GB/T 34566-2017 PDF in English
GB/T 34566-2017 (GB/T34566-2017, GBT 34566-2017, GBT34566-2017)
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GB/T 34566-2017 | English | 145 |
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Hot stamping steel sheet and strip for automobile
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GB/T 34566-2017: PDF in English (GBT 34566-2017) GB/T 34566-2017
GB
NATIONAL STANDARD OF THE
PEOPLE’S REPUBLIC OF CHINA
ICS 77.140.50
H 46
Hot Stamping Steel Sheet and Strip for Automobile
ISSUED ON. OCTOBER 14, 2017
IMPLEMENTED ON. JULY 01, 2018
Issued by. General Administration of Quality Supervision, Inspection and
Quarantine;
Standardization Administration of PRC.
Table of Contents
Foreword ... 3
1 Scope ... 4
2 Normative References ... 4
3 Terms and Definitions ... 6
4 Classification and Grade Expression Method ... 7
5 Ordering Contents ... 8
6 Dimension, Shape, Weight ... 8
7 Technical Requirements ... 9
8 Test Method ... 13
9 Inspection Rules ... 15
10 Package, Mark and Quality Certificate ... 15
11 Approximate Grade Comparison between Domestic and Foreign Standard
... 15
Appendix A (Informative) Reference Value for Mechanical Properties of Hot
Stamping Parts ... 16
Appendix B (Informative) Weight Test Method of Hot-Dip Aluminium-Silicon
Alloy Coating ... 17
Appendix C (Informative) Approximate Grade Comparison between Domestic
and Foreign Standards ... 19
Hot Stamping Steel Sheet and Strip for Automobile
1 Scope
This Standard specifies the terms and definitions, classification and grade expression
method, ordering contents, dimension, shape, weight, technical requirements, test
methods, inspection rules, package, mark and quality certificate of the hot stamping
steel sheet and strip for automobile.
This Standard is applicable to the cold-rolled and hot-dip aluminum-silicon steel sheet
and strip with thickness of 0.50mm ~ 3.00mm, and hot-rolled steel sheet and strip with
thickness of 1.20mm ~ 12.0mm (hereinafter referred to as “steel sheet and strip”) used
for manufacturing the safety structural parts of the automobiles.
2 Normative References
The following documents are essential to the application of 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) are applicable to this document.
GB/T 222 Permissible Tolerances for Chemical Composition of Steel Products
GB/T 223.5 Methods for Chemical Analysis of Iron, Steel and Alloy - The Reduced
Molybdosilicate Spectrophotometric Method for the Determination of Acid-Soluble
Silicon Content
GB/T 223.9 Iron and Steel - Determination of Aluminum Content - Chromazurol S
Photometric Method
GB/T 223.11 Iron, Steel and Alloy - Determination of Chromium Content - Visual
Titration or Potentiometric Titration Method
GB/T 223.17 Methods for Chemical Analysis of Iron, Steel and Alloy - The
Diantipyrylmethane Photometric Method for the Determination of Titanium Content
GB/T 223.23 Iron, Steel and Alloy - Determination of Nickel Content - The
Dimethylglyoxime Spectrophotometric Method
GB/T 223.26 Iron, Steel and Alloy - Determination of Molybdenum Content - The
Thiocyanate Spectrophotometric Method
GB/T 223.37 Methods for Chemical Analysis of Iron, Steel and Alloy - the
Indophenol Blue Photometric Method for the Determination of Nitrogen Content
after Distillation Separation
GB/T 223.40 Iron, Steel and Alloy - Determination of Niobium Content by the
Sulphochlorophenol S Spectrophotometric Method
GB/T 223.59 Iron, Steel and Alloy - Determination of Phosphorus Content -
Bismuth Phosphomolybdate Blue Spectrophotometric Method and Antimony
Phosphomolybdate Blue Spectrophotometric Method
GB/T 223.63 Methods for Chemical Analysis of Iron, Steel and Alloy - The
Sodium(Potassium)Periodate Photometric Method for the Determination of
Manganese Content
GB/T 223.68 Methods for Chemical Analysis of Iron, Steel and Alloy - The
Potassium Iodate Titration Method after Combustion in the Pipe Furnace for the
Determination of Sulfur Content
GB/T 223.69 Iron, Steel and Alloy - Determination of Carbon Contents - Gas-
volumetric Method after Combustion in the Pipe Furnace
GB/T 223.76 Methods for Chemical Analysis of Iron, Steel and Alloy - The Flame
Atomic Absorption Spectrometric Method for the Determination of Vanadium
Content
GB/T 223.78 Methods for Chemical Analysis of Iron, Steel and Alloy - Curcumin
Spectrophotometric Method for the Determination of Boron Content
GB/T 228.1-2010 Metallic Materials - Tensile Testing - Part 1. Method of Test at
Room Temperature
GB/T 230.1 Metallic Rockwell hardness test—Part 1.Test method(scales A, B, C,
D, E, F, G, H, K, N, T))
GB/T 247 General Rule of Acceptance, Package, Mark and Certification for Steel
Plates (Sheets) and Strips
GB/T 708 Dimension, Shape, Weight and Tolerance for Cold-Rolled Steel Plates
and Strips
GB/T 709 Dimension, Shape, Weight and Tolerance for Hot-Rolled Steel Plates
and Strips
GB/T 2523 Measuring Method of Surface Roughness and Peak Count for Cold-
Rolled Metal Sheet (Strip)
GB/T 2975 Steel and Steel Products - Location and Preparation of Test Pieces for
Mechanical Testing
GB/T 4336 Carbon and Low-Alloy Steel - Determination of Multi-Element Contents
-Spark Discharge Atomic Emission Spectrometric Method (Routine Method)
GB/T 4340.1 Metallic Materials - Vickers Hardness Test - Part 1. Test Method
GB/T 8170 Rules of Rounding off for Numerical Values & Expression and
Judgement of Limiting Values
GB/T 17505 Steel and Steel Products – General Technical Delivery Requirements
GB/T 20066 Steel and Iron-Sampling and Preparation of Samples for the
Determination of Chemical Composition
GB/T 20123 Steel and Iron - Determination of Total Carbon and Sulfur Content
Infrared Absorption Method after Combustion in an Induction Furnace (Routine
Method)
GB/T 20124 Steel and Iron - Determination of Nitrogen Content - Thermal
Conductimetric Method after Fusion in a Current of Inert Gas
GB/T 20125 Low-Alloy Steel - Determination of Multi-Element Contents -
Inductively Coupled Plasma Atomic Emission Spectrometric Method
GB/T 20126 Unalloyed Steel - Determination of Low Carbon Content - Part 2.
Infrared Absorption Method after Combustion in an Induction Furnace (with
Preheating)
GB/T 25052 Continuously Hot-Dip Coated Steel Sheet and Strip - Tolerances on
Dimensions Shape and Weight
3 Terms and Definitions
The following terms and definitions are applicable to this document.
3.1 Hot stamping; HS
A process that the steel sheet is heated to an austenitizing temperature, the heated
steel sheet is stamped in the mold; meanwhile finish the forming and quenching
processes.
3.2 Hot-dip aluminum-silicon alloy coating; AS
In the hot-dip aluminum-silicon production line, the coating obtained through
9 Inspection Rules
9.1 The steel sheet and strip shall be checked and accepted by the Quality and
Technical Supervision Department of the supplier.
9.2 The steel sheet and strip shall be accepted in batches. Each inspection batch of
cold-rolled steel sheet and strip consists of the steel sheet and strip with the same
grade, the same specification, the same processing state, and weight no greater than
30t; for the cold-rolled steel strip with roll weight greater than 30t, each roll shall be
regarded as one inspection batch. Each inspection batch of hot-rolled steel sheet and
strip consists of the steel sheet and strip with the same grade, the same furnace
number, the same thickness, the same rolling system, and weight no greater than 60t;
the steel strip and continuously-rolled sheet with rolling weight greater than 30t, it can
be grouped in two rolling coils.
9.3 The sampling quantity and sampling method of steel sheet and strip shall conform
to the provisions of Table 10.
9.4 The reinspection and judgement rules of steel sheet and strip shall conform to
the provisions of GB/T 17505.
9.5 The test results of chemical compositions and mechanical properties shall be
rounded off as per the rounding off comparison method; the rules for rounding off shall
be as specified in GB/T 8170.
10 Package, Mark and Quality Certificate
The package, mark and quality certificate of steel sheet and strip shall conform to the
provisions of GB/T 247. If the purchaser has particular requirements, it shall be
negotiated when ordering product.
11 Approximate Grade Comparison between
Domestic and Foreign Standard
The comparison between this Standard grade and approximate grade of domestic and
foreign standards can refer to Appendix C.
Appendix B
(Informative)
Weight Test Method of Hot-Dip Aluminium-Silicon Alloy Coating
B.1 Principle
This Appendix specifies the weight test method of hot-dip aluminium-silicon alloy
coating. Weigh the specimen before and after removal of the aluminium-silicon alloy
coating.
B.2 Reagents
B.2.1 Hydrochloric acid (ρ20=1.19g/mL).
B.2.2 Sodium hydroxide solution with concentration of 20%, made by dissolving 20g
of sodium hydroxide into 80mL of water.
B.3 Procedures
B.3.1 Specimen
Sampling the steel sheet as per 8.3, use the appropriate solvent to wash the specimen,
then use ethanol to wash till it is completely dry.
B.3.2 Method
Weigh the specimen (accurate to 0.001g) firstly, then immerse into the sodium
hydroxide solution (B.2.2) to react; when the reaction is stopped, take out the specimen,
use water to wash; if necessary, use nylon brush to remove the loose attachments on
the specimen surface; then use absorbent paper to remove water; use ethanol to wash;
quickly dry it with hot air; then immerse into hydrochloric acid for 2s~3s. Take out
specimen to wash with water, then immerse into the sodium hydroxide solution to react
till the reaction is stopped. Repeat such operating procedures till no more visible
reaction appeared after the specimen is immersed in the sodium hydroxide solution.
Take out, wash, dry and weigh it (accurate to 0.001g).
After weighing, measure the exposed surface area after the specimen is dissolved, the
accuracy shall reach 1%. The diameter measurement of steel sheet and strip shall be
accurate to at least 0.01mm.
When measuring the weight of single-sided coating, use appropriate method to seal
one side; after measurement, then measure the other side.
...... Source: Above contents are excerpted from the PDF -- translated/reviewed by: www.chinesestandard.net / Wayne Zheng et al.
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