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GB 1903.45-2020: National food safety standard - Food Nutritional Fortification Substance - Nicotinamide Delivery: 9 seconds. True-PDF full-copy in English & invoice will be downloaded + auto-delivered via email. See step-by-step procedure Status: Valid
Similar standardsGB 1903.45-2020: National food safety standard - Food Nutritional Fortification Substance - Nicotinamide---This is an excerpt. Full copy of true-PDF in English version (including equations, symbols, images, flow-chart, tables, and figures etc.), auto-downloaded/delivered in 9 seconds, can be purchased online: https://www.ChineseStandard.net/PDF.aspx/GB1903.45-2020 GB NATIONAL STANDARD OF THE PEOPLE’S REPUBLIC OF CHINA National Food Safety Standard - Food Nutritional Fortification Substance - Nicotinamide ISSUED ON: SEPTEMBER 11, 2020 IMPLEMENTED ON: MARCH 11, 2021 Issued by: National Health Commission of the PRC; State Administration for Market Regulation. Table of Contents1 Scope ... 3 2 Chemical Name, Structural Formula, Molecular Formula and Relative Molecular Mass ... 3 3 Technical Requirements ... 3 Appendix A Inspection Methods ... 5 Appendix B Infrared Spectrum of Nicotinamide Standard Substance, and Liquid Chromatogram of Nicotinamide Solution ... 16 National Food Safety Standard - Food Nutritional Fortification Substance - Nicotinamide1 ScopeThis Standard is applicable to the food nutritional fortification substance of nicotinamide obtained and produced through corresponding chemical synthetic process, and take methyl nicotinate (or ethyl nicotinate, or 3-methylpyridine, or 3- cyanopyridine, or 5-pentanediamine, 2-methyl-1) as the raw material. 2 Chemical Name, Structural Formula, Molecular Formula and Relative Molecular Mass 2.1 Chemical name 3-pyridine-carboxamide 2.2 Structural formula 2.3 Molecular formula C6H6N2O 2.4 Relative molecular mass 122.13 (according to 2018 international relative atomic mass)3 Technical Requirements3.1 Sensory requirements The sensory requirements shall comply with the provisions of Table 1.Appendix AInspection Methods A.1 General rules When other requirements are not specified, the reagents and water that are used in this Standard refer to analytically pure reagents and the Class-III water specified in GB/T 6682. When other requirements are not specified, the standard solutions, preparations, and products that are used in the test shall be prepared according to the provisions of GB/T 601, GB/T 602, GB/T 603. When the solutions that are used in the test are not specified by which solvent to prepare, they all indicate the aqueous solution. A.2 Identification test A.2.1 Color reaction A.2.1.1 Reagents and materials A.2.1.1.1 Sodium hydroxide solution: Take 4.3g of sodium hydroxide; add 100mL of water; stir to dissolve and mix evenly. A.2.1.1.2 Phenolphthalein indicator solution. A.2.1.1.3 Sulfuric acid solution: Take 57mL of sulfuric acid; slowly add it to water; and dilute to 1000mL by water and mix evenly. A.2.1.1.4 Copper sulfate solution: Take 12.5g of copper sulfate pentahydrate; add 100mL of water; and stir to dissolve and mix evenly. A.2.1.2 Analysis procedures Take 0.1g of specimen (accurate to 0.01 g); add 5mL of water to dissolve; add 5mL of sodium hydroxide solution; and slowly heat it to generate ammonia gas and make the wet red litmus paper turn blue (the difference from niacin). Continue heating until the ammonia odor is completely removed; let it cool; add 1 ~ 2 drops of phenolphthalein indicator solution; neutralize by sulfuric acid solution; and add 2mL of copper sulfate solution; a light blue precipitate shall slowly precipitate. A.2.2 Infrared spectrum test Use the potassium bromide pellet technique to test in accordance with GB/T 6040. The infrared spectrogram of the specimen shall be consistent with that of the nicotinamide standard substance (see Figure B.1) detector. A.3.2.2 Potentiometric titrator. A.3.2.3 Electronic balance: the accuracy is 0.0001 g A.3.2.4 pH meter: the accuracy is 0.01. A.3.3 Analysis procedures A.3.3.1 Perchloric acid titration method A.3.3.1.1 Indicator titration method A.3.3.1.1.1 Method summary Use crystal violet as an indicator; titrate the specimen with perchloric acid standard solution; and calculate the nicotinamide content based on the amount of the consumed perchloric acid standard titrant. A.3.3.1.1.2 Analysis procedures Take 0.1g of specimen (accurate to 0.0001g); add 30mL of glacial acetic acid to dissolve it (if necessary, warm it up to dissolve it completely). Add 1 drop ~ 2 drops of crystal violet indicator solution; titrate with perchloric acid standard titration solution until the solution turns blue-green and does not fade within 30s, which is the end point of the titration. Do a blank test at the same time. A.3.3.1.2 Potentiometric titration method A.3.3.1.2.1 Method summary Take calomel electrode as reference electrode, non-aqueous acid-base titration glass electrode as indicator electrode; and titrate the specimen with perchloric acid standard solution. According to the potential "jump", determine the titration end point. According to the amount of consumed perchloric acid standard titrant, calculate the nicotinamide content. A.3.3.1.2.2 Analysis procedures Take 0.1g of specimen (accurate to 0.0001 g); add 30mL of glacial acetic acid to dissolve it (if necessary, slightly warm it to dissolve it completely; if glacial acetic acid cannot flood the electrode, add glacial acetic acid appropriately). Use a potentiometric titrator to titrate by a perchloric acid standard titration; and do a blank test at the same time. A.3.3.2 Liquid chromatography As - the peak area of nicotinamide in the standard substance solution; m – the mass of the specimen, in g; w – mass fraction of the specimen drying loss, in %; 100 – coefficient, the results shall be converted into %; 1000 – conversion coefficient, convert mg into g. The test results are based on the arithmetic mean of the parallel determination results. The absolute difference between two independent determination results obtained under repeatability conditions shall be no more than 0.5% of the arithmetic mean. A.4 Determination of absorption coefficient E1% 1cm (261nm) A.4.1 Method principle The purity of the specimen shall be expressed by measuring the absorption coefficient of the specimen solution at a specific wavelength. A.4.2 Reagents and materials Hydrochloric acid solution: 0.1 mol/L. A.4.3 Apparatus A.4.3.1 1 cm quartz cuvette. A.4.3.2 UV spectrophotometer. A.4.3.3 Electronic balance with an accuracy of 0.0001 g. A.4.4 Analysis procedures Accurately take 0.15g of specimen (accurate to 0.0001g); use the hydrochloric acid solution to make constant volume of 100 mL; and mix evenly. Then take another 1.00mL into a 100mL volumetric flask; add hydrochloric acid solution to make the constant volume to the mark; and mix evenly. That is the specimen solution. Pour the specimen solution into a 1cm quartz cuvette; use the hydrochloric acid solution as the reference solution; use a spectrophotometer to measure absorption coefficient (E1% 1cm) at a wavelength of 261nm. A.4.5 Calculation of results The absorption coefficient E1% 1cm is calculated according to Formula (A.3): A.8.1 Method summary Dissolve the specimen in a sulfuric acid solution; and compare it with the control solution; its color shall not be darker. A.8.2 Reagents and materials A.8.2.1 Sulfuric acid. A.8.2.2 Ammonia test solution: Take 40 mL of concentrated ammonia water; dilute to 100 mL with water; and mix evenly. A.8.2.3 Hydrochloric acid: analytically pure. A.8.2.4 Colorimetric cobalt chloride solution: Weigh 32.5g of cobalt chloride hexahydrate (CoCl2 • 6H2O) (accurate to 0.0001g); add an appropriate amount of hydrochloric acid solution (1 → 40) to dissolve it into 500mL. Then take 2.00mL; place it in a conical flask; add 200mL of water to mix evenly; add ammonia solution until the solution turns from light red to green. Add 10mL of acetic acid-sodium acetate buffer solution (pH 6.0); and heat to 60 °C. Add 5 drops of xylenol orange indicator solution; and titrate with edetate disodium titration solution (0.05 mol/L) until it appears yellow. Each 1 mL of edetate disodium titration solution (0.05 mol/L) is equivalent to 11.90mg of cobalt chloride hexahydrate. According to the above measurement results, add an appropriate amount of hydrochloric acid solution (1 → 40) to the remaining original solution; so that each 1 mL of the solution contains 59.5mg of cobalt chloride hexahydrate; then the solution is obtained. A.8.2.5 Colorimetric potassium dichromate solution: Take 0.4g of reference potassium dichromate (accurate to 0.0001g) dried at 120 °C to constant weight; place it in a 500mL volumetric flask; and add appropriate amount of water to dissolve and dilute to the mark; shake well; then the solution is obtained. Each 1 mL of the solution contains 0.800mg of potassium dichromate (K2Cr2O7). A.8.2.6 Colorimetric copper sulfate solution: Take 32.5g of copper sulfate pentahydrate (accurate to 0.001 g); add an appropriate amount of hydrochloric acid solution (1 → 40) to dissolve it into 500mL. Then take 10.00 mL; and place it into the iodine flask; add 50mL of water, 4 mL of acetic acid (glacial acetic acid) and 2g of potassium iodide. Then titrate with sodium thiosulfate titrant (0.1 mol/L). When it is near the end point, add 2mL of starch indicator solution and continue titrate until the blue color disappears. Each 1 mL of sodium thiosulfate titrant (0.1 mol/L) is equivalent to 24.97mg of CuSO4 • 5H2O. According to the above measurement results, add an appropriate amount of hydrochloric acid solution (1 → 40) to the remaining original solution; so that each 1 mL of the solution contains 62.4 mg of CuSO4 • 5H2O; and the solution is obtained. A.8.2.7 Control solution: Take 1.0 mL of colorimetric cobalt chloride solution, 2.5 mL of colorimetric potassium dichromate solution, and 1.0 mL of colorimetric copper sulfate 40mg); and take it as specimen solution A. Take 0.5mL of specimen solution A; add anhydrous ethanol and make constant volume to 100 mL, which is the control solution (I). Take 10 mL of control solution (I); dilute with ethanol and make constant volume to 20 mL, which is control solution (II). A.9.3.1.2 Take 0.1g of niacin (accurate to 0.001g); add anhydrous ethanol to dissolve and make constant volume to 50mL; mix evenly; then obtain the niacin intermediate stock solution. Pipette 2.5mL of the niacin intermediate stock solution; dilute with anhydrous ethanol and make constant volume to 25 mL; mix evenly (each 1mL of the solution contains approximately 0.2mg of niacin); then obtain the reference solution. A.9.3.1.3 Respectively, take 10mL of niacin intermediate stock solution (A.9.3.1.2), 2.5mL of specimen solution A; mix evenly; dilute with anhydrous ethanol and make constant volume to 100 mL; then obtain the control solution (III). A.9.3.2 Analysis procedures Respectively pipette 5μL of specimen solution A, control solution (I), control solution (II), control solution (III), and reference solution in A.9.3.1; and respectively place them on the same silica gel GF254 thin-layer board above; take chloroform-anhydrous ethanol-water (48:45:4) as developing agent; unfold; dry; and inspect under ultraviolet lamp (254 nm). A.9.3.3 Judgment of results The control solution (III) shall display two clearly separated spots; the control solution (II) shall display a clearly visible spot. If the specimen solution A displays impurity spots corresponding to the reference solution, its color shall be no darker than that of the main spots of the reference solution. If the specimen solution A displays other impurity spots, compared with the main spots of the control solution (I), when the color of impurity spots displayed by the specimen solution A is no darker than that of the main spots of control solution (I), it shall pass the test. ......Source: Above contents are excerpted from the full-copy PDF -- translated/reviewed by: www.ChineseStandard.net / Wayne Zheng et al. Tips & Frequently Asked Questions:Question 1: How long will the true-PDF of English version of GB 1903.45-2020 be delivered?Answer: The full copy PDF of English version of GB 1903.45-2020 can be downloaded in 9 seconds, and it will also be emailed to you in 9 seconds (double mechanisms to ensure the delivery reliably), with PDF-invoice.Question 2: Can I share the purchased PDF of GB 1903.45-2020_English with my colleagues?Answer: Yes. 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