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YS/T 63.3-2016 English PDF

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YS/T 63.3-2016: Carbonaceous materials used in the production of aluminium--Part 3: Determination of the thermal conductivity--Comparative method
Status: Valid

YS/T 63.3: Evolution and historical versions

Standard ID	Contents [version]	USD	STEP2	[PDF] delivered in	Standard Title (Description)	Status	PDF
YS/T 63.3-2016	English	169	Add to Cart	3 days [Need to translate]	Carbonaceous materials used in the production of aluminium--Part 3: Determination of the thermal conductivity--Comparative method	Valid	YS/T 63.3-2016
YS/T 63.3-2006	English	319	Add to Cart	3 days [Need to translate]	Carbonaceous materials used in the production of aluminium. Part 3: Determination of the thermal conductivity using a comparative method	Obsolete	YS/T 63.3-2006

PDF similar to YS/T 63.3-2016

Standard similar to YS/T 63.3-2016

GB/T 8719 YB/T 042 YS/T 575.1 YS/T 63.4 YS/T 63.14 YS/T 63.2

Basic data

Standard ID	YS/T 63.3-2016 (YS/T63.3-2016)
Description (Translated English)	Carbonaceous materials used in the production of aluminium--Part 3: Determination of the thermal conductivity--Comparative method
Sector / Industry	Nonferrous Metallurgy Industry Standard (Recommended)
Classification of Chinese Standard	Q52
Classification of International Standard	71.100.10
Word Count Estimation	7,736
Date of Issue	2016-04-05
Date of Implementation	2016-09-01
Older Standard (superseded by this standard)	YS/T 63.3-2006
Regulation (derived from)	The Ministry of Industry and Notice No. 2016 in 2016; the industry standard for the record 2016 No. 6
Issuing agency(ies)	Ministry of Industry and Information Technology

YS/T 63.3-2016: Carbonaceous materials used in the production of aluminium--Part 3: Determination of the thermal conductivity--Comparative method

---This is a DRAFT version for illustration, not a final translation. Full copy of true-PDF in English version (including equations, symbols, images, flow-chart, tables, and figures etc.) will be manually/carefully translated upon your order.
Carbonaceous materials used in the production of aluminium - Part 3. Determination of the thermal conductivity - Comparative method ICS 71.100.10 Q52 People's Republic of China Nonferrous Metals Industry Standard Replacing YS/T 63.3-2006 Methods for the detection of carbon materials for aluminum Part 3. Comparison of thermal conductivity measurements Carbonaceousmaterialsusedintheproduction ofaluminium Part 3. Determinationofthethermalconductivity Comparativemethod 2016-04-05 release 2016-09-01 implementation Issued by the Ministry of Industry and Information Technology of the People's Republic of China

Foreword

YS/T 63 "aluminum carbon material detection method" is divided into the following 27 parts. - Part 1. Determination of roasting weight loss and determination of apparent density of green specimens by cathodic paste samples; Part 2. Determination of room temperature resistivity of cathode carbon and prebaked anode; - Part 3. Comparison of thermal conductivity; - Part 4. Determination of coefficient of thermal expansion; Part 5. Determination of sodium expansion rate at the bottom of carbonaceous coal; - Part 6. Determination of porosity - Liquid static method; - Part 7. Determination of apparent density; - Part 8. Determination of density in xylene - Pore method; - Part 9. Determination of true density Helium hydrometer method; - Part 10. Determination of air permeability; - Part 11. Determination of air reactivity - Mass loss method; - Part 12. Determination of reactivity of prebaked anode CO2 reactivity - Mass loss method; - Part 13. Determination of elastic modulus; - Part 14. Determination of flexural strength - Three - point method; - Part 15. Determination of compressive strength; - Part 16. Determination of trace elements - X - ray fluorescence spectroscopy; - Part 17. Determination of volatile matter; - Part 18. Determination of moisture content; - Part 19. Determination of ash content; - Part 20. Determination of sulfur; - Part 21. Determination of the expansion/contraction of the roasting of the cathode paste; - Part 22. Determination of roasting degree - Equivalent temperature method; - Part 23. Determination of reactivity of prebaked anode air reactivity; - Part 24. Determination of reactivity of prebaked anode CO2 reactivity - Thermogravimetric method; - Part 25. Determination of sodium expansion rate at the bottom of carbonaceous coal; - Part 26. Determination of penetration resistance of refractory anti - cryolite; Part 27. Determination of the energy of the prebaked anode. This part is part 3 of YS/T 63. This part is drafted in accordance with the rules given in GB/T 1.1-2009. This section is a revision of YS/T 63.3-2006. Compared with YS/T 63.3-2006, the main technical changes are as follows. --- The upper limit of the measurement range is changed to.200W/(K · m); - 6.1 samples and 6.2 samples are modified and detailed on the size of the specimen. This part refers to ISO 12987..2004 "Carbon production of carbon materials anode, cathode carbon block, side carbon block and roasted paste comparison Method to determine thermal conductivity ". This part of the National Nonferrous Metals Standardization Technical Committee (SAC/TC243) proposed and centralized. This part of the main drafting unit. China Aluminum Zhengzhou Nonferrous Metal Research Institute Co., Ltd., nonferrous metals Technology and Economic Research Institute. This part participates in the drafting unit. Jinan Aohai Carbon Co., Ltd., Ningxia Ningping Carbon Co., Ltd., Zhengzhou Haoyu Carbon Material Limited company, Shandong Chenyang new carbon materials Co., Ltd., cable-Development Co., Ltd., Shandong Yanzhou Carbon Products Co., Ltd., Feicheng Prosperity Special Graphite Co., Ltd. This part of the main drafters. Li Bo, Guo Yongheng, Li Rongzhu, Huang Hua, Zhao Qingcai, Yu Pu Sheng, Liu Zhen, Cao Peifeng, Xi Zhao Yang, Yu Yi, Shou Lei, Chen Xiaojun, Liu Fenglai. This part of the previous version of the standard to replace the release of the situation. --- YS/T 63.3-2006. Methods for the detection of carbon materials for aluminum Part 3. Comparison of thermal conductivity measurements

1 Scope

This part of YS/T 63 specifies the thermal conductivity between 20 ° C and 60 ° C for aluminum carbon materials. This part is applicable to the determination of thermal conductivity of aluminum carbon materials. The measurement range is 2W/(K · m) ~.200W/(K · m). This part is also applicable to the determination of the thermal conductivity of other carbon materials such as graphite electrodes.

2 normative reference documents

The following documents are indispensable for the application of this document. For dated references, only the dated edition applies to this article Pieces. For undated references, the latest edition (including all modifications) applies to this document. Methods for sampling carbonaceous materials for aluminum - Part 1. Bottom carbon blocks GB/T 26297 Methods for sampling carbonaceous materials for aluminum - Part 2. Side carbon blocks GB/T 26297 Methods for sampling carbonaceous materials for aluminum - Part 3. Prebaked anodes GB/T 26297 Methods for sampling carbonaceous materials for aluminum - Part 4. Cathode pastes GB/T 26297 YS/T 63.1 Methods for the determination of carbonaceous materials for aluminum - Part 1. Methods for calcination of cathodic paste samples, determination of roasting weight loss, Determination of apparent density

3 terms and definitions

The following terms and definitions apply to this document. 3.1 Thermal conductivity thermalconductivity The thermal conductivity λ is a characteristic of the material and is measured by passing the height h and the cross-sectional area A in a given temperature range Δt Body heat flow dQ/dt, according to formula (1) calculation. λ = dQdT ·1 Δt (1) Where. dQ dT --- Heat flow in watts (W); Δt --- temperature difference (obtained by comparison with the standard sample), the unit is Kelvin (K); h - the height of the object, in meters (m); A - the cross-sectional area of the object, in square meters (m2).

4 reagents and materials

4.1 Binder. including vaseline, glycerol, adhesive, etc., used to improve the sample and the two ends of the contact. 4.2 Calibration samples. calibrated samples approved by the equipment manufacturer or national. Table 1 shows some of the calibrated standard samples at 20 ° C Of the thermal conductivity, in the range of 20 ℃ ~ 100 ℃, the thermal conductivity of these samples and the temperature was basically a linear relationship.

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