
GB/T 5195.3-1985 Chemical analysis of fluorspar - Gravimetric method for determination of mass loss at 105℃
time:
2024-08-04 20:33:26
- GB/T 5195.3-1985
- Abolished
Standard ID:
GB/T 5195.3-1985
Standard Name:
Chemical analysis of fluorspar - Gravimetric method for determination of mass loss at 105℃
Chinese Name:
氟石化学分析方法 重量法测定105℃质损量
Standard category:
National Standard (GB)
-
Date of Release:
1985-05-18 -
Date of Implementation:
1986-03-01 -
Date of Expiration:
2007-01-01
Standard ICS number:
Mining and mineral products >> 73.080 Non-metallic mineralsChina Standard Classification Number:
Metallurgy>>Metal Chemical Analysis Methods>>H12 Light Metal and Its Alloy Analysis Methods
alternative situation:
Replaced by GB/T 5195.3-2006Procurement status:
≡ISO 4282-77
Review date:
2004-10-14Drafting Organization:
Zhejiang Yingshi Mining CompanyFocal point Organization:
National Technical Committee on Steel StandardizationPublishing Department:
China Iron and Steel AssociationCompetent Authority:
China Iron and Steel Association

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Summary:
GB/T 5195.3-1985 Chemical analysis methods for fluorspar - Gravimetric method for determination of mass loss at 105℃ GB/T5195.3-1985 Standard download decompression password: www.bzxz.net

Some standard content:
National Standard of the People's Republic of China
Chemical analysis methods of fluorspar
Gravimetric method for the determination of loss in mass at 105'C
UDC549.454
GB 5195.3— 85
ISO 4282--1977
This standard is applicable to the determination of mass loss at 105℃ in fluorine stock, filter cake (wet powder) and acid grade fluorspar. Determination range: 0.02~10.0%.
This standard is equivalent to the international standard ISO4282--1977 "Determination of mass loss of acid grade fluorine at 105℃". This standard complies with GB1467-78 "General principles and general provisions of chemical analysis method standards for metallurgical products". 1 Method Summarybzxz.net
The sample is dried at 105±1℃ and the mass loss is measured. Its mass is equivalent to the total amount of water and other volatile components at this temperature.
2 Instruments
2.1 Balance (maximum load 2000g, sensitivity 0.1g; maximum load 200g, sensitivity 0.01g). 2.2 Flat weighing bottle: about 40mm high and about 65mm in diameter. 2.3 Porcelain or glass dish: about 40mm high, rectangular about 300mm×200mm or circular about 250mm in diameter, either one.
2.4 Electric oven (temperature controllable at 105±1℃). 3 Analysis steps
3.1 Determination quantity
Three samples should be weighed for determination during analysis and the average value should be taken. 3.2 Sample
3.2.1F material
Weigh about 100g (accurate to 0.01g) of the sample and place it in a weighing bottle (2.2) of known weight (the weighing bottle was previously dried in an electric oven at 105±1℃, taken out, placed in a desiccator to cool to room temperature and weighed, accurate to 0.01g). 3.2.2 Filter cake
Weigh about 1000g (accurate to 0.1g) of the filter cake sample and place it in III1 (2.3) of known weight (this III was previously dried in an electric oven at 105±1℃, taken out, placed in a desiccator to cool to room temperature and weighed, accurate to 0.1g). 3.3 Determination
3.3.1 Dry material
Place the weighing bottle (3.2.1) containing the dry material sample in an electric oven at 105±1℃ for 40 minutes and dry it for 2 hours. Take it out and cool it in a desiccator to room temperature before weighing it (accurate to 0.01g). 3.3.2 Filter cake
Place the weighing bottle (3.3.2) containing the filter cake sample in an electric oven at 105±1℃ for 40 minutes and dry it for 5 hours. Take it out and cool it in a desiccator to room temperature before weighing it (accurate to 0.1g). 4 Calculation of analysis results
Calculate the percentage of mass loss at 105℃ as follows: GB 5195.3-85
Mass loss=mo=ml×100
Wherein: mofPre-drying sample weight, g;
mi+post-drying sample weight, g.
5 Allowable difference
The difference in analysis results between laboratories should not be greater than the allowable difference listed in the following table. Quality
0.02~0.50
>0.50 ~1.00
1.00~3.00
3.00~5.00
≥5.00~10.00
Additional remarks:
This standard was proposed by China Nonferrous Metals Industry Corporation. This standard was drafted by Zhejiang Yingshi Mining Company. This standard was drafted by Zhejiang Metallurgical Research Institute. The main drafter of this standard is Jiang Rihui.
From the date of implementation of this standard, the former Ministry of Metallurgical Industry Standard YB322-65 "Chemical Analysis Method of Fluorite" will be invalid. %
Tip: This standard content only shows part of the intercepted content of the complete standard. If you need the complete standard, please go to the top to download the complete standard document for free.
Chemical analysis methods of fluorspar
Gravimetric method for the determination of loss in mass at 105'C
UDC549.454
GB 5195.3— 85
ISO 4282--1977
This standard is applicable to the determination of mass loss at 105℃ in fluorine stock, filter cake (wet powder) and acid grade fluorspar. Determination range: 0.02~10.0%.
This standard is equivalent to the international standard ISO4282--1977 "Determination of mass loss of acid grade fluorine at 105℃". This standard complies with GB1467-78 "General principles and general provisions of chemical analysis method standards for metallurgical products". 1 Method Summarybzxz.net
The sample is dried at 105±1℃ and the mass loss is measured. Its mass is equivalent to the total amount of water and other volatile components at this temperature.
2 Instruments
2.1 Balance (maximum load 2000g, sensitivity 0.1g; maximum load 200g, sensitivity 0.01g). 2.2 Flat weighing bottle: about 40mm high and about 65mm in diameter. 2.3 Porcelain or glass dish: about 40mm high, rectangular about 300mm×200mm or circular about 250mm in diameter, either one.
2.4 Electric oven (temperature controllable at 105±1℃). 3 Analysis steps
3.1 Determination quantity
Three samples should be weighed for determination during analysis and the average value should be taken. 3.2 Sample
3.2.1F material
Weigh about 100g (accurate to 0.01g) of the sample and place it in a weighing bottle (2.2) of known weight (the weighing bottle was previously dried in an electric oven at 105±1℃, taken out, placed in a desiccator to cool to room temperature and weighed, accurate to 0.01g). 3.2.2 Filter cake
Weigh about 1000g (accurate to 0.1g) of the filter cake sample and place it in III1 (2.3) of known weight (this III was previously dried in an electric oven at 105±1℃, taken out, placed in a desiccator to cool to room temperature and weighed, accurate to 0.1g). 3.3 Determination
3.3.1 Dry material
Place the weighing bottle (3.2.1) containing the dry material sample in an electric oven at 105±1℃ for 40 minutes and dry it for 2 hours. Take it out and cool it in a desiccator to room temperature before weighing it (accurate to 0.01g). 3.3.2 Filter cake
Place the weighing bottle (3.3.2) containing the filter cake sample in an electric oven at 105±1℃ for 40 minutes and dry it for 5 hours. Take it out and cool it in a desiccator to room temperature before weighing it (accurate to 0.1g). 4 Calculation of analysis results
Calculate the percentage of mass loss at 105℃ as follows: GB 5195.3-85
Mass loss=mo=ml×100
Wherein: mofPre-drying sample weight, g;
mi+post-drying sample weight, g.
5 Allowable difference
The difference in analysis results between laboratories should not be greater than the allowable difference listed in the following table. Quality
0.02~0.50
>0.50 ~1.00
1.00~3.00
3.00~5.00
≥5.00~10.00
Additional remarks:
This standard was proposed by China Nonferrous Metals Industry Corporation. This standard was drafted by Zhejiang Yingshi Mining Company. This standard was drafted by Zhejiang Metallurgical Research Institute. The main drafter of this standard is Jiang Rihui.
From the date of implementation of this standard, the former Ministry of Metallurgical Industry Standard YB322-65 "Chemical Analysis Method of Fluorite" will be invalid. %
Tip: This standard content only shows part of the intercepted content of the complete standard. If you need the complete standard, please go to the top to download the complete standard document for free.
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