NB/T 47018.4-2017 Technical permission of welding materials for pressure equipment Section 4:Electrodes and fluxes for submerged arc welding (English Version)
Codeofchina.com is in charge of this English translation. In case of any doubt about the English translation, the Chinese original shall be considered authoritative.
NB/T 47018-2017 consists of the following five sections under the general title Technical permission of welding materials for pressure equipment:
——Section 1: General rule;
——Section 2: Electrodes for steel;
——Section 3: Steel electrodes and rods for gas shielded arc welding;
——Section 4: Electrodes and fluxes for submerged arc welding;
——Section 5: Stainless steel strip electrodes and fluxes for overlay welding.
This is Section 4 of NB/T 47018-2017.
This section is developed in accordance with the rules given in GB/T 1.1-2009 Directives for standardization - Part 1: Structure and drafting of standards.
This section is a revision of NB/T 47018.4-2011 Technical permission of welding materials for pressure equipment - Section 4: Electrodes and fluxes for submerged arc welding. The following main technical changes have been made with respect to NB/T 47018.4-2011:
——In the welding material quality certificate, the batch number and inspection requirements of fluxes and electrodes are added;
——Phosphorus and sulfur contents of electrodes and fluxes are specified;
——F310-H×××, F316CuL-H××× and F317-H××× are added in the stainless steel flux model;
——Lower limits of percentage elongation after fracture of deposited metal tensile specimen are added;
——Transverse bending specimen is allowed in bend test, and the provision that retest is allowed after increasing bending center diameter is added;
——Provisions on water content in the fluxes for carbon steel and low-alloy steel are added; determination for diffusible hydrogen content in SAW deposited metal is added;
——Annex A “Designation of commonly used electrodes and rods for submerged arc welding of pressure equipment” in the original standard is deleted.
This section was proposed by and is under the jurisdiction of the National Technical Committee on Boilers and Pressure Vessels of Standardization Administration of China (SAC/TC 262).
The previous edition of this section of is as follows:
——NB/T 47018.4-2011.
Technical permission of welding materials for pressure equipment - Section 4: Electrodes and fluxes for submerged arc welding
1 Scope
This section of NB/T 47018-2017 specifies technical requirements, test methods and product identification of electrodes and fluxes for submerged arc welding.
This section is applicable to carbon steel, low-alloy steel and stainless steel electrodes and fluxes for submerged arc welding of pressure equipment.
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 2653 Bend test methods on welded joints
GB/T 3965 Methods for determination of diffusible hydrogen in deposited metal
GB/T 5293-1999 Carbon steel electrodes and fluxes for submerged arc welding
GB/T 12470-2003 Low-alloy steel electrodes and fluxes for submerged arc welding
GB/T 17854-1999 Stainless steel electrodes and fluxes for submerged arc welding
NB/T 47013.2 Nondestructive testing of pressure equipment - Part 2: Radiographic testing
NB/T 47014 Welding procedure qualification for pressure equipment
NB/T 47018.1 Technical permission of welding materials for pressure equipment - Part 1: General rule
3 Technical requirements
3.1 General
3.1.1 In addition to those specified in GB/T 5293-1999, GB/T 12470-2003 and GB/T 17854-1999, electrodes and fluxes for carbon steel, low-alloy steel and stainless steel submerged arc welding of pressure equipment shall meet the requirements of NB/T 47018.1 and this section.
3.1.2 The welding material quality certificate of submerged arc welding of pressure equipment shall include the following contents:
a) flux batch number and phase group electrode batch number, as well as electrode inspection, flux inspection and inspection results of deposited metal after assembly welding;
b) the type of flux (neutral, active) shall be indicated for the flux for carbon steel and low-alloy steel.
3.1.3 The batch number of electrodes and fluxes for submerged arc welding of pressure equipment is the same as that given in the quality certificate conforming to 3.1.2; when the batch number of electrode and/or flux is different from that given in the quality certificate, inspection shall be carried out according to the organization’s quality assurance system, and the technical requirements shall not be lower than those given in this standard. Only after passing the test, can the batch number be used for welding pressure equipment.
3.2 Electrodes
In carbon steel and low-alloy steel electrodes for submerged arc welding, the sulfur content shall be no more than 0.015% while the phosphorus content shall be no more than 0.020%; in stainless steel electrodes, the sulfur content shall be no more than 0.015% while the phosphorus content shall be no more than 0.025%.
3.3 Fluxes
In fluxes, the sulfur content shall be no more than 0.035% while the phosphorus content shall be no more than 0.040%.
3.4 Chemical composition of the deposited metal of submerged arc welding material
After the assembly welding of commonly used electrodes and rods for submerged arc welding of pressure equipment, the specified sulfur and phosphorus contents in the deposited metal are shown in Table 1.
Table 1 Requirements for sulfur and phosphorus contents in deposited metal of the commonly used submerged arc welding material for pressure equipment
Standard Flux model S (mass fraction) /% P (mass fraction) /%
3.5 Mechanical properties of deposited metal of submerged arc welding material
3.5.1 The mechanical properties of deposited metal of the commonly used submerged arc welding material for pressure equipment shall meet those specified in Table 2.
3.5.2 The percentage elongation after fracture of the deposited metal tensile specimen shall meet those specified in GB/T 5293-1999, GB/T 12470-2003 and GB/T 17854-1999 respectively, and shall not be less than 18%.
Table 2 Mechanical properties of deposited metal of the commonly used submerged arc welding material for pressure equipment
Standard Flux model Tensile test Impact test
Tensile strength Rm/MPa Test temperature/℃ Impact absorption power KV2/J
3.5.3 See Table 2 for the deposited metal Charpy V-notch impact test of commonly used submerged arc welding material for pressure equipment. Three deposited metal impact specimens are taken and the mean of their impact test results shall not be lower than that given in Table 2; while, the impact test result of one specimen is allowed to be lower than the specified value, but shall not be lower than the specified value by 70%.
3.5.4 When the bending specimen of deposited metal is bent to the angle specified in Table 3, the opening defect with single length larger than 3mm is not allowed in any direction in the deposited metal on a stretching plane, and the corner opening defect of deposited metal may not be counted, but the length of corner opening defect caused by incomplete fusion, slag inclusion or other welding defects shall be counted.
For the deposited metal of which lower limit of specified percentage elongation after fracture A is less than 20%, if it is unqualified upon bend test according to those specified in Table 3, and the measured value is less than 20%, the diameter of the bending center is allowed to be increased for retesting. The diameter of the bending center is equal to (A is the lower limit of the specified percentage elongation after fracture multiplied by 100), and the distance between the supports is equal to the diameter plus 23mm.
Foreword i
1 Scope
2 Normative references
3 Technical requirements
4 Test methods
5 Product Identification
NB/T 47018.4-2017 Technical permission of welding materials for pressure equipment Section 4:Electrodes and fluxes for submerged arc welding (English Version)
Standard No.
NB/T 47018.4-2017
Status
superseded
Language
English
File Format
PDF
Word Count
4500 words
Price(USD)
160.0
Implemented on
2017-8-1
Delivery
via email in 1 business day
Detail of NB/T 47018.4-2017
Standard No.
NB/T 47018.4-2017
English Name
Technical permission of welding materials for pressure equipment Section 4:Electrodes and fluxes for submerged arc welding
NB/T 47018.4-2017, NB 47018.4-2017, NBT 47018.4-2017, NB/T47018.4-2017, NB/T 47018.4, NB/T47018.4, NB47018.4-2017, NB 47018.4, NB47018.4, NBT47018.4-2017, NBT 47018.4, NBT47018.4
Introduction of NB/T 47018.4-2017
Codeofchina.com is in charge of this English translation. In case of any doubt about the English translation, the Chinese original shall be considered authoritative.
NB/T 47018-2017 consists of the following five sections under the general title Technical permission of welding materials for pressure equipment:
——Section 1: General rule;
——Section 2: Electrodes for steel;
——Section 3: Steel electrodes and rods for gas shielded arc welding;
——Section 4: Electrodes and fluxes for submerged arc welding;
——Section 5: Stainless steel strip electrodes and fluxes for overlay welding.
This is Section 4 of NB/T 47018-2017.
This section is developed in accordance with the rules given in GB/T 1.1-2009 Directives for standardization - Part 1: Structure and drafting of standards.
This section is a revision of NB/T 47018.4-2011 Technical permission of welding materials for pressure equipment - Section 4: Electrodes and fluxes for submerged arc welding. The following main technical changes have been made with respect to NB/T 47018.4-2011:
——In the welding material quality certificate, the batch number and inspection requirements of fluxes and electrodes are added;
——Phosphorus and sulfur contents of electrodes and fluxes are specified;
——F310-H×××, F316CuL-H××× and F317-H××× are added in the stainless steel flux model;
——Lower limits of percentage elongation after fracture of deposited metal tensile specimen are added;
——Transverse bending specimen is allowed in bend test, and the provision that retest is allowed after increasing bending center diameter is added;
——Provisions on water content in the fluxes for carbon steel and low-alloy steel are added; determination for diffusible hydrogen content in SAW deposited metal is added;
——Annex A “Designation of commonly used electrodes and rods for submerged arc welding of pressure equipment” in the original standard is deleted.
This section was proposed by and is under the jurisdiction of the National Technical Committee on Boilers and Pressure Vessels of Standardization Administration of China (SAC/TC 262).
The previous edition of this section of is as follows:
——NB/T 47018.4-2011.
Technical permission of welding materials for pressure equipment - Section 4: Electrodes and fluxes for submerged arc welding
1 Scope
This section of NB/T 47018-2017 specifies technical requirements, test methods and product identification of electrodes and fluxes for submerged arc welding.
This section is applicable to carbon steel, low-alloy steel and stainless steel electrodes and fluxes for submerged arc welding of pressure equipment.
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 2653 Bend test methods on welded joints
GB/T 3965 Methods for determination of diffusible hydrogen in deposited metal
GB/T 5293-1999 Carbon steel electrodes and fluxes for submerged arc welding
GB/T 12470-2003 Low-alloy steel electrodes and fluxes for submerged arc welding
GB/T 17854-1999 Stainless steel electrodes and fluxes for submerged arc welding
NB/T 47013.2 Nondestructive testing of pressure equipment - Part 2: Radiographic testing
NB/T 47014 Welding procedure qualification for pressure equipment
NB/T 47018.1 Technical permission of welding materials for pressure equipment - Part 1: General rule
3 Technical requirements
3.1 General
3.1.1 In addition to those specified in GB/T 5293-1999, GB/T 12470-2003 and GB/T 17854-1999, electrodes and fluxes for carbon steel, low-alloy steel and stainless steel submerged arc welding of pressure equipment shall meet the requirements of NB/T 47018.1 and this section.
3.1.2 The welding material quality certificate of submerged arc welding of pressure equipment shall include the following contents:
a) flux batch number and phase group electrode batch number, as well as electrode inspection, flux inspection and inspection results of deposited metal after assembly welding;
b) the type of flux (neutral, active) shall be indicated for the flux for carbon steel and low-alloy steel.
3.1.3 The batch number of electrodes and fluxes for submerged arc welding of pressure equipment is the same as that given in the quality certificate conforming to 3.1.2; when the batch number of electrode and/or flux is different from that given in the quality certificate, inspection shall be carried out according to the organization’s quality assurance system, and the technical requirements shall not be lower than those given in this standard. Only after passing the test, can the batch number be used for welding pressure equipment.
3.2 Electrodes
In carbon steel and low-alloy steel electrodes for submerged arc welding, the sulfur content shall be no more than 0.015% while the phosphorus content shall be no more than 0.020%; in stainless steel electrodes, the sulfur content shall be no more than 0.015% while the phosphorus content shall be no more than 0.025%.
3.3 Fluxes
In fluxes, the sulfur content shall be no more than 0.035% while the phosphorus content shall be no more than 0.040%.
3.4 Chemical composition of the deposited metal of submerged arc welding material
After the assembly welding of commonly used electrodes and rods for submerged arc welding of pressure equipment, the specified sulfur and phosphorus contents in the deposited metal are shown in Table 1.
Table 1 Requirements for sulfur and phosphorus contents in deposited metal of the commonly used submerged arc welding material for pressure equipment
Standard Flux model S (mass fraction) /% P (mass fraction) /%
3.5 Mechanical properties of deposited metal of submerged arc welding material
3.5.1 The mechanical properties of deposited metal of the commonly used submerged arc welding material for pressure equipment shall meet those specified in Table 2.
3.5.2 The percentage elongation after fracture of the deposited metal tensile specimen shall meet those specified in GB/T 5293-1999, GB/T 12470-2003 and GB/T 17854-1999 respectively, and shall not be less than 18%.
Table 2 Mechanical properties of deposited metal of the commonly used submerged arc welding material for pressure equipment
Standard Flux model Tensile test Impact test
Tensile strength Rm/MPa Test temperature/℃ Impact absorption power KV2/J
3.5.3 See Table 2 for the deposited metal Charpy V-notch impact test of commonly used submerged arc welding material for pressure equipment. Three deposited metal impact specimens are taken and the mean of their impact test results shall not be lower than that given in Table 2; while, the impact test result of one specimen is allowed to be lower than the specified value, but shall not be lower than the specified value by 70%.
3.5.4 When the bending specimen of deposited metal is bent to the angle specified in Table 3, the opening defect with single length larger than 3mm is not allowed in any direction in the deposited metal on a stretching plane, and the corner opening defect of deposited metal may not be counted, but the length of corner opening defect caused by incomplete fusion, slag inclusion or other welding defects shall be counted.
For the deposited metal of which lower limit of specified percentage elongation after fracture A is less than 20%, if it is unqualified upon bend test according to those specified in Table 3, and the measured value is less than 20%, the diameter of the bending center is allowed to be increased for retesting. The diameter of the bending center is equal to (A is the lower limit of the specified percentage elongation after fracture multiplied by 100), and the distance between the supports is equal to the diameter plus 23mm.
Contents of NB/T 47018.4-2017
Foreword i
1 Scope
2 Normative references
3 Technical requirements
4 Test methods
5 Product Identification