875/t)℃/h or 55℃/h, whichever is larger; where t is the thickness of the test plate in
mm;
c) Air-cool to room temperature below 400℃.
5.3.6.2 For steel sheets with steel grades of Q420, Q460, Q500, Q550, Q620 and Q690
quenched and tempered (QT), the heat treatment temperature during post-weld heat treatment
shall be between 550℃ and 620℃; and the maximum temperature shall be 25℃ lower than the
tempering temperature specified in the quality assurance certificate. The heat treatment time
shall be no less than the time calculated by 1h for every 25mm thickness of the steel or 4h. The
heating rate and cooling rate shall comply with the following provisions:
a) The heating rate shall not exceed (5500/t)℃/h or 55℃/h, whichever is larger; where t is
the thickness of the test plate in mm;
b) The welding specimen shall be cooled to 400℃ at a cooling rate not exceeding
(6875/t)℃/h or 55℃/h, whichever is larger; where t is the thickness of the test plate in
mm;
c) Air-cool to room temperature below 400℃.
5.3.7 Dehydrogenation treatment of specimen
Under necessary conditions, low-temperature dehydrogenation treatment shall be carried out
on the welded specimens before the fracture mechanics test. The specific process shall be noted
in the dehydrogenation treatment report.
The recommended dehydrogenation treatment process is 150℃ heat-insulation for 48h; and the
dehydrogenation treatment process parameters shall be noted in the fracture mechanics test
report.
In special cases, such as ultra-thick specimens, the dehydrogenation treatment process can be
adjusted to reduce the hydrogen content in the specimen after consultation between the supplier
and the purchaser. In this case, the dehydrogenation treatment process can increase the
temperature and extend the treatment time, but the heat-insulation temperature shall not exceed
250℃.
5.4 Butt welding mechanical test
5.4.1 General requirements
Butt welding mechanical test shall comply with the provisions of Tables 5 and 6.
For hot-rolled H-shaped steel, longitudinal or transverse butt weld mechanical tests shall be
carried out, as shown in Figure 1. The specimen shall be taken from 1/6 of the flange width.
When the weldability test involves weld metal properties [e.g., weld metal fracture mechanics
and Charpy V-notch impact toughness (FL-2)], the sampling position of the specimen can be
determined by the supplier.
For hot-rolled H-shaped steel with flange thickness exceeding 16 mm, fracture mechanics tests
can be carried out after consultation between the supplier and the purchaser.
Butt welding joint shall comply with the following mechanical test requirements:
a) Charpy V-notch impact test
The sampling position, sampling direction and impact test results of steel sheets and hot-
rolled H-shaped steel impact specimens shall comply with the provisions of Tables 5 and
6, respectively. Re-inspection shall comply with the provisions of GB/T 17505.
b) Fracture mechanics test
The test shall be carried out at an ambient temperature of -10℃, and the test results shall
meet the requirements of the purchaser.
c) Hardness test
In accordance with the provisions of 5.4.4, the hardness test shall be carried out on the
cross section of the welded joint. The test results shall meet the requirements of Tables 5
and 6, respectively.
d) Tensile test of welded joints
The tensile test of welded joints shall meet the requirements of Tables 5 and 6. Only the
tensile strength Rm shall be tested, and the test results shall be no less than the minimum
tensile strength specified for the parent material.
e) Bending test of welded joints
The bending test of welded joints shall meet the requirements of Tables 5 and 6; and the
length of the surface defect of the weld of the bending specimen shall not exceed 3mm.
9 – Parent material;
10 - Unchanged b fine grained heat affected zone (FGHAZ);
11 - Unchanged b coarse grained heat affected zone (GCHAZ) [Translator Note: Here it shall be
(CGHAZ)];
12 – Fusion line.
a The area formed by multi-pass welding.
b The area formed by single-pass welding.
Figure 4 -- Heat affected zone of single-groove and multi-pass welding
5.4.3.3 Test requirements
Three fracture mechanics tests shall be conducted on each of the following zones:
--- Coarse grained heat affected zone (GCHAZ) [Translator Note: Here it shall be (CGHAZ)];
--- Boundary areas of subcritical heat affected zone (SCHAZ)/incomplete crystallization heat
affected zone (ICHAZ);
--- When required by the purchaser, fracture mechanics tests shall be conducted on the weld
metal (2mm from the fusion line).
Fracture mechanics tests shall be conducted preferentially using the displacement control
method according to GB/T 21143 and/or GB/T 28896. The specimen shall be notched in the
thickness direction. When ...
Get QUOTATION in 1-minute: Click GB/T 42899-2023
Historical versions: GB/T 42899-2023
Preview True-PDF (Reload/Scroll if blank)
GB/T 42899-2023: Test method for weldability of ocean engineering structural steel
GB/T 42899-2023
GB
NATIONAL STANDARD OF THE
PEOPLE’S REPUBLIC OF CHINA
ICS 77.140.60
CCS H 44
Test Method for Weldability of Ocean Engineering
Structural Steel
ISSUED ON: AUGUST 6, 2023
IMPLEMENTED ON: MARCH 1, 2024
Issued by: State Administration for Market Regulation;
Standardization Administration of the People’s Republic of China.
Table of Contents
Foreword ... 3
1 Scope ... 4
2 Normative References ... 4
3 Terms and Definitions ... 5
4 General Requirements ... 5
5 Butt Welding Test ... 7
6 Overlay Welding Test ... 24
7 Controlled Thermal Strength Test ... 26
Appendix A (Informative) Correspondence Table of Steel Grades and Designations of
Ocean Engineering Structural Steel ... 33
Bibliography ... 34
Test Method for Weldability of Ocean Engineering
Structural Steel
1 Scope
This Document specifies the general requirements, butt welding tests, cladding tests, controlled
thermal strength tests (CTS), and the like requirements for weldability tests of ocean
engineering structural steel
This Document is applicable to weldability tests of ocean engineering structural steel such as
steel plates with a thickness not exceeding 150mm and hot-rolled H-shaped steel with a
thickness not exceeding 63mm.
2 Normative References
The provisions in following documents become the essential provisions of this Document
through reference in this Document. For the dated documents, only the versions with the dates
indicated are applicable to this Document; for the undated documents, only the latest version
(including all the amendments) is applicable to this Document.
GB/T 229 Metallic materials - Charpy pendulum impact test method
GB/T 2651 Method of tensile test for welded joint
GB/T 2653 Bend test methods on welded joints
GB/T 3375 Welding terminology
GB/T 4340.1 Metallic materials - Vickers hardness test - Part 1: Test method
GB/T 5185 Welding and allied processes - Nomenclature of processes and reference
numbers
GB/T 16672 Welds - Working positions - Definitions of angles of slope and rotation
GB/T 17505 Steel and steel products General technical delivery requirements
GB/T 19869.1 Welding Procedure Qualification Test for Steels, Nickel and Nickel Alloys
GB/T 21143 Metallic materials - Unified method of test for determination of quasistatic
fracture toughness
GB/T 28896 Metallic materials - Method of test for the determination of quasistatic
a) The heating rate shall not exceed (5500/t)℃/h or 55℃/h, whichever is larger; where t is
the thickness of the test plate in mm;
b) The welded specimen shall be cooled to 400℃ at a cooling rate not exceeding
(6875/t)℃/h or 55℃/h, whichever is larger; where t is the thickness of the test plate in
mm;
c) Air-cool to room temperature below 400℃.
5.3.6.2 For steel sheets with steel grades of Q420, Q460, Q500, Q550, Q620 and Q690
quenched and tempered (QT), the heat treatment temperature during post-weld heat treatment
shall be between 550℃ and 620℃; and the maximum temperature shall be 25℃ lower than the
tempering temperature specified in the quality assurance certificate. The heat treatment time
shall be no less than the time calculated by 1h for every 25mm thickness of the steel or 4h. The
heating rate and cooling rate shall comply with the following provisions:
a) The heating rate shall not exceed (5500/t)℃/h or 55℃/h, whichever is larger; where t is
the thickness of the test plate in mm;
b) The welding specimen shall be cooled to 400℃ at a cooling rate not exceeding
(6875/t)℃/h or 55℃/h, whichever is larger; where t is the thickness of the test plate in
mm;
c) Air-cool to room temperature below 400℃.
5.3.7 Dehydrogenation treatment of specimen
Under necessary conditions, low-temperature dehydrogenation treatment shall be carried out
on the welded specimens before the fracture mechanics test. The specific process shall be noted
in the dehydrogenation treatment report.
The recommended dehydrogenation treatment process is 150℃ heat-insulation for 48h; and the
dehydrogenation treatment process parameters shall be noted in the fracture mechanics test
report.
In special cases, such as ultra-thick specimens, the dehydrogenation treatment process can be
adjusted to reduce the hydrogen content in the specimen after consultation between the supplier
and the purchaser. In this case, the dehydrogenation treatment process can increase the
temperature and extend the treatment time, but the heat-insulation temperature shall not exceed
250℃.
5.4 Butt welding mechanical test
5.4.1 General requirements
Butt welding mechanical test shall comply with the provisions of Tables 5 and 6.
For hot-rolled H-shaped steel, longitudinal or transverse butt weld mechanical tests shall be
carried out, as shown in Figure 1. The specimen shall be taken from 1/6 of the flange width.
When the weldability test involves weld metal properties [e.g., weld metal fracture mechanics
and Charpy V-notch impact toughness (FL-2)], the sampling position of the specimen can be
determined by the supplier.
For hot-rolled H-shaped steel with flange thickness exceeding 16 mm, fracture mechanics tests
can be carried out after consultation between the supplier and the purchaser.
Butt welding joint shall comply with the following mechanical test requirements:
a) Charpy V-notch impact test
The sampling position, sampling direction and impact test results of steel sheets and hot-
rolled H-shaped steel impact specimens shall comply with the provisions of Tables 5 and
6, respectively. Re-inspection shall comply with the provisions of GB/T 17505.
b) Fracture mechanics test
The test shall be carried out at an ambient temperature of -10℃, and the test results shall
meet the requirements of the purchaser.
c) Hardness test
In accordance with the provisions of 5.4.4, the hardness test shall be carried out on the
cross section of the welded joint. The test results shall meet the requirements of Tables 5
and 6, respectively.
d) Tensile test of welded joints
The tensile test of welded joints shall meet the requirements of Tables 5 and 6. Only the
tensile strength Rm shall be tested, and the test results shall be no less than the minimum
tensile strength specified for the parent material.
e) Bending test of welded joints
The bending test of welded joints shall meet the requirements of Tables 5 and 6; and the
length of the surface defect of the weld of the bending specimen shall not exceed 3mm.
9 – Parent material;
10 - Unchanged b fine grained heat affected zone (FGHAZ);
11 - Unchanged b coarse grained heat affected zone (GCHAZ) [Translator Note: Here it shall be
(CGHAZ)];
12 – Fusion line.
a The area formed by multi-pass welding.
b The area formed by single-pass welding.
Figure 4 -- Heat affected zone of single-groove and multi-pass welding
5.4.3.3 Test requirements
Three fracture mechanics tests shall be conducted on each of the following zones:
--- Coarse grained heat affected zone (GCHAZ) [Translator Note: Here it shall be (CGHAZ)];
--- Boundary areas of subcritical heat affected zone (SCHAZ)/incomplete crystallization heat
affected zone (ICHAZ);
--- When required by the purchaser, fracture mechanics tests shall be conducted on the weld
metal (2mm from the fusion line).
Fracture mechanics tests shall be conducted preferentially using the displacement control
method according to GB/T 21143 and/or GB/T 28896. The specimen shall be notched in the
thickness direction. When ...