GB/T 2006-2008 PDF in English
GB/T 2006-2008 (GB/T2006-2008, GBT 2006-2008, GBT2006-2008)
Standard ID | Contents [version] | USD | STEP2 | [PDF] delivered in | Name of Chinese Standard | Status |
GB/T 2006-2008 | English | 90 |
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Coke for metallurgy -- Determination of mechanical strength
| Valid |
GB/T 2006-1994 | English | 239 |
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Coke for metallurgy--Determination of mechanical strength
| Obsolete |
GB 2006-1980 | English | 199 |
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Method for determination of the mechanical strength in metallurgical cokes
| Obsolete |
Standards related to (historical): GB/T 2006-2008
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GB/T 2006-2008: PDF in English (GBT 2006-2008) GB/T 2006-2008
GB
NATIONAL STANDARD OF THE
PEOPLE’S REPUBLIC OF CHINA
ICS 75.160
H 32
Replacing GB/T 2006-1994, partially replacing GB/T 1996-2003
Coke for Metallurgy -
Determination of Mechanical Strength
ISSUED ON. AUGUST 19, 2008
IMPLEMENTED ON. APRIL 01, 2009
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 Principle ... 4
4 Apparatus ... 4
5 Sampling and Sample Preparation ... 7
6 Test Procedures ... 7
7 Result Calculation ... 8
8 Precision ... 9
Foreword
The Method I of this Standard is not equivalent to ISO 556.1980 Coke (Greater than
20mm in Size) – Determination of Mechanical Strength; while Method II equivalently
adopts ISO R 556.1967 Coke – Determination of Drum Index.
This Standard was integrated basing on the GB/T 2006-1994 Coke for Metallurgy –
Determination of Mechanical Strength, and Appendix A Coke for Metallurgy –
Determination of Mechanical Strength of M40 and M10 in GB/T 1996-2003 Coke for
Metallurgy.
This Standard replaced GB/T 2006-1994 Coke for Metallurgy – Determination of
Mechanical Strength, and Appendix A in GB/T 1996-2003 Coke for Metallurgy.
Compared with GB/T 2006-1994, this Standard has the major changes as follows.
--- Add the Determination of Mechanical Strength M40 and M10.
This Standard was proposed by China Iron and Steel Industry Association.
This Standard shall be under the jurisdiction of National Technical Committee for
Standardization of Steel.
Drafting organizations of this Standard. Zhonggang Group Anshan Thermal Research
Institute; and China Metallurgical Information and Standardization Institute.
Chief drafting staffs of this Standard. Wang Wei, Xue Zhonghou, Yu Yinping, Yang
Jinxia, Wang Xiong, Guo Faqing, and Sun Wei.
This Standard was first-time published in 1980; and first-time revised in 1994.
Coke for Metallurgy -
Determination of Mechanical Strength
1 Scope
This Standard specifies the method principle, apparatus, sampling and sample
preparation, test procedures, results calculation and precision etc. of the coke with
particle size greater than 60mm and 25mm.
This Standard is applicable to the determination of mechanical strength of coke with
particle size no less than 25mm. The coke with particle size less than 25mm can also
refer to this Standard.
2 Normative References
The provisions in following documents become the provisions of this Standard through
reference in this Standard. For dated references, the subsequent amendments
(excluding corrigendum) or revisions do not apply to this Standard, however, parties
who reach an agreement based on this Standard are encouraged to study if the latest
versions of these documents are applicable. For undated references, the latest edition
of the referenced document applies.
GB/T 1997 Coke – Sampling and Preparation of Samples
GB/T 2005 Coke for Metallurgy – Determination of Coke Breeze Content and Size
Consist
3 Principle
The coke is constantly lifted by the lifting plate in the rotating drum and falls on the
steel plate. During this period, duce to the mechanical strength, the coke is impacted
and rubbed, so that the coke becomes cracks along the seams and the surface is
rubbed; and determine the anti-crushing strength and wear resistance of the coke.
4 Apparatus
4.1 Rotating drum (see Figure 1)
0.3kg; such test is ineffective; when the loss is less than 0.3kg, then the coke shall be
counted into the Class-I coke with particle size less than 10mm.
6.2 Method II (>60mm, enter into drum)
6.2.1 Use the round sieve with dimeter of 60mm to manually screen the sample; and
conduct the hand-punching (i.e. the matter-on-sieve shall pass through the sieve by
hand; the part that pass through the sieve in one direction is called matter-under-sieve).
When screening, the mass of coke entering into the sieve each time shall not exceed
15kg; strive to screen thoroughly; but also prevent the breaking of the coke due to
colliding by strong force. Take 50kg (accurate to 0.1kg) of matter-on-sieve (coke larger
than 60mm); place into a container that shall be entered into the drum; the rest are
stand-by sample.
6.2.2 Put one of the samples into the cleaned drum; tighten the drum cover; remove
the drum shaker; start rotating for 100 cycles then stop; stand for 1min~2min; so that
the powder falls off; open the drum cover; pour the coke from the drum; carefully clean
the drum; collect the coke powder from the drum and cover.
6.2.3 Screen the coke poured from the drum by the round sieves with diameters of
40mm and 10mm; for the coke with diameter greater than 40mm, it shall penetrate the
hole by hand.
6.2.4 When sieving, the amount of sieving each time shall not exceed 15kg; it is
required not only to sieve thoroughly, but also prevent the breaking of the coke due to
colliding by strong force.
6.2.5 The mechanical sieves are permitted to use without significant difference
comparing with the manual sieves. When there is a dispute, the manual sieve shall
prevail.
6.2.6 Separately weigh (accurate to 0.1kg) the mass of coke at different particle size
of 40mm, 40mm~10mm, and less than 10mm; the difference between their mass sum
and the mass of coke entering into the drum is the loss; when the loss is no less than
0.3kg; such test is ineffective; when the loss is less than 0.3kg, then the coke shall be
counted into the Class-I coke with particle size less than 10mm.
7 Result Calculation
The anti-crushing strength M25 or M40 (%) is calculated by Formula (1).
Wearing resistance strength M10 (%) is calculated by Formula (2).
or
...... Source: Above contents are excerpted from the PDF -- translated/reviewed by: www.chinesestandard.net / Wayne Zheng et al.
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