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GB 34456-2017: Feed additive -- Sodium dihydrogen phosphate
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Feed additive -- Sodium dihydrogen phosphate
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GB 34456-2017
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Basic data | Standard ID | GB 34456-2017 (GB34456-2017) | | Description (Translated English) | Feed additive -- Sodium dihydrogen phosphate | | Sector / Industry | National Standard | | Classification of Chinese Standard | B46 | | Classification of International Standard | 65.120 | | Word Count Estimation | 8,829 | | Date of Issue | 2017-10-14 | | Date of Implementation | 2018-05-01 | | Regulation (derived from) | National Standard Announcement 2017 No. 26 | | Issuing agency(ies) | General Administration of Quality Supervision, Inspection and Quarantine of the People's Republic of China, Standardization Administration of the People's Republic of China | GB 34456-2017: Feed additive -- Sodium dihydrogen phosphate---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.
Feed additive-Sodium dihydrogen phosphate
ICS 65.120
B46
National Standards of People's Republic of China
Feed additive sodium dihydrogen phosphate
2017-10-14 Published
2018-05-01 implementation
General Administration of Quality Supervision, Inspection and Quarantine of People's Republic of China
China National Standardization Administration released
Foreword
The first chapter of this standard, Chapter 3 and Chapter 5 is mandatory, the rest are recommended.
This standard was drafted in accordance with the rules given in GB/T 1.1-2009.
This standard is proposed and managed by the National Feed Industry Standardization Technical Committee (SAC/TC76).
This standard was drafted Unit Feed Station in Sichuan Province, Sichuan Shu Xing Feed Co., Ltd.
The main drafters of this standard.Li Yun, Wang Leilei, Chen Hong, Wu Chunqing, Lin Shunquan, Gao Qingjun, Bai Fan, Wang Yu-ping, Zhang Jing.
Feed additive sodium dihydrogen phosphate
1 Scope
This standard specifies the requirements of feed additive sodium dihydrogen phosphate, test methods, inspection rules, labeling, packaging, transportation, storage and insurance
Quality of life.
This standard applies to the production of wet-process phosphoric acid feed additive sodium dihydrogen phosphate.
Chemical name. Sodium dihydrogen phosphate.
Molecular formula. NaH 2 PO 4 · nH 2 O (n = 0, 1, 2).
Relative molecular mass .119.98 (n = 0), 137.99 (n = 1), 156.01 (n = 2) (according to International relative atomic mass in.2007).
2 Normative references
The following documents for the application of this document is essential. For dated references, only the dated version applies to this article
Pieces. For undated references, the latest edition (including all amendments) applies to this document.
GB/T 6435 Determination of moisture in feed
GB/T 6682 analytical laboratory water specifications and test methods
GB 10648 feed label
Determination of total arsenic in feedstuffs GB/T 13079-2006
GB/T 13080 Determination of lead in feed - Atomic absorption spectrometry
Determination of fluoride in feed - Ion selective electrode method
GB/T 13088 Determination of chromium in feed
GB/T 14699.1 feed sampling
National Food Safety Standard Food Additives sodium dihydrogen phosphate
3 requirements
3.1 Appearance and traits
White crystal or powder, soluble in water, insoluble in ethanol, slightly soluble in trichloromethane.
3.2 Specifications
Technical indicators should be consistent with the provisions of Table 1.
Table 1 technical indicators
Project Indicators
Sodium dihydrogen phosphate (dry basis) /% 98.0 ~ 103.0
Sodium dihydrogen phosphate (in terms of P) (on a dry basis) /% 25.3 ~ 26.6
Fluorine (F)/(mg/kg) ≤.200
Arsenic (As)/(mg/kg) ≤ 10
Table 1 (continued)
Project Indicators
Lead (Pb)/(mg/kg) ≤ 30
Chromium (Cr)/(mg/kg) ≤ 30
Water insolubles /% ≤ 0.2
pH (10 g/L in water) 4.1 to 4.7
Loss on drying
Dihydrogen phosphate dihydrogen phosphate (NaH2PO4 · 2H2O) /% 20.0 ~ 25.0
Sodium dihydrogen phosphate monohydrate (NaH2PO4 · H2O) /% 10.0 ~ 15.0
Anhydrous sodium phosphate monobasic (NaH2PO4) /% ≤ 2.0
Sulfate (SO42-) /% ≤ 2.0
4 test methods
The standard test methods used reagents and water, did not indicate when the other requirements, refer to analytical reagents and GB/T 6682 provisions
Three water.
4.1 Sensory test
Visual and odor test products appearance and smell.
4.2 Identification test
4.2.1 Reagents and materials
4.2.1.1 Glacial acetic acid.
4.2.1.2 ammonia solution. Ammonia water = 23.
4.2.1.3 nitric acid solution. Nitric acid water = 18.
4.2.1.4 silver nitrate solution (17g/L). Weigh 1.7g of silver nitrate, dissolved in 100mL water.
4.2.2 Analysis steps
4.2.2.1 Identification of phosphate
Weigh the sample 1.0g, dissolved in 20mL water, add silver nitrate solution (4.2.1.4), a yellow precipitate, the precipitate dissolved in excess ammonia dissolved
Liquid (4.2.1.2) or nitric acid solution (4.2.1.3), insoluble in glacial acetic acid (4.2.1.1).
4.2.2.2 Identification of sodium ions
Weigh the sample 1.0g, add 20mL water to dissolve. Dipped hydrochloric acid with platinum wire ring, the flame burning to colorless. Then dip the test solution on fire
Burning flame, the flame should be bright yellow.
4.3 Determination of sodium dihydrogen phosphate
4.3.1 Principle
In acidic medium, with Quimociac as precipitating agent, all the phosphate in the sample solution forms quinoline phosphomolybdate to precipitate,
Filter, drying, weighing, calculation of sodium dihydrogen phosphate content.
4.3.2 Reagents and materials
4.3.2.1 Sodium molybdate.
4.3.2.2 Citric acid.
4.3.2.3 nitric acid solution. Nitric acid water = 1 1
4.3.2.4 Quinoline.
4.3.2.5 Acetone.
4.3.2.6 Quimociac solution
Weigh 70g sodium molybdate (4.3.2.1) was dissolved in 100mL water (solution a); Weigh 60g citric acid (4.3.2.2) was dissolved in 150mL
Water and 85 mL of nitric acid solution (solution b); solution a was poured into solution b with stirring (solution c); in 100 mL of water
Add 35mL nitric acid solution (4.3.2.3) and 5mL quinoline (4.3.2.4) (solution d); the solution d into solution c, after 12h,
Filtration with glass sand crucible, then add 280mL acetone (4.3.2.5), diluted with water to 1000mL, mix. Store in polyethylene bottle.
4.3.3 Instruments and Equipment
4.3.3.1 glass sand crucible Pore size 5μm ~ 15μm.
4.3.3.2 electric oven temperature.
4.3.4 Analysis steps
4.3.4.1 Preparation of test solution
Weigh 1g (accurate to 0.0001g) of the sample dried at 105 ° C for 4h, placed in a 100mL beaker, dissolved in 50mL of water,
Into a 250mL volumetric flask, water to volume, shake.
4.3.4.2 Preparation of blank test solution
In addition to not adding the sample, the amount of other reagents added and the preparation of the test solution exactly the same, and the same sample with the same treatment.
4.3.4.3 Determination
Pipette pipette 10mL test solution (4.3.4.1) and blank test solution (4.3.4.2) were placed in 250mL beaker, add water
To a total volume of about 100mL, add 50mL Quimociac solution (4.3.2.6), cover the surface dish, in a 75 ℃ ± 5 ℃ water bath heat insulation
30s (During the process of adding reagent and heating, no open flame or stirring shall be allowed to avoid agglomeration). Cool to room temperature during cooling
Stirring three times to four times, with a pre-weighed 180 ± 5 ℃ or 250 ℃ ± 10 ℃ constant weight glass sand crucible sucked the supernatant by decantation
Wash the sediment with a bottle washing 5 times to 6 times, each time about 20mL of water, and finally the precipitate was transferred to a glass sand crucible, the precipitate washed with water 3 times ~
4 times. The glass sand crucible with the precipitate placed in an electric oven, dried at 180 ℃ ± 5 ℃ 45min or 250 ℃ ± 10 ℃
Under the dry 15min. Remove, placed in a desiccator cooled to room temperature, weighed, accurate to 0.0001g.
4.3.5 Calculation and representation of results
Sodium dihydrogen phosphate content of sodium dihydrogen phosphate (NaH2PO4) mass fraction w1, the value is expressed in%, according to equation (1) calculation.
w1 =
(m1-m2) × 0.0542
m × (10/250) ×
100% (1)
In the formula.
m1 --- test solution generated quinoline phosphomolybdate precipitation quality, in grams (g);
m2 --- blank test solution generated quinoline phosphomolybdate precipitation quality, in grams (g);
0.0542 --- quinoline phosphomolybdate conversion coefficient of sodium dihydrogen phosphate;
m --- the quality of the sample, in grams (g).
Sodium dihydrogen phosphate to total phosphorus (P) mass fraction w2 dollars, the value is expressed in%, according to equation (2) Calculate.
w2 = 0.2583 × w1 (2)
In the formula.
0.2583 --- sodium dihydrogen phosphate conversion coefficient of phosphorus;
w1 --- sodium dihydrogen phosphate content of sodium dihydrogen phosphate (NaH2PO4) mass fraction.
The absolute difference between two parallel determination results is not more than 0.3%, the arithmetic mean of two parallel determination results is the determination result, and the result
Keep one after the decimal point.
4.4 Determination of fluorine content
Weigh the sample 1g ~ 2g (accurate to 0.0001g), placed in 100mL volumetric flask, add 1mol/L hydrochloric acid solution and set to volume
Graduation, mixing, dry filtration (discard the first 20mL filtrate), the filtrate was collected. Take 25mL filtrate to 50mL volumetric flask, the remaining steps by
GB/T 13083-2002 Determination.
4.5 Determination of arsenic
According to GB/T 13079-2006 Chapter 5 Determination.
4.6 Determination of lead content
According to GB/T 13080 determination.
4.7 Determination of chromium content
According to GB/T 13088 determination.
4.8 Determination of water insoluble content
According to GB 25564-2010 Appendix A A.5 Determination of the method.
4.9 pH measurement
According to GB 25564-2010 Appendix A. Determination of A.10 method.
4.10 Determination of loss on drying
According to GB/T 6435 determination.
4.11 Determination of sulfate content
4.11.1 Reagents and materials
4.11.1.1 hydrochloric acid solution. Hydrochloric acid = 1 1.
4.11.1.2 barium chloride solution (122g/L). Weigh 12.2g barium chloride, 100mL water was dissolved.
4.11.1.3 silver nitrate solution (17g/L). Weigh 1.7g silver nitrate, 100mL water was dissolved.
4.11.2 Instruments and Equipment
4.11.2.1 glass sand crucible with a diameter of 5μm ~ 15μm.
4.11.2.2 water bath.
4.11.2.3 electric oven temperature.
4.11.3 Analysis steps
Weigh the sample 1g ~ 2g (accurate to 0.0001g), add 10mL hydrochloric acid solution (4.11.1.1) heated to dissolve, set the volume of 250mL
Volumetric flask, filtered with slow filter paper (qualitative). Precision drawing 20.0mL filtrate, placed in 250mL beaker. Add two drops of methyl orange indicator solution,
Hydrochloric acid solution (4.11.1.1) was added dropwise in red with an excess of 2 mL and water was added to bring the total volume to.200 mL. Boil 5min, add slowly with stirring
10mL hot (about 80 ° C) barium chloride solution (4.11.1.2) was placed in a (80 ± 5) ° C water bath for 2h. Cool to room temperature and use at (105 ±
2) ℃ constant weight glass sand crucible filter. Wash the precipitate with water until there is no chloride in the filtrate (test method
Liquid, add 5mL silver nitrate solution (4.11.1.3) mix, place 5min does not appear cloudy). The glass sand crucible and precipitation (105 ± 2) ℃
Dry to constant weight, weighing.
4.11.4 Calculation and representation of results
Sulfate content (in SO2-4 meter) mass fraction w3 meter, the value is expressed in%, according to equation (3) calculation.
w3 =
(m1-m2) × 0.4116
m × (V1/V2) ×
100% (3)
In the formula.
m1 --- glass sand crucible and precipitation quality, in grams (g);
m2 --- glass sand crucible quality, in grams (g);
0.4116 --- Barium sulfate precipitation conversion coefficient of SO2-4;
m --- the quality of the sample in grams (g);
V1 --- take the volume of the sample decomposition liquid in milliliters (mL);
V2 --- sample decomposition liquid volume, in milliliters (mL).
The absolute difference between two parallel determination results is not more than 0.3%, the arithmetic mean of two parallel determination results is the determination result, and the result
Keep one after the decimal point.
5 inspection rules
5.1 group approved
The same material, the same production process, continuous production or the same shift production of a batch of products, but each batch of products shall not exceed 10t.
5.2 Sampling
According to the provisions of GB/T 14699.1 sampling.
5.3 factory inspection
Among the items listed in Table 1, sodium dihydrogen phosphate content, total phosphorus, fluorine and dry weight loss are the factory inspection items.
5.4 type test
Type inspection items for all the requirements of Chapter 3. Product normal production, at least once every six months type test, but the following conditions
When one of the conditions, also conducted type testing.
a) when the product is shaped
b) there is a big change in the production process or the source of raw materials, which may affect the product quality;
c) stop production for more than 3 months, to resume production;
d) the factory test results and the last type test results are quite different.
5.5 decision rules
Inspection results have an indicator does not meet the requirements of this standard, should be re-sampled twice from the amount of packaging reinspection, retest results even
There is an indicator does not meet the requirements of this standard, the entire batch of products is unqualified.
6 Label, package, transport and storage
6.1 Label
According to GB 10648 implementation.
6.2 Packaging
Packaging materials should be non-toxic, harmless, moisture-proof.
6.3 Transportation
Prevent packaging damage during transport, the sun, rain, prohibit co-operation with toxic and hazardous substances.
6.4 Storage
Storage to prevent the sun, rain, toxic and harmful substances prohibited mixing.
7 shelf life
In the provisions of transport, storage conditions, the shelf life of 12 months.
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