GB/T 36130-2018 PDF in English
GB/T 36130-2018 (GB/T36130-2018, GBT 36130-2018, GBT36130-2018)
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GB/T 36130-2018 | English | 140 |
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Hot rolled steel plate, sheet and strip for tower structural purpose
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GB/T 36130-2018: PDF in English (GBT 36130-2018) GB/T 36130-2018
GB
NATIONAL STANDARD OF THE
PEOPLE’S REPUBLIC OF CHINA
ICS 77.140.50
H 46
Hot Rolled Steel Plate, Sheet and
Strip for Tower Structural Purpose
ISSUED ON. MAY 14, 2018
IMPLEMENTED ON. FEBRUARY 1, 2019
Issued by. State Administration for Market Regulation of the People’s
Republic of China;
Standardization Administration Committee of the People’s
Republic of China.
Table of Contents
Foreword ... 3
1 Scope ... 4
2 Normative References ... 4
3 Classification and Nameplate Expression ... 6
4 Content of Ordering ... 7
5 Dimension, Appearance and Weight ... 8
6 Technical Requirements ... 8
7 Test Methods ... 12
8 Inspection Rules ... 13
9 Packaging, Marking and Certification ... 13
Appendix A (informative appendix)... 14
Appendix B (informative appendix) ... 15
References ... 17
Hot Rolled Steel Plate, Sheet and
Strip for Tower Structural Purpose
1 Scope
This Standard specifies the classification, method of nameplate expression, content of
ordering, dimension, appearance, weight, technical requirement, test method,
inspection rule, packaging, marking and certification of hot rolled steel plate, sheet and
strip for tower structural purpose.
This Standard is applicable to hot rolled steel plate, sheet and strip (hereinafter referred
to as steel plate and strip) for tower structural purpose (thickness ≤ 25.4 mm). Steel
plate and strip are mainly applied to manufacture tower structure for electricity and
communication; tower structure for decorative power, watchtower, lighting tower,
television tower and special purposes.
2 Normative References
The following documents are indispensable to the application of this Standard. In terms
of references with a specified date, only versions with a specified date are applicable
to this Standard. The latest version (including all the modifications) of references
without a specified date is also applicable to this Standard.
GB/T 222 Permissible Tolerances for Chemical Composition of Steel Products
GB/T 223.5 Steel and Iron - Determination of Acid-soluble Silicon and Total Silicon
Content - Reduced Molybdosilicate Spectrophotometric Method
GB/T 223.9 Iron Steel and Alloy - Determination of Aluminum Content - Chrom
Azurol S Photometric Method
GB/T 223.14 Methods for Chemical Analysis of Iron, Steel and Alloy - The N-
Benzoy-N-Phenylhydroxylamine Extraction Photometric Method for the
Determination of Vanadium Content
GB/T 223.16 Methods for Chemical Analysis of Iron, Steel and Alloy - The
Chromotropic Acid Photometric Method for the Determination of Titanium Content
GB/T 223.19 Methods for Chemical Analysis of Iron, Steel and Alloy - The
Neocuproine-chloroform Extraction Photometric Method for the Determination of
Copper Content
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 223.67 Iron, Steel and Alloy - Determination of Sulfur Content - Methylene
Blue Spectrophotometric Method
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 228.1 Metallic Materials - Tensile Testing - Part 1. Method of Test at Room
Temperature
GB/T 229 Metallic Materials - Charpy Pendulum Impact Test Method
GB/T 232 Metallic Materials - Bend Test
GB/T 247 General Rule of Package Mark and Certification for Steel Plates (sheets)
and Strips
GB/T 709 Dimensions, Shape, Weight and Tolerances for Hot Rolled Steel Sheets
and Strips
GB/T 1591-2008 High Strength Low Alloy Structural Steels
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 8170 Rules of Rounding off for Numerical Values & Expression and
Judgment of Limiting Values
the initial of Chinese phonetic alphabet “TA” that represents tower steel; quality level
(A, B, C, D, E).
In terms of steel for high-tensile strength and high-elongation tower, tower for hot-dip
galvanized tower and steel for weather resistant tower, respectively add the initial of
Chinese phonetic alphabet “L”, “X” and “NH” that represent “tensile”, “zinc” and
“weather resistant” after “T”.
For example, Q355TC
Q---initial of Chinese phonetic alphabet “QU” that represents yield strength;
355---the minimum stipulated yield strength of steels, expressed in MPa;
T---initial of Chinese phonetic alphabet “TA” that represents tower;
C---quality level.
4 Content of Ordering
4.1 In accordance with this Standard, contract or order shall include the following
content.
a) Serial number of this Standard;
b) Product type (steel plate, steel strip);
c) Nameplate;
d) Dimension, specification and thickness accuracy;
e) Borderline state (trimming EC; non-trimming EM);
f) Status of delivery;
g) Weight;
h) Packaging mode;
i) Special requirements.
4.2 When borderline state and thickness accuracy is not indicated in the contract,
steels shall be delivered under common thickness and accuracy (steel strip. non-
trimmed; steel plate. trimmed).
6.5.2 Partial defects that will not affect the usage and can be removed, such as thin
layer of oxidized scale, rust, slight pocking mark and scratch, can be allowed to exist
on the surface of steel plate and steel strip. Its convex-concave degree cannot exceed
half of the tolerance of steel plate and steel strip. Furthermore, the minimum allowable
thickness of steel plate and steel strip shall be guaranteed
6.5.3 In terms of steel plate and steel strip that are delivered while being non-trimmed,
the depth in the width direction of its edge crack and other defects shall be ≤ half of
the allowable deviation of width. Furthermore, the minimum width of steel strip shall be
guaranteed.
6.5.4 The surface quality of steel plate can also comply with the stipulations in GB/T
14977 through the negotiation of the supply side and the demand side.
6.5.5 In terms of steel strip, since there is no opportunity to cut off the defects, it is
allowed to be delivered with defects. However, the length of the part with defects shall
not exceed 6% of the total length of steel strip.
6.6 Corrosion Resistance of Steel for Weather Resistant Tower
In terms of steel for weather resistant tower, please refer to Appendix B for the
evaluation of weather corrosion resistance of low-alloy steel. Specific requirements of
corrosion shall be negotiated and determined by the supply side and the demand side.
6.7 Special Requirements
Other special requirements can be put forward towards steel plate and steel strip
through the negotiation of the supply side and the demand side; this content shall be
indicated in the contract.
7 Test Methods
7.1 Method of testing chemical composition of steels shall comply with GB/T 223.5,
GB/T 223.9, GB/T 223.14, GB/T 223.16, GB/T 223.19, GB/T 223.37, GB/T 223.40,
GB/T 223.59, GB/T 223.63, GB/T 223.67, GB/T 223.68, GB/T 223.69, GB/T 4336,
GB/T 20123, GB/T 20124, GB/T 20125 or stipulations of general methods. However,
arbitration of this content shall comply with the stipulations in GB/T 223.5, GB/T 223.9,
GB/T 223.14, GB/T 223.16, GB/T 223.19, GB/T 223.37, GB/T 223.40, GB/T 223.59,
GB/T 223.63, GB/T 223.67, GB/T 223.68 and GB/T 223.69.
7.2 Test items and test methods of each batch of steel plate and steel strip shall comply
with the stipulation in Table 5 below.
Appendix B
(informative appendix)
Guideline for the Evaluation of Weather Corrosion Resistance of Low-alloy
Steel
B.1 Scope
This Appendix provides a method of evaluating low-alloy steel’s weather corrosion
resistance through chemical composition. In accordance with this Appendix, the
relative corrosion resistance of various nameplates can be evaluated. Under general
circumstances, when steels manifest relatively satisfying weather corrosion resistance,
the corrosion resistance index that is calculated in accordance with this Appendix shall
be 6.0 or above 6.0.
In this Method, a forecasting formula that is based on steel’s chemical composition is
adopted to calculate steel’s corrosion resistance index.
Since multiple corrosion resistance indexes are being adopted in the world, when an
index is selected, the consideration of different working environment and steel’s
chemical composition is indispensable. Based on the differences of the working
environment and steel’s chemical composition, any index might be inapplicable.
Therefore, it is necessary for the supply side and the demand side to jointly determine
which index shall be adopted and the size of such index in the forecasted working
environment.
B.2 Terms
Low-alloy steel refers to carbon steel with the total content of alloy elements > 1% but
< 5%.
NOTE. most “low-alloy weather resistant steel” contains the addictive Cr and Cu element;
it also might contain the addictive Si, Ni, P or other allow elements that can
reinforce the weather resistance properties.
B.3 Method
B.3.1 Legault and Leckie released the formula of forecasting the corrosion of low-alloy
steel that is exposed under different atmospheric environment for 15.5 years based on
the chemical composition of steels. This formula is based on a great deal of data
released by Larrabee and Coburn.
B.3.2 For the accuracy of application, the Legault-Leckie formula under industrial
environment (Kearny, N.J.) has been modified to calculate chemical composition-
...... Source: Above contents are excerpted from the PDF -- translated/reviewed by: www.chinesestandard.net / Wayne Zheng et al.
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