【VIP专享】药用丁基胶塞质量标准

丁基橡胶药用瓶塞检测SOP1. 目的为规范注射液用卤化丁基橡胶药用瓶塞的检定，特制定本SOP。

2. 范围本SOP适用于直接与注射剂接触的卤化丁基橡胶塞（注射液用卤化丁基橡胶塞、预灌封注射器用氯化丁基橡胶塞、预灌封注射器用溴化丁基橡胶塞）的检定。

3. 定义无4. 职责4.1.QC负责本规程的起草、修订、培训及执行。

4.2.QA、QC组长、质量管理部经理负责本规程的审核。

4.3.质量总监负责批准本规程。

4.4.QA负责本规程执行的监督。

5. 引用标准5.1.注射液用卤化丁基橡胶塞国家食品药品监督管理局直接接触药品的包装材料和容器标准汇编5.2.预灌封注射器用氯化丁基橡胶活塞国家食品药品监督管理局直接接触药品的包装材料和容器标准汇编5.3.预灌封注射器用溴化丁基橡胶活塞国家食品药品监督管理局直接接触药品的包装材料和容器标准汇编5.4.《中华人民共和国药典》6. 材料6.1.仪器设备天平，恒温水浴箱，分光光度计，pH计，恒温干燥箱，变温电炉，干燥器，电导率仪，高温炉。

6.2.试剂溶液标准铅溶液：购入；氯化铵铵溶液：取氯化铵10.5g，加水溶解使成100ml，即得；标准锌溶液：称取硫酸锌（ZnSO4·7H2O）0.440g，置1000ml量瓶中，加水溶解并稀释至刻度，摇匀，即得（每1ml相当于100µg的Zn）；0.02mol/L高锰酸钾滴定液: 按《高锰酸钾滴定液配制及标定SOP》操作；0.1mol/L硫代硫酸钠滴定液：按《硫代硫酸钠滴定液配制及标定SOP》操作；碳酸氢钠：购入；硝酸：购入；硝酸银试液：取硝酸银17.5g，加水适量使溶解成1000ml，摇匀，即得；0.1%氯化钾溶液：取氯化钾0.1g，加水使溶解成100 ml，即得；稀硫酸：取硫酸57ml，加水稀释至1000ml，即得；淀粉指示液：取可溶性淀粉0.5g，加水5ml搅匀后，缓缓倾入100ml沸水中，随加随搅拌，继续煮沸2min，放冷，倾取上层清液，即得，本液应临用新制；碱性碘化汞钾试液：二氯化汞饱和水溶液：取二氯化汞7g，溶于100ml水中，摇匀。

药用丁基胶塞---四大药典检测标准异同Summary1、Penetrability[YBB]Take 10 rubber closures, test according to the second method of YBB60072012, the average puncture force does not exceed 10N.[EP] Fill 10 suitable vials to the nominal volume with water R, fit the closures to be examined and secure with a cap. Using foreach closure a new, lubricated long-bevel(1) (bevel angle 12 ± 2°) hypodermic needle with an external diameter of 0.8 mm, pierce the closures with the needle perpendicular to the surface. The force required for piercing, determined with an accuracy of ± 0.25 N (25 gf), is not greater than 10 N (1 kgf) for each closure.[JP]None[USP]Fill 10 suitable vials to the nominal volume with water, fit the closures to be examined, and secure with a cap. Using a new hypodermic needle as described above for each closure, pierce the closure with the needle perpendicular to the surface.Requirement—The force for piercing is no greater than 10 N (1 kgf) f or each closure, determined with an accuracy of ± 0.25 N (25 gf).2、Fragmentation[YBB]Take 10 rubber closures, test according to the second method of YBB60082012, The total number of fragments does not exceed 5.[EP] For closures intended to be pierced by a hypodermic needle, carry out the following test. If the closures are to be used for aqueous preparations, place in12 clean vials a volume of water R corresponding to the nominal volume minus4 ml, close the vials with the closures to be examined, secure with a cap andallow to stand for 16 h. If the closures are to be used with dry preparations, close 12 clean vials with the closures to be examined. Using a lubricated long-bevel(1) (bevel angle 12 ±2°) hypodermic needle with an external diameter of 0.8 mm fitted to a clean syringe, inject into the vial 1 ml of water R and remove 1 ml of air ; carry out this operation 4 times for each closure,piercing each time at a different site. Use a new needle for each closure and check that the needle is not blunted during the test. Pass the liquid in the vials through a filter having approxi mately 0.5 μm pores. Count the fragments of rubber visible to the naked eye. The total number of fragments does not exceed5. This limit is based on the assumption that fragments witha diameter equal toor greater than 50 μm are visible to the naked eye; in cases of doubt or dispute, the fragments are examined with a microscope to verify their nature and size. [JP] None[USP] Closures for Liquid Preparations—Fill 12 clean vials with water to 4 mL less than the nominal capacity. Fit the closures to be examined, secure with acap, and allow to stand for 16 hours.Closures for Dry Preparations— Fit closures to be examined into 12 cleanvials, and secure each with a cap.Procedure— Using a hypodermic needle as described above fitted to a cleansyringe, inject into each vial 1 mL of water while removing 1 mL of air. Repeat this procedure 4 times for each closure, piercing each time at a different site.Use a new needle for each closure, checking that it is not blunted during the test.Filter the toatal volume of liquid in all the vials through a single filter with a nominal pore size no greater than 0.5 μm. Count the rubber fragments on the surface of the filter visible to the naked eye.Requirement— There are no more than 5 fragments visible. This limit is based on the assumption that fragments with adiameter >50 μm are visible to the naked eye. In case of doubt or dispute, the particles are examined microscopically to verify their nature and size.3、Sealing test of rubber closure and container[YBB] Take 10 rubber closures into the beaker, boil for 5 min , take out and dry 1h at 70℃ and ready to use. Fill 10 suitable vials to the nominal volume with water, fit the closures to be examined and secure with a cap. Heat in an autoclave so that a temperature of 121 ± 2 °C and maintain at this temperature for 30 min.Cool to room temperature and then place 24h, Immerse the vials upside down ina 10% solution of methylene blue R and reduce the external pressure by 25 kPafor 30 min. Restore atmospheric pressure and leave the vials immersed for 30 min. Rinse the outside of the vials. None of the vials contains any trace of colored solution.[EP]None[JP]None[USP] None4、Self-Sealing Capacity[YBB]Take the samples from sealing test of rubber closure and container, using for a hypodermic needle (YBB60082012 method 2), pierce each closure 3 times, change the hypodermic needle after it is used 10 times ,piercing each time at a different site.The vials upside down in a 10% solution of methylene blue R and reduce the external pressure by 25 kPa for 30 min. Restore atmospheric pressure and leave the vials immersed for 30 min. Rinse the outside of the vials. None of the vials contains any trace of colored solution.[EP]For closures intended to be used with multidosecontainers, carry out the following test. Fill 10 suitable vials to the nominal volume with water R, fit the closures to be examined and secure with a cap. Using for each closure a new hypodermic needle with an external diameter of 0.8 mm, pierce each closure 10 times, piercing each time at a different site. Immerse the vials upright in a 1 g/l solution of methylene blue R and reduce the external pressure by 27 kPa for 10 min. Restore atmospheric pressure and leave the vials immersed for 30 min.Rinse the outside of the vials. None of the vials contains any trace of coloured solution.[JP]None[USP]Procedure—Fill 10 suitable vials with water to the nominal volume. Fit the closures that are to be examined, and cap. Using a new hypodermic needle as described above for each closure, pierce each closure 10 times, piercing each time at a different site. Immerse the 10 vials in a solution of 0.1% (1 g per L) methylene blue, and reduce the external pressure by 27 kPa for 10 minutes.Restore to atmospheric pressure, and leave the vials immersed for 30 minutes.Rinse the outside of the vials.Requirement—None of the vials contain any trace of blue solution.5、Total Ash[YBB] Take the rubber closures, test according to YBB600212012, should be comply with the standard.[EP]The total ash (2.4.16) is within ± 10 per cent of the result obtained with the type sample.[JP]None[USP] None6、Volatile Sulfides[YBB]Take the rubber closures, according to the YBB60052012, should be comply with the standard.[EP] Place closures, cut if necessary, with a total surface area of 20 ± 2 cm2 in a 100 ml conical flask and add 50 ml of a 20 g/l solution of citric acid R. Place a piece of lead acetate paper R over the mouth of the flask and maintain the paper in position by placing over it an inverted weighing bottle. Heat in an autoclave at 121 ± 2℃ for 30 min. Any black stain on the paper is not more intense than that of a standard prepared at the same time in the same manner using 0.154 mg of sodium sulphide R and 50 ml of a 20 g/l solution of citric acid R.[JP]None[USP] Procedure—Place closures, cut if necessary, with a total surface area of 20 ± 2 cm2 in a 100-mL flask, and add 50 mL of a 20 g per L citric acid solution. In the same manner and at the same time, prepare a control solution in a separate 100-mL flask by dissolving 0.154 mg of sodium sulfide in 50 mL of a 20 g per L citric acid solution. Place a piece of lead acetate paper over the mouth of each flask, and hold the paper in position by placing over it an inverted weighing bottle. Heat the flasks in an autoclave at 121 ± 2℃for 30minutes.Requirement—Any black stain on the paper produced by Solution S is not more intense than that produced by the control solution.7、Preparation of Solution S[YBB] Put a number of uncut closures corresponding to a surface area of about 200 cm2 in a suitable glass container, cover with purified water( sample: water=1:2), boil for 5 min and rinse 5 times with the same volume of purified water. Place the washedclosures in a conical flask, add the same volume of water and weigh.Cover the mouth of the flask with a borosilicate-glass beaker. Heat in an autoclave so that a temperature of 121 ± 2 °C is reached within 20 min to 30 min and maintain at this temperature for 30 min. Cool to room temperature.Make up to the original mass with purified water. Shake and immediately separate the solution from the rubber by decantation. Shake solution S before each test Blank. Prepare a blank in the same manner using 400 mL of water for purified water.[EP] Solution S.Introduce a number of uncut closures corresponding to a surface area of about 100 cm2in a suitable glass container, cover with water for injections R, boil for 5 min and rinse 5 times with cold water for injections R.Place the washed closures in a wide-necked flask (glass type I, 3.2.1), add 200 ml of water for injections R and weigh. Cover the mouth of the flask with a borosilicate-glass beaker. Heat in an autoclave so that a temper ature of 121 ±2 °C is reached within 20 min to 30 min and maintain at this temperature for 30min. Cool to room temperature over about 30 min. Make up to the original mass with water for injections R. Shake and immediately separate the solution from the rubber by decantation. Shake solution S before each testBlank. Prepare a blank in the same manner using 200 ml of water for injections R.[JP] Wash the rubber closures with water, and dry at room temperature. Place them in a glass container, add water exactly 10 times the mass of the test material, close with a suitablestopper, heat at 121℃ for 1 hour in an autoclave, take out the glass container, allow to cool to room temperature,then take out immediately the rubber closures, and use the remaining solution as the testsolution. Prepare the blank solution with water in the same manner. Perform the following tests with the test solution and the blank solution[USP] Place whole, uncut closures corresponding to a surface area of 100 ± 10 cm2 intoa suitable glass container. Cover the closures with 200 mL of Purified Water orWater for Injection. If it is not possible to achieve the prescribed closure surface area (100 ± 10 cm2) using uncut closures, select the number of closures that will most closely approximate 100 cm2, and adjust the volume of water used to the equivalent of 2 mL per each 1 cm2 of actual closure surface area used. Boil for 5 minutes, and rinse five times with cold Purified Water or Water for InjectionPlace the washed closures into a Type I glass wide-necked flask (see Containers—Glass 660 ), add the same quantity of Purified Water or Water for Injection initially added to the closures, and weigh. Cover the mouth of the flask with a Type I glass beaker. Heat in an autoclave so that a temperature of 121 ± 2℃ is reached within 20 to 30 minutes, and maintain this temperature for30 minutes. Cool to room temperature over a period of about 30 minutes. AddPurified Water or Water for Injection to bring it up to the original mass. Shake, and immediately decant and collect the solution. [NOTE—This solution must be shaken before beingused in each of the tests]Prepare a blank solution similarly, using 200 mL of Purified Water or Water for Injection omitting the closures8、Appearance of solution[YBB]According to the part 2 of Chinese pharmacopoeia, 2010 edition of appendixⅨB and appendix IX A, standard solution is not more opalescent than reference suspension II. Standard solution is not more intensely coloured than No.5 reference solution[EP] Solution S is not more opalescent than reference suspension II for type I closures and is not more opalescent than reference suspension III for type II closures(2.2.1). Solution S is not more intensely coloured than reference solution GY5(2.2.2, Method II).[JP] Place 5 mL of the test solution in a glass-stoppered test tube of about 15 mm in inner diameter and about 200 mm in length, and shake vigorously for 3 minutes.The foam arisen disappears almost completely within 3 minutes.[USP] Determination of Turbidity (Opalescence)Procedure A: Visual Comparison— Use identical test tubes made of colorless, transparent, neutral glass with a flat base and an internal diameter of 15 to 25 mm. Fill one tube to a depth of 40 mm with Solution S, one tube to the same depth with water, and four others to the same depth with Reference Suspensions A, B, C,and D. Compare the solutions in diffuse daylight 5 minutes after preparation of the Reference Suspensions, viewing vertically against a black background. The light conditions shall be such that Reference Suspension A can be readily distinguished fromwater and that Reference Suspension B can be readily distinguished fromReference Suspension A.REQUIREMENT—Solution S is not more opalescent than Reference Suspension B for Type I closures, and not more opalescent than Reference Suspension C for Type II closures. Solution S is considered clear if its clarity is the same as that of water when examined as described above, or if its opalescence is not more pronounced than that of Reference Suspension A (refer to Table 3).Procedure B: Instrumental Comparison—Measure the turbidity of theReference Suspensions in a suitable calibrated turbidimeter (see Spectrophotometry and Light Scattering 851 ). The blank should be run and the results corrected for the blank. Reference Suspensions A, B, C, and D represent 3, 6, 18 and 30 Nephelometric Turbidity Units (NTU), respectively. Measure the turbidity of Solution S using the calibrated turbidimeter. REQUIREMENT—The turbidity of Solution S is not greater than that for Reference Suspension B (6 NTU FTU) for Type I closures, and is not greater than that forReference Suspension C (18 NTU FTU) for Type II closures (refer to Table 3).Determination of ColorColor Standard—Prepare a solution by diluting 3.0 mL of Matching Fluid O (see Color and Achromicity 631 ) with 97.0 mL of diluted hydrochloric acid. Procedure—Use identical tubes made of colorless, transparent, neutral glass with a flat base and an internal diameter of 15 to 25 mm. Fill one tube to a depth of 40 mm with Solution S, and the second with Color Standard. Compare the liquids in diffuse daylight, viewing vertically against a white background. Requirement—Solution S is not moreintensely colored than the Color Standard.9、Acidity or Alkalinity(PH)[YBB]Take each of 20 ml blank solution and solution S, respectively with KCl solution1 ml, According to the part2 of Chinese pharmacopoeia, 2010 edition ofappendixⅥH, the difference between the two may not be over 1.0.[EP] To 20ml of solution S add 0.1ml of bromothymol blue solution R1. Not more than 0.3ml of 0.01 M sodium hydroxide or 0.8 ml of 0.01 M hydrochloric acid is required to obtain either a blue or a yellow colour, respectively.[JP] T o 20 mL each of the test solution and the blank solution add 1.0 mL each of potassium chloride solution, prepared by dissolving 1.0 g of potassium chloride in water to make 1000 mL. The difference of pH between the two solutions is not more than 1.0[USP] Bromothymol Blue Solution—Dissolve 50 mg of bromothymol blue in a mixture of 4 mL of 0.02 M sodium hydroxide and 20 mL of alcohol. Dilute with water to 100 mL.Procedure—To 20 ml of Solution S add 0.1 ml of Bromothymol Blue Solution.If the solution is yellow, titrate with 0.01 N sodium hydroxide until a blue endpoint is reached. If the solution is blue, titrate with 0.01 N hydrochloric acid until a yellow endpoint is reached. If the solution is green, it is neutral and no titration is required.Blank Correction—Test 20 mL of Blank similarly. Correct the results obtained for Solution S by subtracting or adding the volume of titrant required for the Blank, as appropriate. (Reference Titrimetry 541 .)Requirement—Not more than 0.3 ml of 0.01 N sodium hydroxide produces a blue color, or not more than 0.8 ml of 0.01 N hydrochloric acid produces a yellow color, or no titration is required.10、Absorbance[YBB] Filter solution S on a membrane filter having approximately 0.45 μm pores.Measure the absorbance of the filtrate at wavelengths from 220 nm to 360 nm using the blank as compensation liquid. At these wavelengths, the absorbance does not exceed 0.1(according to the part 2 of Chinese pharmacopoeia, 2010 edition of appendixⅣA).[EP] Carry out the test within 5 h of preparation of solution S. Filter solution S on a membrane filter having approximately 0.45 μm pores rejecting the first few milliliters of filtrate. Measure the absorbance (2.2.25) of the filtrate at wavelengths from 220 nm to 360 nm using the blank (see solution S) as compensation liquid. At these wavelengths, the absorbance does not exceed 0.2 for type I closures or 4.0 for type II closures. If necessary, dilute the filtrate before measurement of the absorbance and correct the result for the dilution. [JP] Read the absorbance of the test solution between 220 nm and 350 nm against the blank solution as directed under Ultraviolet-visible Spectrophotometry <2.54>: it is not more than 0.20.[USP] Procedure — [NOTE—Perform this test within 5 hours of preparing Solution S.] Filter Solution S through a 0.45-μm pore size filter, discarding the first few mL of filtrate. Measure the absorbance of the filtrate at wavelengths between 220 and 360 nm in a 1-cm cell using the blank in a matched cell in the reference beam. If dilution of the filtrate is required beforemeasurement of the absorbance, correct the test results for the dilution.Requirement—The absorbances at these wavelengths do not exceed 0.2 for Type I closures or 4.0 for Type II closures.11、Reducing Substances[YBB] To 20.0 mL of solution S add 1 mL of dilute sulfuric acid R and 20.0 mL of0.002 M potassium permanganate. Boil for 3 min. Cool. Add 0.1 g of potassiumiodide R and titrate immediately with 0.01 M sodium thiosulfate until the colorturned light brown , using 5 drops of starch solution R as indicator. Carry out atitration using 20.0 mL of the blank. The difference between the titrationvolumes is not greater than7.0mL.[EP] Carry out the test within 4 h of preparation of solution S. To 20.0 ml of solution S add 1 ml of dilute sulphuric acid R and 20.0 ml of 0.002 M potassium permanganate. Boil for 3min. Cool. Add 1 g of potassium iodide R and titrate immediately with 0.01 M sodium thiosulphate, using 0.25 ml of starch solution R as indicator. Carry out a titration using 20.0 ml of the blank. The difference between the titration volumes is not greater than 3.0 ml for type I closures and7.0 ml for type II closures.[JP] Measure 100 mL of the test solution in a glass-stoppered,Erlenmyer flask, add10.0 mL of 0.002 mol/L potassium permanganate VS and 5 mL of dilutesulfuric acid, and boil for 3 minutes. After cooling, add 0.10g of potassium iodide,stopper, mix by shaking, then allow to stand for 10 minutes,and titrate<2.50> with 0.01 mol/L sodium thiosulfate VS(indicator: 5 drops of starch TS).Perform the blank test in the same manner, using 100 mL of the blank solution.The difference in mL of 0.002 mol/L potassium permanganate VS required between the tests is not more than 2.0 mL.[USP] Procedure— [NOTE—Perform this test within 4 hours of preparing Solution S.] T o 20.0 mL of Solution S add 1 mL of diluted sulfuric acid and 20.0 mL of0.002 M potassium permanganate. Boil for 3 minutes. Cool, add 1 g ofpotassium iodide, and titrate immediately with 0.01 M sodium thiosulfate, using0.25 mL of starch solution TS as the indicator. Perform a titration using 20.0mL of blank and note the difference in volume of 0.01 M sodium thiosulfaterequired.Requirement—The difference between the titration volumes is not greater than 3.0 mL for Type I closures and not greater than 7.0 mL for Type II closures.12、Residue on evaporation[YBB]Evaporate 100 mL of solution S and blank solution to dryness on a water-bath and dry at 100 °C to 105 °C. The residue weighs not more than 4.0 mg. [EP]Evaporate 50.0 ml of solution S to dryness on a water-bath and dry at 100 °C to 105 °C. The residue weighs not more than 2.0 mg for type I rubber and notmore than 4.0 mg for type II rubber.[JP]Measure 100 mL of the test solution, evaporate on a water bath to dryness, and dry the residue at 1059 C for 1 hour.The mass of the residue is not morethan 2.0 mg.[USP]None13、Ammonium[YBB] Precision measuring 10 ml of solution S, adding alkaline potassium iodide solution 2 ml, place 15 minutes, should not be color; if it colored , compare with reference solution (with 2.0 ml ammonium chloride solution (take ammoniumchloride 31.5 mg, add right amount chlorine free water and dissolve diluted to1000 ml), 8 ml blank reference solution, 2ml alkaline potassium mercuric iodide solution for mixing), should not be more intensely colored (0.0002%)[EP] maximum 2 ppm.Dilute 5 ml of solution S to 14 ml with water R. The solution complies with limit test A.[JP]None[USP] Alkaline Potassium Tetraiodomercurate Solution—Prepare a 100 mL solution containing 11 g of potassium iodide and 15 g of mercuric iodide in water.Immediately before use, mix 1 volume of this solution with an equal volume ofa 250 g per L solution of sodium hydroxide.Test Solution— Dilute 5 mL of Solution S to 14 mL with water. Make alkaline if necessary by adding 1 N sodium hydroxide, and dilute with water to 15 mL.Add 0.3 mL of Alkaline Potassium TetraiodomercurateSolution, and close the container.Ammonium Standard Solution—Prepare a solution of ammonium chloride in water (1 ppm NH4). Mix 10 mL of the 1 ppm ammonium chloride solution with5 mL water and 0.3 mL of Alkaline Potassium Tetraiodomercurate Solution.Close the container.Requirement—After 5 minutes, any yellow color in the Test Solution is no darker than the Ammonium Standard Solution (no more than 2 ppm of NH4 in Solution S).14、Extractable Zinc[YBB] Filter solution S on a membrane filter having approximately 0.45μm pores, Precision measuring filtrate 10 ml, add 1 ml 2 mol/L of hydrochloric acid and 3 drops of potassium ferrocyanide test solution(weight 4.2 g potassium ferrocyanide trihydrate, dissolve and diluted with water to 100 ml, shake evenly, this product should be new prepared) for mixing, should not be color; if it colored, compare with reference solution( with 3 ml standard zinc solution (weight 44.0g Zinc sulfate seven hydrated compounds, with new boiled and cooled purified water dissolved and diluted to 1000 ml, this product should be new prepared), shall not be deeper(0.0002%)，7ml blank reference solution, 1ml 2mol/L hydrochloric acid and 3 drops of potassium ferrocyanide solution for mixing), should not be more intensely colored.(0.0003%)[EP] maximumof 5 μg of extractable Zn per millilitre of solution S.Atomic absorption spectrophotometry (2.2.23, Method I). Test solution. Dilute10.0 ml of solution S to 100 ml with 0.1 M hydrochloric acid.Reference solutions. Prepare the reference solutions using zinc standard solution(10 ppm Zn) R diluted with 0.1 M hydrochloric acid.Source: zinc hollow-cathode lamp.Wavelength: 213.9 nm.Flame: air-acetylene.[JP]T o 10.0 mL of the test solution add diluted dilute nitric acid (1 in 3) to make 20 mL, and use this solution as the sample solution. Further, to 1.0 mL of Standard Zinc Solutionfor atomic absorption spectrophotometry add diluted nitricacid (1 in 3) to make exactly 20 mL, and use this solution asthe standard solution. Perform the tests according to the Atomic Absorption Spectrophotometry <2.23>,using these solutions, under the following conditions.The absorbanceof the sample solution is not more than that of the standardsolution.Gas: Combustible gasóAcetylene.。

免洗免灭药用胶塞质量标准一、材质合规1.免洗免灭药用胶塞应使用符合国家相关标准的材质制造，如医用级硅橡胶、聚乙烯等。

2.材质应无毒、无异味、无刺激性，不含有对人体有害的物质。

二、物理性能1.免洗免灭药用胶塞应具有一定的弹性和回弹性，以确保良好的密封性能。

2.免洗免灭药用胶塞应具有足够的抗压性能，以承受药品包装的压力。

3.免洗免灭药用胶塞应具有优良的耐寒性能，以确保在低温环境下正常工作。

三、化学性能1.免洗免灭药用胶塞应具有优良的化学稳定性，能够耐受药品的腐蚀和溶剂的影响。

2.免洗免灭药用胶塞应不与药品发生反应，不影响药品的质量和稳定性。

3.免洗免灭药用胶塞应具有良好的耐清洗性能，能够在清洗过程中保持洁净。

四、密封性能1.免洗免灭药用胶塞应具有良好的密封性能，能够有效地防止药品泄漏和污染。

2.免洗免灭药用胶塞应与药瓶配合紧密，确保药品在运输和储存过程中的稳定性。

3.免洗免灭药用胶塞应具有防漏性能，能够防止药品在运输和储存过程中的泄漏。

五、生物相容性1.免洗免灭药用胶塞应具有良好的生物相容性，不会对人体产生不良反应。

2.免洗免灭药用胶塞应符合国家相关标准，如GB/T 16886等。

六、无菌性能1.免洗免灭药用胶塞应经过严格的灭菌处理，确保无菌性能。

2.免洗免灭药用胶塞应在无菌环境下生产、包装和储存，确保整个生产过程中的无菌性。

七、耐候性能1.免洗免灭药用胶塞应具有优良的耐候性能，能够在不同气候条件下保持稳定。

2.免洗免灭药用胶塞应能够耐受紫外线、氧化等因素的影响，不发生老化反应。

3.免洗免灭药用胶塞应能够抵抗药品包装中的化学物质和气体等的影响，不发生变质或变形。

八、抗老化性能1.免洗免灭药用胶塞应具有优良的抗老化性能，能够在长时间的使用过程中保持稳定。

2.免洗免灭药用胶塞应能够抵抗自然环境和人为因素（如摩擦、撞击等）的影响，不发生磨损或损坏。

3.免洗免灭药用胶塞应能够抵抗药品包装中的化学物质和气体等的影响，不发生老化反应。

丁基橡胶塞质量标准一、外观质量1.丁基橡胶塞表面应光滑、平整，无明显的气泡、裂纹和杂质。

2.丁基橡胶塞的色泽应均匀，符合设计要求。

3.丁基橡胶塞的形状和尺寸应符合设计图纸要求。

二、尺寸精度1.丁基橡胶塞的尺寸应符合设计图纸要求，误差不超过±0.1mm。

2.丁基橡胶塞的孔径和孔深应符合设计图纸要求，误差不超过±0.2mm。

三、物理性能1.丁基橡胶塞应具有良好的弹性和回弹性，以满足使用要求。

2.丁基橡胶塞应具有较好的耐温性能，能在规定的使用温度下保持其物理性能不变。

3.丁基橡胶塞应具有较好的耐老化性能，经过规定的老化试验后，仍能保持良好的使用性能。

四、化学性能1.丁基橡胶塞应具有较好的化学稳定性，能耐受常见的化学物质的侵蚀。

2.丁基橡胶塞应不含有对人体有害的物质，符合相关卫生标准。

五、密封性能1.丁基橡胶塞应具有较好的密封性能，能够有效地防止液体和气体的泄漏。

2.在规定的使用压力下，丁基橡胶塞不应出现明显的变形或损坏。

六、耐老化性能1.丁基橡胶塞应能在规定的温度和湿度条件下，经过一定时间的老化试验后，仍能保持良好的使用性能。

2.丁基橡胶塞的老化试验包括但不限于热老化、紫外线老化、臭氧老化等。

七、无毒无害1.丁基橡胶塞应采用无毒、无害的原材料制作，不含有对人体有害的物质。

2.丁基橡胶塞应符合相关的卫生标准和环保要求。

3.八、符合设计要求4.丁基橡胶塞应满足设计图纸中的各项技术要求，包括但不限于材质、结构、尺寸、性能等。

5.在生产和检验过程中，应严格遵守相关的工艺流程和检验标准，确保产品质量符合设计要求。

丁基胶塞含硅油质量标准丁基胶塞含硅油质量标准如下：1.硅油含量丁基胶塞中硅油含量不得超过 2.0%。

硅油是一种优秀的润滑剂和脱模剂，能有效提高丁基胶塞的加工性能和使用性能。

但是，如果硅油含量过高，会影响丁基胶塞的物理性能和密封性能。

因此，必须控制硅油含量。

2.蒸发残渣丁基胶塞在高温下蒸发的残渣含量应不大于 1.0%。

残渣过多会影响胶塞的纯净度，可能对药品的稳定性和药效产生不良影响。

因此，要严格控制残渣含量，保证胶塞的质量。

3.析出物丁基胶塞在使用过程中析出物的含量应不大于 1.0%。

析出物过多会影响胶塞的密封性能，甚至可能对药品的质量产生不良影响。

因此，要严格控制析出物含量，保证胶塞的稳定性和可靠性。

4.颜色丁基胶塞的颜色应为白色或浅灰色。

颜色均匀且无明显色差。

不同颜色的丁基胶塞可能代表不同的密度、硬度、透光率等特性。

因此，要严格控制颜色等级，保证胶塞的质量和性能。

5.硬度丁基胶塞的硬度应在60 Shore A至80 Shore A之间。

硬度是影响丁基胶塞物理性能和加工性能的重要因素。

不同硬度的胶塞适用于不同场合和需求。

因此，要严格控制硬度等级，保证胶塞的适用性和可靠性。

6.密度丁基胶塞的密度应在0.95g/cm³至1.05g/cm³之间。

密度是反映丁基胶塞物理性能的重要参数之一。

不同密度的胶塞具有不同的特性，如高密度胶塞的强度和硬度通常会更高。

要严格控制密度等级，以保证胶塞的质量和性能。

7.透光率丁基胶塞的透光率应不小于25%且不大于70%。

透光率越高，丁基胶塞的透明度越好，可以更好地观察瓶内药品的情况。

但是，如果透光率过高，可能会影响药品的稳定性。

因此，要选择合适的透光率等级，以保证胶塞的透明度和药品的稳定性。

8.折射率丁基胶塞的折射率应不小于1.49且不大于1.52。

折射率是反映物质光学性能的重要参数。

通过控制折射率等级，可以确保丁基胶塞具有较好的透光性和观察性，同时避免影响药品的光学性能。

如何辨别医用胶塞的质量日期：2014-09-04 17:32:14 浏览：571医用胶塞是一次性真空采血管中必须使用的部件，目的就是为了保障采血管内部和外部的隔绝，保障采血管的干净卫生。

采血管胶塞的特点是什么呢？我们又该如何辨别医用胶塞的质量好坏。

首先，我们先了解下采血管胶塞的特点和组成。

胶塞是药品包装中瓶装密封材料的重要组成部分，主要包括天然橡胶和丁基橡胶。

在我国的制药史上，长期以来一直采用的都是加垫涤纶膜的翻口天然胶塞，天然胶塞本身具有优秀的物理性能和耐落屑性能。

但是，天然胶塞主要存在以下几个弊端：(1)生物安全性较差。

天然橡胶由乳胶制造而成，其中5%～8%为非橡胶成分，包括类脂及其分解物、蛋白质以及少量无机盐类，某些蛋白质的存在使得橡胶容易吸潮发霉。

有关机构检测表明，药品中从天然胶塞溶入的异性蛋白是引起人体热原反应的重要因素之一，有试验证明天然橡胶胶塞中释放出的乳胶过敏原可以导致皮肤过敏反应。

(2)化学性质比较活跃，易与药品发生相互反应。

(3)气密性较差。

天然胶塞大分子具有较高的柔性，对于各种气体具有较高的扩散率，从而影响其密封性能。

(4)使用工艺复杂。

天然胶塞生产环境较差，外来污染较多，再加上配方比较复杂，因而药厂在封装药品之前，必须对胶塞进行酸碱处理，以便尽可能减少胶塞对药液的污染。

与此形成对比，作为天然胶塞替代品的丁基胶塞，却在上述几个方面都表现出明显的优越性。

丁基胶塞具有吸湿率低，化学性好，气密性好，无生理毒副作用等显著特点，特别适宜于用作药品密封。

因此天然胶塞已列入被淘汰之列，而用丁基胶塞取代。

丁基橡胶是由异丁烯和少量异戊二烯(≤3%)在超低温(-95℃)条件下聚合而成的共聚物，为白色或暗灰色透明性弹体。

丁基橡胶是气密性最好的橡胶，其气体透过率约为天然橡胶的1/20，丁基橡胶的耐热性、耐候性和耐臭氧氧化性都很突出。

最高使用温度可达200℃，能长时间暴露于阳光和空气中而不易损坏。

丁墓橡胶耐化学腐蚀性好，耐酸、碱和极性溶剂。

药用丁基胶塞质量标准药用氯化丁基橡胶塞标准( 试行) YBB 0004 本标准适用于直接与注射剂接触的氯化丁基橡胶塞。

【外观】取本品数个, 目视检测, 表面色泽应均匀, 不得有污点、杂质、气泡、裂纹、缺胶、粗糙、胶丝、胶屑、海绵状、毛边; 不得有除边造成的残缺或锯齿现象; 不得有模具造成的明显痕迹。

【鉴别】( 1) 称取本品5～20g, 置于干燥的试管中, 将长约4毫米的钠片一片置于固定并倾斜的试管中, 使其恰好位于试样之上, 用火焰的尖端加热试管, 将钠融化在试样上, 继续加热2分钟, 使呈深红色, 冷却后加入乙醇, 将过剩的钠醇化, 加水约10ml溶解, 过滤, 滤液备用。

A: 取滤液1.5ml置于试管中, 加硝酸酸化, 煮沸1～2分钟, 加入硝酸银1滴, 应产生白色沉淀。

B: 取滤液0.2ml, 置于微量试管中, 加氯仿1滴, 加稀硫酸1滴, 加薪配置的氨水1滴( 或3％H2O2溶液2～3滴) , 经振荡混匀后, 静止5分钟, 氯仿层应不显色。

( 2) 红外光谱取本品约3g切成3mm×3mm小块置索氏抽提器中用丙酮或适宜的溶剂回流浸提8小时, 取残渣80℃烘干, 取0.1～0.2g置于裂解管的底部, 然后用试管夹水平的将裂解管移到酒精灯上加热, 当出现裂解产物冷凝在裂解管冷端时, 再继续加热至裂解基本完全但没碳化为止, 取少许裂解物滴在溴化钾片上, 在80℃烘干, 照分光光度法( 《中华人民共和国药典》二部ⅣC) 测定, 应与对照图谱基本一致。

【穿刺落屑】输液瓶用胶塞: 取10只被测胶塞和10只已知穿落屑数的胶塞分别装在与其相配的输液瓶上, 每只瓶中注入半瓶水。

加上铝盖,用手动封盖机封口,打开铝盖穿刺部位。

按先被测胶塞再已知穿刺落屑数胶塞的顺序交替穿刺胶塞。

穿刺时,胶塞保持直立,握持金属穿刺器( 见图1) 垂直向胶塞标记区域内穿刺, 晃动数秒后拨出穿刺器。

每次穿刺前用丙酮或甲基—异丁基酮擦拭穿刺器。

药用丁基胶塞质量标准药用氯化丁基橡胶塞 标准（试行） YBB 00042002本标准适用于直接与注射剂接触的氯化丁基橡胶塞。

【外观】取本品数个，目视检测，表面色泽应均匀，不得有污点、杂质、气泡、裂纹、缺胶、粗糙、胶丝、胶屑、海绵状、毛边；不得有除边造成的残缺或锯齿现象；不得有模具造成的明显痕迹。

【鉴别】（1）称取本品5～20g ，置于干燥的试管中，将长约4毫米的钠片一片置于固定并倾斜的试管中，使其恰好位于试样之上，用火焰的尖端加热试管，将钠融化在试样上，继续加热2分钟，使呈深红色，冷却后加入乙醇，将过剩的钠醇化，加水约10ml 溶解，过滤，滤液备用。

A ：取滤液1.5ml 置于试管中，加硝酸酸化，煮沸1～2分钟，加入硝酸银1滴，应产生白色沉淀。

B ：取滤液0.2ml ，置于微量试管中，加氯仿1滴，加稀硫酸1滴，加薪配置的氨水1滴（或3％H2O2溶液2～3滴），经振荡混匀后，静止5分钟，氯仿层应不显色。

（2）红外光谱取本品约3g 切成3mm×3mm 小块置索氏抽提器中用丙酮或适宜的溶剂回流浸提8小时，取残渣80℃烘干，取0.1～0.2g 置于裂解管的底部，然后用试管夹水平的将裂解管移到酒精灯上加热，当出现裂解产物冷凝在裂解管冷端时，再继续加热至裂解基本完全但没碳化为止，取少许裂解物滴在溴化钾片上，在80℃烘干，照分光光度法（《中华人民共和国药典》2000年版二部ⅣC ）测定，应与对照图谱基本一致。

【穿刺落屑】输液瓶用胶塞：取10只被测胶塞和10只已知穿落屑数的胶塞分别装在与其相配的输液瓶上，每只瓶中注入半瓶水。

加上铝盖,用手动封盖机封口,打开铝盖穿刺部位。

按先被测胶塞再已知穿刺落屑数胶塞的顺序交替穿刺胶塞。

穿刺时,胶塞保持直立,握持金属穿刺器（见图1）垂直向胶塞标记区域内穿刺，晃动数秒后拨出穿刺器。

每次穿刺前用丙酮或甲基—异丁基酮擦拭穿刺器。

穿刺器不得有损坏，并保持锋利（如穿器损坏，须换用新的）。

编号：ZL-SOP-QC-001-00目的：建立丁基橡胶药用瓶塞检验操作规程范围：本规程适用于丁基橡胶药用瓶塞的检验责任人：质检科内容：1.器具：量筒、烧杯、刻度吸管、pH计、移液管、100ml容量瓶、TU-1800型紫外分光光度计、微孔滤膜、10ml移液管、电炉、天平、锥形瓶、电热恒温干燥箱、瓷蒸发皿、干燥器、纳氏比色管、高温电炉。

2.试剂：淀粉指示液、高锰酸钾液（0.002mol/L）、硫代硫酸钠滴定液（0.01mol/L）、醋酸盐缓冲液（pH3.5）、碱性碘化汞钾、氯化铵溶液、2mol/L 盐酸、亚铁氰化钾试液、标准锌溶液、标准铅溶液（1ml相当于10μg的Pb）、硫代乙酰胺试液、混合液、碘化钾、稀硫酸、0.1%氯化钾溶液。

3.检查：3.1外观：3.1.1操作步骤：取样品100个，目视检测。

3.1.2结果判定：表面色泽应均匀，不得有污点、杂质、气泡、裂纹、缺胶、粗糙、胶丝、海绵状毛边；不得有除边造成的残缺或锯齿现象；不得有模具造成的明显痕迹，判为合格。

3.2灰分：3.2.1操作步骤：3.2.1.1分别称取样品1.0g两份，放入已炽灼至恒重的两个坩埚中，精密称定；3.2.1.2放入高温电炉中，缓缓炽灼至完全炭化；3.2.1.3再放入800℃炽灼至完全灰化，移置干燥器内；3.2.1.4放冷至室温，精密称定后，再在800℃炽灼至恒重。

4.2.2结果判定：遗留残渣不得过45％，判为合格。

3.3澄清度与颜色：3.3.1操作步骤：取供试液10.0ml置纳氏比色管中。

4.3.2结果判定：溶液应澄清无色。

如显浑浊，与2号浊度标准液比较，不得更浓；如显色，与黄绿色5号标准比色液比较，不得更浓，判为合格。

3.3.3注：试验液S1和空白液S0的制备按《丁基橡胶药用瓶塞质量标准》进行。

3.4酸碱度3.4.1操作步骤3.4.1.1用量筒分别量取试验液S1和空白液S0各20ml，置两个小烧杯中。

3.4.1.2向两个小烧杯中各加入氯化钾溶液（1→1000）1.0ml。

注射用冷冻干燥无菌粉末用溴化丁基橡胶塞本标准适用于直接与注射用冷冻干燥无菌粉末接触的溴化丁基橡胶塞的检验。

【外观】取本品数个，照附表检查法检查，应符合规定。

【鉴别】* （1）取本品适量剪成小颗粒，称取2.0g，置于30ml坩埚中，加碳酸氢钠2.0g均匀覆盖试样，置电炉上，缓缓加热至炭化，放冷，置高温炉300℃加热至完全灰化，取出，放冷，加水10ml使溶解，过滤，取滤液1.5ml，置于试管中，加硝酸酸化，加入硝酸银试液1滴，应产生淡黄色沉淀。

（2）除另有规定外，照包装材料红外分光光谱测定法（YBB00262004）第四法测定，应与对照图谱基本一致。

【穿刺落屑】取本品10个，照注射剂用胶塞、垫片穿刺落屑测定法（YBB00332004）第二法对照法测定，落屑数应不得过5粒。

【穿刺力】取本品10个，照注射剂用胶塞、垫片穿刺力测定法（YBB00322004）第二法测定，穿刺瓶塞所需的力均不得过10N。

【胶塞与容器密合性】取本品10个，置烧杯中，加水5分钟，取出，在70℃干燥1小时，备用。

另取10个与之配套的注射液瓶，加水至标示容量，用上述胶塞、垫片塞紧或封紧，再加上与之配套的铝盖或铝塑盖，压盖。

放入高压灭菌器中，121℃±2℃，保持30分钟，冷却至室温，放置24小时，将上述样品倒置，放入含有10%亚甲兰溶液的容器中，置于带抽气着装置的容器中，抽真空度为25kPa,维持30分钟，真空装置恢复至常压，再放置30分钟，取出，用水冲洗瓶外壁，观察，亚甲兰溶液不得渗入瓶内。

【自密封性】取胶塞与容器密合性项下样品，采用符合注射剂用胶塞、垫片穿刺力测定法（YBB00322004）第二法中注射针，向胶塞不同穿刺部位垂直刺穿胶塞，每个胶塞穿刺3次，每穿刺10次后更换注射针。

将上述样品倒置，放入含有10%亚甲兰溶液的容器中，置于带抽气着装置的容器中，抽真空度为25kPa,维持30分钟，真空装置恢复至常压，再放置30分钟，取出，用水冲洗瓶外壁，观察，亚甲兰溶液不得渗入瓶内。

药包材标准中丁基胶塞质量要求及测试方法介绍药包材标准中丁基胶塞质量要求及测试方法介绍丁基橡胶塞在洁净度、化学稳定性、气密性等方面的性能都非常好，所以广泛应用于输液、口服液等药品包装中。

由于丁基胶塞在药品行业应用广泛，而且胶塞产品直接接触药品，所以国家出台了很多相关标准来控制丁基胶塞的产品质量。

以下我们结合国家药包材标准的要求来介绍丁基胶塞产品的性能要求和测试方法。

一、参考标准（部分）：YBB00042005-2015注射液用卤化丁基橡胶塞YBB00052005-2015注射用无菌粉末用卤化丁基橡胶塞YBB00322004-2015注射剂用胶塞垫片穿刺力测定法YBB00332004-2015注射用胶塞垫片穿刺落屑测定法1.穿刺落屑取样品10个，照注射剂用胶塞、垫片穿刺落屑测定法YBB00332004-2015测定，落屑数应不得过20粒。

测定法：选择20个注射剂瓶，每个瓶内加1/2公称容量的水。

取10个被测胶塞和10个已知穿刺落屑胶塞分别装在注射剂瓶上，盖上铝盖或铝塑组合盖，封口后进行预处理。

预处理完成后用丙酮或其他适当的有机溶剂擦拭金属穿刺器，然后手持穿刺器，垂直穿刺被测试胶塞上的标记部位，刺入后晃动注射剂瓶数秒后拔出穿刺器。

将注射剂瓶中水全部通过一张滤纸过滤，在人眼距离滤纸20cm 的位置，用肉眼观察滤纸上的落屑数，必要时可以通过显微镜进一步证实落屑大小和数量。

附金属穿刺器标准要求1.穿刺力取样品10个。

照注射剂用胶塞、垫片穿刺力测定法YBB00322004-2015第二法测定，穿刺瓶塞所需的力均不得超过10N。

测定法：依据标准要求对胶塞样品进行预处理。

取10个胶塞配套的注射剂瓶，分别加入公称容量的水，装上预处理过的被测胶塞，加上铝盖或者铝塑组合盖，封口。

将一只注射针置于材料试验机上固定，将注射剂瓶放入材料试验机，打开铝盖或铝塑组合盖，漏出胶塞标记部位，穿刺器以200mm/min的速度进行垂直穿刺，记录胶塞穿刺所施加的最大力值。

注射用冷冻干燥无菌粉末用溴化丁基橡胶塞本标准适用于直接与注射用冷冻干燥无菌粉末接触的溴化丁基橡胶塞的检验。

【外观】取本品数个，照附表检查法检查，应符合规定。

【鉴别】* （1）取本品适量剪成小颗粒，称取2.0g，置于30ml坩埚中，加碳酸氢钠2.0g均匀覆盖试样，置电炉上，缓缓加热至炭化，放冷，置高温炉300℃加热至完全灰化，取出，放冷，加水10ml使溶解，过滤，取滤液1.5ml，置于试管中，加硝酸酸化，加入硝酸银试液1滴，应产生淡黄色沉淀。

（2）除另有规定外，照包装材料红外分光光谱测定法（YBB00262004）第四法测定，应与对照图谱基本一致。

【穿刺落屑】取本品10个，照注射剂用胶塞、垫片穿刺落屑测定法（YBB00332004）第二法对照法测定，落屑数应不得过5粒。

【穿刺力】取本品10个，照注射剂用胶塞、垫片穿刺力测定法（YBB00322004）第二法测定，穿刺瓶塞所需的力均不得过10N。

【胶塞与容器密合性】取本品10个，置烧杯中，加水5分钟，取出，在70℃干燥1小时，备用。

另取10个与之配套的注射液瓶，加水至标示容量，用上述胶塞、垫片塞紧或封紧，再加上与之配套的铝盖或铝塑盖，压盖。

放入高压灭菌器中，121℃±2℃，保持30分钟，冷却至室温，放置24小时，将上述样品倒置，放入含有10%亚甲兰溶液的容器中，置于带抽气着装置的容器中，抽真空度为25kPa,维持30分钟，真空装置恢复至常压，再放置30分钟，取出，用水冲洗瓶外壁，观察，亚甲兰溶液不得渗入瓶内。

【自密封性】取胶塞与容器密合性项下样品，采用符合注射剂用胶塞、垫片穿刺力测定法（YBB00322004）第二法中注射针，向胶塞不同穿刺部位垂直刺穿胶塞，每个胶塞穿刺3次，每穿刺10次后更换注射针。

将上述样品倒置，放入含有10%亚甲兰溶液的容器中，置于带抽气着装置的容器中，抽真空度为25kPa,维持30分钟，真空装置恢复至常压，再放置30分钟，取出，用水冲洗瓶外壁，观察，亚甲兰溶液不得渗入瓶内。

药用丁基胶塞质量标准一、引言药用丁基胶塞是药品包装的重要组成部分，其质量直接关系到药品的质量和安全性。

为了规范药用丁基胶塞的生产和质量控制，本质量标准应运而生。

本标准主要包含以下方面：外观、尺寸、物理性能、化学性能和微生物限度。

二、外观药用丁基胶塞的外观应平整、光滑，无明显瑕疵、气泡和颜色不均匀。

胶塞的表面应无残留物、油腻或手印等污染。

三、尺寸药用丁基胶塞的尺寸应符合设计要求，包括直径、高度和厚度等参数。

胶塞的直径应在规定范围内，以确保与药瓶的配合良好；高度和厚度应符合标准，以保证足够的机械强度和密封性能。

四、物理性能1. 拉伸强度：药用丁基胶塞应具有一定的拉伸强度，以保证在正常包装和运输过程中不易破损。

2. 撕裂强度：药用丁基胶塞应具有足够的撕裂强度，以防止在开启药瓶时出现撕裂现象。

3. 压缩永久变形：药用丁基胶塞应具有较小的压缩永久变形，以保证在使用过程中保持良好密封性能。

4. 密度：药用丁基胶塞的密度应均匀一致，且符合标准要求。

5. 热稳定性：药用丁基胶塞应能在药品包装的温度条件下保持稳定，不出现软化、变形等现象。

五、化学性能1. 耐化学腐蚀性：药用丁基胶塞应能耐受药品、消毒剂等化学物质的腐蚀，以确保药品包装的密封性和安全性。

2. 溶出物：药用丁基胶塞在浸泡于药品或其他溶剂中时，应不溶出对人体有害的物质。

3. 蒸发残渣：药用丁基胶塞在高温烘烤或暴露于空气中时，应不产生对人体有害的蒸发残渣。

4. 微生物限度：药用丁基胶塞中不得检出对人体有害的微生物（如细菌、霉菌等）。

5. 无毒无害性：药用丁基胶塞应无毒无害，不会对人体健康造成影响。

6. 透明度：药用丁基胶塞应具有较高的透明度，以便于观察药品包装内部的情况。

7. 耐磨性：药用丁基胶塞应具有较好的耐磨性，以防止在重复使用过程中出现磨损现象。

8. 抗老化性：药用丁基胶塞应具有较好的抗老化性能，以防止在储存和使用过程中出现性能下降现象。