CN109839446A - Method for measuring residual styrene, toluene and ethylbenzene in carboxylic styrene-butadiene latex - Google Patents

Abstract

The invention relates to a method for measuring residual styrene, methylbenzene and ethylbenzene in carboxylic styrene-butadiene latex, which adopts an internal standard method to measure, wherein the internal standard substance is dioxane, and a solvent is water, and the method mainly comprises the following two steps: 1) measuring the correction factors of the volatilized residues of the styrene, the toluene and the ethylbenzene in the carboxylated styrene-butadiene latex, and 2) measuring the contents of the three volatilized residues of the styrene, the toluene and the ethylbenzene in the carboxylated styrene-butadiene latex sample to be measured. The measuring method has good repeatability and high accuracy.

Description

The measuring method of residue styrene and toluene, ethylbenzene in a kind of carboxylic styrene butadiene latex

Technical field

The present invention relates to a kind of analysis methods of volatile component in raw material of industry.More particularly to using capillary column head space The measuring method of volatile residue styrene and toluene, ethylbenzene in gas chromatograph quantitative analysis carboxylic styrene butadiene latex.

Background technique

Synthetic rubber latex is the high molecular lotion of a kind of synthetic rubber, and type has carboxylic styrene butadiene latex, NBR latex With polychloroprene latex etc., it can come directly as product using therefore being a kind of important high molecular material, in synthetic rubber work It occupies an important position in industry.Synthetic rubber latex is widely used, is mainly used for manufacture foam rubber products, dipping system In addition product are also largely used to carpet industry, paper industry, fiber treatment, construction material, coating, pigment, adhesive etc..Currently, The application field of synthetic rubber latex is also constantly expanding, and is expected to develop into an independent industrial department.

Unconverted monomer would generally be remained in synthetic rubber latex, they are mainly some alkenes compounds, and such as third Alkene nitrile, styrene etc.；Meanwhile some organic principles can be also volatilized in synthetic rubber latex, such as toluene, ethylbenzene.Synthesize rubber The problem of environmental pollution that residual monomer and other organic principles in glue latex attract also results in the extensive concern of society: such as third Alkene nitrile, styrene, toluene, ethylbenzene etc. have more virulent property.Therefore, in view of the residual monomer in synthetic rubber latex and other have The harm that machine ingredient may cause, it is necessary to establish the detection side of residual monomer and other organic principles in synthetic rubber latex Method.

Currently, documents and materials report related synthetic rubber latex in residual monomer and other organic principles detection method It is gas chromatography, there are two types of input modes, are as follows: direct-injection technique and headspace injection method.

Petrochemical industry standard SH/T 1760-2007 " residual monomer and other organic principles in synthetic rubber latex Measure capillary column gas chromatography direct liquid introduction method ".The standard is using gas-chromatography direct-injection technique to synthetic rubber glue Residual monomer and other organic principles are determined in cream." GC-MS method measures residue styrene and propylene in ABS, SAN Nitrile monomer ", Shao Qiurong, " chemical analysis metering ", and the 1st phase of volume 24, page 80~82, in January, 2015.The document uses gas phase Chromatography-mass spectroscopy direct-injection technique is determined 2 kinds of residual monomer acrylonitrile and styrene in ABS, SAN plastics." acrylic acid And its gas chromatography of residual monomer measures research in esters polymer ", Liao Liewen, " Speciality Petrochemicals ", the 1st phase, In July, 2001.The document carries out the residual monomer in acrylic polymer using gas-chromatography direct-injection technique Measurement." Determination of Remaining Monomer in 791 Resin Powder by Gas Chromatography ", Chen Ping Zhang, " Shenyang chemical industry ", the 6th phase, the 41st~ Page 43,1997.The document is determined the residual monomer in 791 resin-oatmeals using gas-chromatography direct-injection technique.CN 201010614229.6 disclosing a kind of side of gas-chromatography direct-injection technique test acrylate pressure-sensitive adhesive residual monomer content Method." the survey of residual monomer and solvent in food packaging acrylonitritrile-styrene resin and rubber modified resin and molded product It is fixed ", Sun Duozhi, " physical and chemical inspection ", volume 47, page 1443~1445,2011 years.The document uses gas-chromatography direct injected Method is determined the residual monomer in acrylonitritrile-styrene resin and rubber modified resin and molded product." gas-chromatography Method measures residual monomer in ABS resin ", Wen Haibo, " Chemical Engineer ", and the 3rd phase of volume 96, page 23~24,2003 years 6 Month.The document is determined the residual monomer in ABS resin using gas-chromatography direct-injection technique." acrylic nitrile-butadiene two The dissolution precipitating of residual monomer-gas chromatography measurement in alkene-styrene (ABS) plastics ", Yuan Lifeng, " analysis test journal ", The 10th phase of volume 27, page 1095~1098, in October, 2008.The document is using gas-chromatography direct-injection technique to acrylonitrile- 9 kinds of poisonous and harmful residual monomers are determined in butadiene-styrene (ABS) plastics." residual monomer in polymer emulsion Gas Chromatographic Determination ", Yu Yanjun, " chromatography ", and the 1st phase of volume 7, page 56~57,1989 years.The document is straight using gas-chromatography Sampling system is connect to be determined the residual monomer in polymer emulsion.

Above-mentioned nine documents are all made of gas-chromatography direct-injection technique, and sample is directly injected into gas phase color with sample introduction needle In spectrometer, the blocking of sample introduction needle is not only resulted in this way, gas chromatograph system can also be formed and be polluted, influence subsequent sample point Analyse the accuracy of result.

International standard ISO 13741-2 " plastics/rubber-polymeric dispersions and rubber latex (natural and synthesis)- Residual monomer and other organic principle headspace injection methods are measured with Capillary Column GC ", which uses gas-chromatography Headspace injection method is to residual monomer in plastics/rubber-polymeric dispersions and rubber latex (natural and synthesis) and other Organic principle is determined, and internal standard quanitation is used in continuous mode, and the solvent used is dimethylformamide or diformazan Yl acetamide, the internal standard compound used are dioxane or methylisobutylketone, specific testing procedure are as follows: (1) by internal standard compound and list A Component Standard substance or the standard substance of multiple components are made into mixed solution；(2) by 1cm³Water and 2cm³Mixed solution it is mixed It closes, takes the top tank air injecting chromatograph of the mixed liquor of certain volume (50 μ L of <) (it is recommended that the sample of 3 to 4 various concentrations of measurement Product)；(3) peak area for measuring each determinand, calculates correction factor；(4) sample for weighing 0.5g, is added to ml headspace bottle In, 1cm is then added³Water and 2cm³Inner mark solution, ml headspace bottle is sealed after adding dottle pin；Herein, it is added in rubber latex sample Water be " 6682-2008 water for analytical laboratory use-Specification and test methods of GB/T " specified in level-one water；(5) it is stirred with electromagnetism Mix device stirring 30min~4h；(6) at 90 DEG C, sample solution is heated into 1h, after making sample vapor liquid equilibrium, is detected in ml headspace bottle Top tank air；(7) peak area of internal standard compound and the peak area of determinand are measured；(8) it is volatilized by calculating to finally obtain in latex The residual monomer of property and the content of other organic principles.

" Gas Chromatographic Method of residual monomer and volatile component in styrene series resin ", Wu Keqin, " high bridge Petrochemical industry ", the 1st phase of volume 17, page 16~18,2 months 2002 years.The document using GC headspace injection method to PS, AS and Residual monomer and volatile component are determined in ABS plastic resin.When measurement, using inner mark method ration, dimethyl methyl is used Solvent of the amide as inner mark solution and Standard Stock solutions, is determined the residual monomer in styrene series resin. " Determination of Styrene in Polystyrene by Gas Chromatography ", Zhu Shenghui, " Modern Scientific Instruments ", page 83~85, 2 months 2008.The document is determined Residuce of Styrene in polystyrene using GC headspace injection method.It surveys Periodically, using inner mark method ration, use dimethylformamide as the solvent of inner mark solution and Standard Stock solutions, to polystyrene In Determination of Styrene be determined." the residual monomer measurement in vinylacetate and crotonic acid copolymers ", Chen Jian Sea, " chemistry world ", the 1st phase, page 48~49,1993 years.The document uses GC headspace injection method Dichlorodiphenyl Acetate ethylene Residual monomer in ester and crotonic acid copolymers is determined.When measurement, using inner mark method ration, made with dimethyl acetamide For the solvent of inner mark solution and Standard Stock solutions, the residual monomer in Dichlorodiphenyl Acetate vinyl acetate and crotonic acid copolymers is surveyed It is fixed." the GC-MS method of the Determination of Styrene in kayexalate resin measures ", Chen Fang, " Chinese Medicine industry is miscellaneous Will ", the 1st phase of volume 41, page 32~34, in January, 2010.The document is using GC headspace injection method to polystyrene sulphur Determination of Styrene in sour sodium resin is determined.When measurement, using inner mark method ration, use methanol as inner mark solution With the solvent of Standard Stock solutions, the Determination of Styrene in kayexalate resin is determined." static headspace gas Phase chromatography measures residual monomer content in styrene-acrylic emulsion ", Lu Ting, " Chinese coating ", and the 7th phase of volume 29, page 66~70, In July, 2014.The document is determined the residual monomer in styrene-acrylic emulsion using GC headspace injection method.Measurement When, using inner mark method ration, use water as the solvent of inner mark solution, acetone is as Standard Stock solutions solvent, to styrene-acrylic emulsion In residual monomer be determined.

Above-mentioned six documents are all made of GC headspace injection method and are measured to the residual monomer in sample.It adopts When with Head space sample introduction, needs first to heat sample, then take the gas phase injecting chromatograph on sample upper layer to be analyzed, thus keep away Blocking of the sample sample introduction needle and the pollution caused by instrument when direct injected are exempted from.Above-mentioned six documents measurement when, Internal standard method is all made of to quantify.Preceding four documents using dimethylformamide or dimethyl acetamide as inner mark solution with The solvent of Standard Stock solutions, then two documents have then used methanol or acetone as solvent to prepare standard storage respectively Standby solution.It is using the major defect that dimethylformamide or dimethyl acetamide make solvent, in the test process of sample, Dimethylformamide can in disturbed specimen main component toluene appearance, and dimethyl acetamide then can be main group in disturbed specimen The appearance of point ethylbenzene, this will directly influence the precision of toluene or the quantitative accuracy and this method of ethylbenzene；Use methanol When making solvent with acetone, because their boiling point is relatively low, qualitative, quantitative point of the more early component of appearance time in sample will affect Analysis.

" rubber latex exam method styrene butadiene is total by American Society Testing and Materials standard ASTM D 4026-1987 The measurement of polymers residue styrene ", the standard is using gas-chromatography direct-injection technique to the residue benzene second in styrene-butadiene latex Alkene content is measured, and inner mark method ration is used in continuous mode, (needs that non-ionic surfactant is added in water using water Agent) solvent as inner mark solution and Standard Stock solutions, the internal standard compound used is methyl styrene.

The standard not only has the characteristics that toxicity is low when using water as solvent, but also avoids dimethylformamide and make solvent When, solvent peak hangover is serious, and when disturbing the appearance or dimethyl acetamide of toluene in standard substance and making solvent, solvent peak is dragged Tail, the appearance of ethylbenzene, avoids and makees solvent using dimethylformamide or dimethyl acetamide in severe jamming standard substance When, due to the disadvantage that the hangover of solvent peak causes solvent and rubber latex sample component separating degree reduces, sensitivity is weak；But comparison text It offers when being measured using gas-chromatography direct-injection technique to the residue styrene in styrene-butadiene latex, draws one with sample introduction needle Directly rubber latex sample is injected in gas chromatograph after the rubber latex sample of part, the harm of such sample introduction has: the 1. glue in sample introduction needle Milk sample product meet high temperature in injection port, and sample introduction needle is easily caused to block；2., can will be many non-targeted in rubber latex sample when direct injected Compound injecting chromatograph, causing the pollution of instrument injection port bushing pipe, (ASTM D 4026-1987 " starts after general sample introduction 20 times There is ghost peak "), influence the accuracy of subsequent sample analysis result；3. the matrix of rubber latex sample is water, direct injected can will be a large amount of Water enter chromatographic column, cause chromatographic column column bleed and form peak, and will lead to very strong baseline noise.Meanwhile comparison text It offers using solvent of the water as inner mark solution and Standard Stock solutions, using methyl styrene as internal standard compound, standard substance is Styrene, during preparing inner mark solution and Standard Stock solutions, because methyl styrene and styrene are not soluble in water, because This, which joined nonionic surface active agent in water, increase methyl styrene and benzene by vibrating dispersion The solubility of ethylene in water.In vibrating dispersion, the time of oscillation and oscillation dynamics can have a direct impact dispersion effect, Afterwards the correction factor of the styrene evaporated in styrene-butadiene latex sample, toluene and ethylbenzene and its standard of assay are influenced True property.

Summary of the invention

The object of the present invention is to provide residue styrene volatile in a kind of carboxylic styrene butadiene latex and toluene, ethylbenzene Measuring method.Present invention is particularly suitable for using volatile residue styrene in inner mark method ration measurement carboxylic styrene butadiene latex With the method for toluene, ethylbenzene.

The measuring method of residue styrene and toluene, ethylbenzene, interior using internal mark method determination in a kind of carboxylic styrene butadiene latex Mark object is dioxane, and solvent is water, mainly includes following two step: the 1) residue evaporated in carboxylic styrene butadiene latex The correction factor measurement of styrene and toluene, ethylbenzene, 2) the three kinds of determinands evaporated in carboxylic styrene butadiene latex sample to be measured The assay of styrene, toluene and ethylbenzene.

Step 1) the correction factor measurement needs to prepare inner mark solution and Standard Stock solutions, wraps in Standard Stock solutions Three kinds of standard substance styrene, toluene and ethylbenzene are included, internal standard compound is dioxane, and solvent is water；According to three kinds of standard substances Peak area is calculated the correction factor of three kinds of standard substances by formula (1):

In formula: R_f--- the correction factor of standard substance；A_s--- the peak area of internal standard compound；m_v ^o--- the matter of standard substance Amount, unit are gram (g)；A_v--- the peak area of standard substance；m_s ^o--- the quality of internal standard compound, unit are gram (g).

The assay of three kinds of determinand styrene of the step 2), toluene and ethylbenzene is mainly according to internal standard compound and three kinds The peak area of determinand styrene, toluene and ethylbenzene；It is to be measured that each in carboxylic styrene butadiene latex sample to be measured is calculated by formula (2) The content of object:

In formula: A_i--- the peak area of determinand；m_s--- the quality of internal standard compound, unit are milligram (mg)；R_f--- by public affairs The correction factor that formula (1) obtains；A_s--- the peak area of internal standard compound；m_d--- the quality of carboxylic styrene butadiene latex sample to be measured, unit For kilogram (kg).

The measuring method of volatile residue styrene and toluene, ethylbenzene in carboxylic styrene butadiene latex of the present invention, The main correction factor measurement including the styrene, toluene and the ethylbenzene that are evaporated in carboxylic styrene butadiene latex, Carboxy to be measured Two steps of assay of three kinds of determinand styrene, toluene and the ethylbenzene evaporated in rubber latex sample.Detailed process is such as Under:

(1) correction factor of the styrene, toluene and the ethylbenzene that evaporate in carboxylic styrene butadiene latex measures

Before measuring correction factor, need to prepare inner mark solution and Standard Stock solutions, the preparation of inner mark solution are as follows: match first Concentration range processed is 300 μ g/cm³~600 μ g/cm³Inner mark solution, internal standard compound is dioxane, and solvent is water.Standard inventory Solution includes three kinds of standard substance styrene, toluene and ethylbenzene: the body of three kinds of standard substance styrene, toluene and ethylbenzene and solvent For product than being 1:30~1:60, solvent is water.

The specific continuous mode of correction factor are as follows: by the proportion of 1mL:2mL:15 μ L~1mL:4mL:45 μ L by water, internal standard Solution is placed in the ml headspace bottle of head-space sampler with Standard Stock solutions and mixes, and seals the ml headspace bottle of head-space sampler, will mix The top tank air injecting chromatograph of solution；According to the peak area of three kinds of standard substances, three kinds of standard substances are calculated by formula (1) Correction factor:

In formula:

R_f--- the correction factor of standard substance；

A_s--- the peak area of internal standard compound；

m_v ^o--- the quality of the ml headspace bottle Plays substance of step (1) head-space sampler, unit are gram (g)；

A_v--- the peak area of standard substance；

m_s ^o--- the quality of internal standard compound in the ml headspace bottle of step (1) head-space sampler, unit are gram (g).

(2) content of the three kinds of determinand styrene, toluene and ethylbenzene that are evaporated in carboxylic styrene butadiene latex sample to be measured Measurement

The carboxylic styrene butadiene latex sample to be measured for weighing 0.3g~1.0g, is added in the ml headspace bottle of head-space sampler；Then After the water of 0.8mL~1.1mL and the inner mark solution of 1.8mL~2.2mL is added, the ml headspace bottle of head-space sampler is sealed；70 DEG C~90 DEG C at, heat 0.5h~2.0h, after the sample vapor liquid equilibrium in the ml headspace bottle of head-space sampler, by head-space sampler Ml headspace bottle gas injecting chromatograph at the middle and upper levels, obtain the peak area of internal standard compound and three kinds of determinand styrene, toluene and ethylbenzene； The content of each determinand in carboxylic styrene butadiene latex sample to be measured is calculated according to formula (2):

In formula:

A_i--- the peak area of determinand；

m_s--- the quality of internal standard compound in the ml headspace bottle of step (2) head-space sampler, unit are milligram (mg)；

R_f--- the correction factor obtained by formula (1)；

A_s--- the peak area of internal standard compound；

m_d--- the quality of carboxylic styrene butadiene latex sample to be measured, unit thousand in the ml headspace bottle of step (2) head-space sampler Gram (kg).

Synthetic rubber latex of the present invention is carboxylic styrene butadiene latex.

Quantitative approach of the present invention is internal standard quanitation.

Volatile residual monomer is styrene in carboxylic styrene butadiene latex of the present invention.

Volatile organic principle is toluene, ethylbenzene in carboxylic styrene butadiene latex of the present invention.

Internal standard compound described in step (1) of the present invention is dioxane, and solvent is water, and wherein the purity of dioxane is point It analyses pure.

Water described in step (1) of the present invention is level-one water specified in GB/T 6682-2008.

Standard substance described in step (1) of the present invention is styrene, toluene and ethylbenzene.

Chromatographic condition of the present invention includes two parts of gas chromatograph and head-space sampler, wherein gas chromatograph Condition are as follows: injector temperature be 150 DEG C~250 DEG C, split ratio 10:1, column head pressure 12.0psi, starting column temperature be 30 DEG C~50 DEG C, preferably 30 DEG C~40 DEG C, retains 10min, 170 DEG C, preferably 3 are risen to 2 DEG C/min~6 DEG C/min heating rate DEG C/min~5 DEG C/min, do not retain, then rises to 250 DEG C again with 8 DEG C/min~11 DEG C/min heating rate, preferably 9 DEG C/ Min~10 DEG C/min, do not retain, and detector temperature is 250 DEG C~300 DEG C；The condition of head-space sampler are as follows: sample injector furnace temperature is 80 DEG C~95 DEG C, preferably 90 DEG C~95 DEG C, sample injector furnace temperature soaking time be 40min~70min, preferably 55min~65min, Sampling probe temperature be 100 DEG C, transmission line temperature be 110 DEG C, nebulizer gas pressure 20.0psi, sample injection time be 0.01min~ 0.04min, preferably 0.02min~0.03min, pulling out the needle time is 0.2min, and pressurize 3.0min.

Gas chromatograph of the present invention need to be furnished with flame ionization ditector (FID).

The present invention for gas chromatograph and head-space sampler model and be not limited, the gas suitable for various models Chromatography and head-space sampler.

The present invention is using GC headspace injection method to residue styrene volatile in carboxylic styrene butadiene latex sample It is measured with toluene, ethylbenzene, avoids carboxylic styrene butadiene latex sample when direct injected in this way to the blocking of sample introduction needle and right It is polluted caused by instrument, eliminates the qualitative, quantitative effect caused by subsequent sample.

The present invention when using inner mark method ration, compared with the existing technology in it is in correction factor determination step that internal standard is molten Liquid and Standard Stock solutions mixed preparing, the present invention is in correction factor determination step, by inner mark solution and Standard Stock solutions It is separately formulated, in the determination step of the determinand content evaporated in carboxylic styrene butadiene latex sample to be measured in this way, just it is not necessarily to Prepare inner mark solution again again；The time is both saved in this way, simplifies operating process, and reduces the use of reagent, is saved Cost, while also reducing the pollution to environment.

Inner mark solution of the invention is the mixed solution of dioxane and water, and middle inner mark solution is first compared with the existing technology For the mixed solution of base styrene and water (needing that nonionic surface active agent is added in water), dioxane combines interior with water Mark solution has the characteristics that toxicity is low, and the pollution effect that the health and environment to user generate is smaller, more environmentally friendly.Together When, better than methyl styrene and non-ionic surface is added in the dissolubility of dioxane and water complete miscibility, dioxane and water The water of activating agent, and the mixed solution of dioxane and water is mixed without vibrating.

Standard Stock solutions of the invention are the mixed solution of water and three kinds of standard substance styrene, toluene and ethylbenzene, In the measurement of step 1 correction factor, after inner mark solution is mixed with Standard Stock solutions, internal standard compound dioxy in inner mark solution oneself Styrene, toluene and ethylbenzene in ring and Standard Stock solutions is all miscible, compared with the existing technology in use non-ionic surface Activating agent comes for disperse water and internal standard compound and standard substance, and the Standard Stock solutions that dioxane is combined with three kinds of reference substances are not Only have the characteristics that toxicity is low, and overcomes non-ionic surfactant need to be added in Standard Stock solutions in the prior art Agent disperses this defect of the solubility of internal standard compound and standard substance in water, eliminates and nonionic surface active agent point is added Oscillation step when dissipating, while avoiding the dispersion effect of nonionic surface active agent to standard substance correction factor and its containing Measure fixed influence.

Using GC headspace injection method to three kinds of determinand styrene, the toluene evaporated in carboxylic styrene butadiene latex When being measured with the content of ethylbenzene, chooses water as solvent preparation inner mark solution and is added in carboxylic styrene butadiene latex sample to be measured, The impurity content evaporated in carboxylic styrene butadiene latex sample to be measured can be made to drop compared with the prior art (international standard ISO 13741-2) Low 5%~15%, 10%~30% is reduced compared with the prior art (American Society Testing and Materials standard ASTM D 4026-1987), When this result illustrates to be measured the determinand evaporated in carboxylic styrene butadiene latex using GC headspace injection method, It chooses water as solvent and can reduce interfering substance in sample preparing inner mark solution and qualitative, the quantitative effect of target to be measured are mentioned The accuracy of high object to be measured analyte detection.

The headspace gas chromatography instrument that measuring method of the invention uses is easy to operate, reproducible, and it is to be directed to that accuracy is high Complicated component and the optimal path of instrument sample easy to pollute analysis.

Detailed description of the invention

Fig. 1 is to choose the carboxy styrene-butadiene rubber that dimethylformamide is made by solvent using prior art ISO 13741-2 The chromatogram of volatile component in milk sample product；

Fig. 2 is to choose the carboxy styrene-butadiene rubber that dimethyl acetamide is made by solvent using prior art ISO 13741-2 The chromatogram of volatile component in milk sample product；

Fig. 3 is using prior art ASTM D 4026-1987, and it is molten for choosing water (nonionic surface active agent is added) The chromatogram of volatile component in the carboxylic styrene butadiene latex sample that agent is made；

Fig. 4 for volatile component in the carboxylic styrene butadiene latex sample made using the method for the present invention chromatogram.

Specific embodiment

Elaborate below to the embodiment of the present invention: the present embodiment carries out under the premise of the technical scheme of the present invention Implement, gives detailed embodiment and process, but protection scope of the present invention is not limited to following embodiments, following implementation Test method without specific conditions in example, usually according to normal condition.

Illustrate the present invention by the following examples, however, the present invention is not limited to these examples.

Synthetic rubber latex used in the present invention is carboxylic styrene butadiene latex, dioxane used, styrene, toluene and second Benzene is commercially available analytical reagents, instrument used in the present invention are as follows: the 7890A gas-chromatography of Agilent company, U.S. production The Tubomatrix HS40-trap head-space sampler of instrument and the production of PE company, the U.S..

Embodiment 1

(1) correction factor of the styrene, toluene and the ethylbenzene that evaporate in carboxylic styrene butadiene latex measures

The internal standard compound dioxane for weighing 19.0mg (being accurate to 0.1mg) is added in the volumetric flask of 50mL, is diluted with water To graduation mark, sealing is used as inner mark solution after shaking up；It takes the water of about 4.5mL to be added in the volumetric flask of 10mL, adds benzene second Three kinds of alkene, toluene and ethylbenzene standard substances respectively after about 200 μ L (every kind is accurate to 0.1mg), are diluted with water to graduation mark, after shaking up Sealing is used as Standard Stock solutions.

1.0mL water, 2.1mL inner mark solution are placed in ml headspace bottle with the Standard Stock solutions of 20 μ L and are mixed, head space is sealed Bottle, by the top tank air injecting chromatograph of mixed solution；In the condition of gas chromatograph are as follows: injector temperature is 170 DEG C, is shunted It is 30 DEG C than for 10:1, column head pressure 12.0psi, originating column temperature, retains 10min, risen to the heating rate of 6 DEG C/min 170 DEG C, do not retain, then rise to 250 DEG C again with the heating rate of 8.5 DEG C/min, do not retain, detector temperature is 290 DEG C；Top The condition of empty sample injector are as follows: sample injector furnace temperature is 92 DEG C, and sample injector furnace temperature soaking time is 50min, and sampling probe temperature is 100 DEG C, transmission line temperature is 110 DEG C, nebulizer gas pressure 20.0psi, sample injection time 0.02min, and pulling out the needle time is 0.2min, is added It is measured under pressure 3.0min, obtains the peak area of internal standard compound and three kinds of standard substances, correction factor is calculated by formula (1):

In formula:

R_f--- the correction factor of standard substance；

A_s--- the peak area of internal standard compound；

m_v ^o--- the quality of step (1) ml headspace bottle Plays substance, unit are gram (g)；

A_v--- the peak area of standard substance；

m_s ^o--- the quality of internal standard compound in step (1) ml headspace bottle, unit are gram (g).

Calculated correction factor is shown in Table 1.

The correction factor of the styrene, toluene and the ethylbenzene that are evaporated in 1 carboxylic styrene butadiene latex of table

Determinand	Correction factor
		Toluene	0.6
Ethylbenzene	1.0
		Styrene	2.5

(2) content of the three kinds of determinand styrene, toluene and ethylbenzene that are evaporated in carboxylic styrene butadiene latex sample to be measured Measurement

The carboxylic styrene butadiene latex sample for weighing 0.4g, is added in ml headspace bottle；Then the water and 2.0mL of 0.9mL is added After inner mark solution, ml headspace bottle is sealed；At 92 DEG C, 50min is heated, after sample to be tested vapor liquid equilibrium, at the middle and upper levels by ml headspace bottle Gas injecting chromatograph obtains internal standard compound and three kinds of determinand styrene, toluene and second under conditions of above-mentioned gas chromatograph The peak area of benzene；The content of each determinand in carboxylic styrene butadiene latex sample to be measured is calculated according to formula (2):

In formula:

A_i--- the peak area of determinand；

m_s--- the quality of internal standard compound in step (2) ml headspace bottle, unit are milligram (mg)；

R_f--- the correction factor obtained by formula (1)；

A_s--- the peak area of internal standard compound；

m_d--- the quality of carboxylic styrene butadiene latex sample to be measured in step (2) ml headspace bottle, unit are kilogram (kg).

Calculate containing for three kinds of determinand styrene, toluene and the ethylbenzene evaporated in carboxylic styrene butadiene latex sample to be measured Amount is shown in Table 2.

The content (unit: mg/kg) of volatile matter in the carboxylic styrene butadiene latex sample to be measured of table 2

Experiment number	Toluene	Ethylbenzene	Styrene	Solvent	Impurity
						1	10.0	15.2	389.4	----	864.5
2	10.2	15.6	397.2	----	881.4
						Average value	10.1	15.4	393.3	----	873.0

When the determinand evaporated in measuring carboxylic styrene butadiene latex sample, prior art ISO 13741-2 uses two Methylformamide makees solvent preparation inner mark solution and Standard Stock solutions, the chromatogram made are shown in Fig. 1.In Fig. 1,1 is two Methylformamide (solvent peak), 2 be toluene, and 3 be ethylbenzene, and 4 be styrene.Wherein, the peak shape of chromatographic peak 1 is poor, hangover is serious, It is larger to the toluene peak interference close with its retention time, and solvent peak in Fig. 1 in addition to determinand and impurity peaks content are higher； Prior art ISO 13741-2 makees solvent using dimethyl acetamide and prepares inner mark solution and Standard Stock solutions, is made Chromatogram is shown in Fig. 2.In Fig. 2,1 is toluene, and 2 dimethyl acetamides (solvent peak) are that 3 be ethylbenzene, and 4 be styrene.Wherein, color Spectral peak 2 trail seriously, to its retention time it is close ethylbenzene peak interference it is larger, and the solvent peak in Fig. 2 in addition to determinand and Impurity peaks content is also higher；Prior art ASTM D 4026-1987 makees solvent using water (nonionic surface active agent is added) Inner mark solution and Standard Stock solutions are prepared, the chromatogram made is shown in Fig. 3, and in Fig. 3,1 is toluene, and 2 be ethylbenzene, and 3 be benzene Ethylene.It can be seen from the figure that its impurity peaks is more, and content is higher；The method of the present invention is in measurement carboxylic styrene butadiene latex sample In evaporate determinand when, inner mark solution and Standard Stock solutions, the chromatogram made are prepared as solvent using water See Fig. 4.In Fig. 4,1 is toluene, and 2 be ethylbenzene, and 3 be styrene.In Fig. 4 in addition to not having solvent peak, impurity peaks are also relatively Less, content is lower.

Embodiment 2

(1) correction factor of the styrene, toluene and the ethylbenzene that evaporate in carboxylic styrene butadiene latex measures

The internal standard compound dioxane for weighing 24.0mg (being accurate to 0.1mg) is added in the volumetric flask of 50mL, is diluted with water To graduation mark, sealing is used as inner mark solution after shaking up；It takes the water of about 4.0mL to be added in the volumetric flask of 10mL, adds benzene second Three kinds of alkene, toluene and ethylbenzene standard substances respectively after about 220 μ L (every kind is accurate to 0.1mg), are diluted with water to graduation mark, after shaking up Sealing is used as Standard Stock solutions.

1.2mL water, 2.5mL inner mark solution are placed in ml headspace bottle with the Standard Stock solutions of 30 μ L and are mixed, head space is sealed Bottle, by the top tank air injecting chromatograph of mixed solution；In the condition of gas chromatograph are as follows: injector temperature is 190 DEG C, is shunted It is 40 DEG C than for 10:1, column head pressure 12.0psi, originating column temperature, retains 10min, risen to the heating rate of 3.5 DEG C/min 170 DEG C, do not retain, then rise to 250 DEG C again with the heating rate of 9.5 DEG C/min, do not retain, detector temperature is 250 DEG C；Top The condition of empty sample injector are as follows: sample injector furnace temperature is 86 DEG C, and sample injector furnace temperature soaking time is 60min, and sampling probe temperature is 100 DEG C, transmission line temperature is 110 DEG C, nebulizer gas pressure 20.0psi, sample injection time 0.01min, and pulling out the needle time is 0.2min, is added It is measured under pressure 3.0min, obtains the peak area of internal standard compound and three kinds of standard substances, correction factor is calculated by formula (1):

In formula:

R_f--- the correction factor of standard substance；

A_s--- the peak area of internal standard compound；

m_v ^o--- the quality of step (1) ml headspace bottle Plays substance, unit are gram (g)；

A_v--- the peak area of standard substance；

m_s ^o--- the quality of internal standard compound in step (1) ml headspace bottle, unit are gram (g).

Calculated correction factor is shown in Table 3.

The correction factor of the styrene, toluene and the ethylbenzene that are evaporated in 3 carboxylic styrene butadiene latex of table

Determinand	Correction factor
		Toluene	0.6
Ethylbenzene	1.1
		Styrene	2.4

(2) content of the three kinds of determinand styrene, toluene and ethylbenzene that are evaporated in carboxylic styrene butadiene latex sample to be measured Measurement

The carboxylic styrene butadiene latex sample for weighing 0.5g, is added in ml headspace bottle；Then the water and 2.1mL of 1.0mL is added After inner mark solution, ml headspace bottle is sealed；At 86 DEG C, 60min is heated, after sample to be tested vapor liquid equilibrium, at the middle and upper levels by ml headspace bottle Gas injecting chromatograph obtains internal standard compound and three kinds of determinand styrene, toluene and second under conditions of above-mentioned gas chromatograph The peak area of benzene；The content of each determinand in carboxylic styrene butadiene latex sample to be measured is calculated according to formula (2):

In formula:

A_i--- the peak area of determinand；

m_s--- the quality of internal standard compound in step (2) ml headspace bottle, unit are milligram (mg)；

R_f--- the correction factor obtained by formula (1)；

A_s--- the peak area of internal standard compound；

m_d--- the quality of carboxylic styrene butadiene latex sample to be measured in step (2) ml headspace bottle, unit are kilogram (kg).

Calculate containing for three kinds of determinand styrene, toluene and the ethylbenzene evaporated in carboxylic styrene butadiene latex sample to be measured Amount is shown in Table 4.

The content (unit: mg/kg) of volatile matter in the carboxylic styrene butadiene latex sample to be measured of table 4

Experiment number	Toluene	Ethylbenzene	Styrene	Solvent	Impurity
						1	8.3	17.6	418.2	----	918.1
2	8.0	17.1	439.7	----	943.7
						Average value	8.2	17.4	429.0	----	931.0

When the determinand evaporated in measuring carboxylic styrene butadiene latex sample, prior art ISO 13741-2 uses two Methylformamide (or dimethyl acetamide) makees solvent and prepares inner mark solution and Standard Stock solutions, prior art ASTM D 4026-1987 makees solvent using water (nonionic surface active agent is added) and prepares inner mark solution and Standard Stock solutions, this three The determinand that the chromatogram and the method for the present invention that the kind prior art is made evaporate in measurement carboxylic styrene butadiene latex sample When, inner mark solution is prepared as solvent using water and Standard Stock solutions, the chromatogram made are similar to Example 1.Overcome When dimethylformamide makees solvent in prior art ISO 13741-2, solvent peak hangover is serious, disturbs first in standard substance When the appearance or dimethyl acetamide of benzene make solvent, solvent peak hangover, the appearance of ethylbenzene in severe jamming standard substance, together When avoiding prior art ASTM D 4026-1987 direct injected, many non-targeted compounds in rubber latex sample can be drawn Enter chromatograph.

Embodiment 3

(1) correction factor of the styrene, toluene and the ethylbenzene that evaporate in carboxylic styrene butadiene latex measures

The internal standard compound dioxane for weighing 16.0mg (being accurate to 0.1mg) is added in the volumetric flask of 50mL, is diluted with water To graduation mark, sealing is used as inner mark solution after shaking up；It takes the water of about 3.5mL to be added in the volumetric flask of 10mL, adds benzene second Three kinds of alkene, toluene and ethylbenzene standard substances respectively after about 210 μ L (every kind is accurate to 0.1mg), are diluted with water to graduation mark, after shaking up Sealing is used as Standard Stock solutions.

1.1mL water, 2.5mL inner mark solution are placed in ml headspace bottle with the Standard Stock solutions of 25 μ L and are mixed, head space is sealed Bottle, by the top tank air injecting chromatograph of mixed solution；In the condition of gas chromatograph are as follows: injector temperature is 230 DEG C, is shunted It is 50 DEG C than for 10:1, column head pressure 12.0psi, originating column temperature, retains 10min, risen to the heating rate of 4.5 DEG C/min 170 DEG C, do not retain, then rise to 250 DEG C again with the heating rate of 10.5 DEG C/min, do not retain, detector temperature is 290 DEG C； The condition of head-space sampler are as follows: sample injector furnace temperature is 88 DEG C, and sample injector furnace temperature soaking time is 65min, and sampling probe temperature is 100 DEG C, transmission line temperature is 110 DEG C, nebulizer gas pressure 20.0psi, sample injection time 0.04min, and pulling out the needle time is 0.2min, is added It is measured under pressure 3.0min, obtains the peak area of internal standard compound and three kinds of standard substances, correction factor is calculated by formula (1):

In formula:

R_f--- the correction factor of standard substance；

A_s--- the peak area of internal standard compound；

m_v ^o--- the quality of step (1) ml headspace bottle Plays substance, unit are gram (g)；

A_v--- the peak area of standard substance；

m_s ^o--- the quality of internal standard compound in step (1) ml headspace bottle, unit are gram (g).

Calculated correction factor is shown in Table 5.

The correction factor of the styrene, toluene and the ethylbenzene that are evaporated in 5 carboxylic styrene butadiene latex of table

Determinand	Correction factor
		Toluene	0.5
Ethylbenzene	0.9
		Styrene	2.5

(2) content of the three kinds of determinand styrene, toluene and ethylbenzene that are evaporated in carboxylic styrene butadiene latex sample to be measured Measurement

The carboxylic styrene butadiene latex sample for weighing 0.4g, is added in ml headspace bottle；Then the water and 1.9mL of 0.8mL is added After inner mark solution, ml headspace bottle is sealed；At 88 DEG C, 65min is heated, after sample to be tested vapor liquid equilibrium, at the middle and upper levels by ml headspace bottle Gas injecting chromatograph obtains internal standard compound and three kinds of determinand styrene, toluene and second under conditions of above-mentioned gas chromatograph The peak area of benzene；The content of each determinand in carboxylic styrene butadiene latex sample to be measured is calculated according to formula (2):

In formula:

A_i--- the peak area of determinand；

m_s--- the quality of internal standard compound in step (2) ml headspace bottle, unit are milligram (mg)；

R_f--- the correction factor obtained by formula (1)；

A_s--- the peak area of internal standard compound；

m_d--- the quality of carboxylic styrene butadiene latex sample to be measured in step (2) ml headspace bottle, unit are kilogram (kg).

Calculate containing for three kinds of determinand styrene, toluene and the ethylbenzene evaporated in carboxylic styrene butadiene latex sample to be measured Amount is shown in Table 6.

The content (unit: mg/kg) of volatile matter in the carboxylic styrene butadiene latex sample to be measured of table 6

Experiment number	Toluene	Ethylbenzene	Styrene	Solvent	Impurity
						1	7.4	20.7	358.7	----	832.5
2	7.9	21.3	369.1	----	819.7
						Average value	7.7	21.0	363.9	----	826.1

When the determinand evaporated in measuring carboxylic styrene butadiene latex sample, prior art ISO 13741-2 uses two Methylformamide (or dimethyl acetamide) makees solvent and prepares inner mark solution and Standard Stock solutions, prior art ASTM D 4026-1987 makees solvent using water (nonionic surface active agent is added) and prepares inner mark solution and Standard Stock solutions, this three The determinand that the chromatogram and the method for the present invention that the kind prior art is made evaporate in measurement carboxylic styrene butadiene latex sample When, inner mark solution is prepared as solvent using water and Standard Stock solutions, the chromatogram made are similar to Example 1.Overcome When dimethylformamide makees solvent in prior art ISO 13741-2, solvent peak hangover is serious, disturbs first in standard substance When the appearance or dimethyl acetamide of benzene make solvent, solvent peak hangover, the appearance of ethylbenzene in severe jamming standard substance, together When avoiding prior art ASTM D 4026-1987 direct injected, many non-targeted compounds in rubber latex sample can be drawn Enter chromatograph.

Comparative example 1~3

According to method as defined in international standard ISO 13741-2, made using dimethylformamide (or dimethyl acetamide) Solvent prepares the mixed solution of internal standard compound and standard substance, surveys to the content of the impurity evaporated in carboxylic styrene butadiene latex Fixed, measurement the results are shown in Table 7.

From 1~embodiment of embodiment 3 and 1~comparative example of comparative example 3 as can be seen that for carboxylic styrene butadiene latex, embodiment 1 The average value for measuring impurity content is 873.0mg/kg, and the average value that embodiment 2 measures impurity content is 931.0mg/kg, is implemented The average value that example 3 measures impurity content is 826.1mg/kg, and the average value that comparative example 1 measures impurity content is 956.3mg/kg, The average value that comparative example 2 measures impurity content is 1053.0mg/kg, and the average value that comparative example 3 measures impurity content is 900.7mg/.By being compared above as can be seen that the method for the present invention evaporates in measuring carboxylic styrene butadiene latex sample to be measured Determinand when, inner mark solution and Standard Stock solutions are prepared as solvent using water, not only overcome prior art ISO Influence of the dimethylformamide (or dimethyl acetamide) to object in 13741-2, and carboxylic styrene butadiene latex to be measured can be made The impurity content evaporated in sample reduces by 5%~15% compared with the prior art (international standard ISO 13741-2).

The content of the impurity volatilized in carboxylic styrene butadiene latex sample to be measured in 7 comparative example 1-3 of table

Comparative example 4~6

According to method as defined in American Society Testing and Materials standard ASTM D 4026-1987, (added using water as solvent Enter nonionic surface active agent) mixed solution of preparing internal standard compound and standard substance, to being evaporated in carboxylic styrene butadiene latex The content of impurity be measured, measurement the results are shown in Table 8.

From 1~embodiment of embodiment 3 and 4~comparative example of comparative example 6 as can be seen that for carboxylic styrene butadiene latex, embodiment 1 The average value for measuring impurity content is 873.0mg/kg, and the average value that embodiment 2 measures impurity content is 931.0mg/kg, is implemented The average value that example 3 measures impurity content is 826.1mg/kg, and the average value that comparative example 4 measures impurity content is 1014.2mg/kg, The average value that comparative example 5 measures impurity content is 1168.2mg/kg, and the average value that comparative example 6 measures impurity content is 1018.7mg/.By being compared above as can be seen that the method for the present invention evaporates in measuring carboxylic styrene butadiene latex sample to be measured Determinand when, inner mark solution and Standard Stock solutions are prepared as solvent using water, carboxylic styrene butadiene latex sample to be measured can be made In the impurity content that evaporates compared with the prior art (ASTM D 4026-1987) reduce by 10%~30%.

The content of the impurity volatilized in carboxylic styrene butadiene latex sample to be measured in 8 comparative example 4-6 of table

Certainly, the present invention can also have other various embodiments, without deviating from the spirit and substance of the present invention, ripe Various corresponding changes and modifications, but these corresponding changes and modifications can be made according to the present invention by knowing those skilled in the art It all should belong to the protection scope of the claims in the present invention.

Claims (10)

1. the measuring method of residue styrene and toluene, ethylbenzene in a kind of carboxylic styrene butadiene latex, which is characterized in that use internal standard Method measurement, internal standard compound is dioxane, and solvent is water, including following two step: 1) evaporating in carboxylic styrene butadiene latex The correction factor measurement of residue styrene and toluene, ethylbenzene, 2) three kinds evaporated in carboxylic styrene butadiene latex sample to be measured The assay of determinand styrene, toluene and ethylbenzene.

2. measuring method according to claim 1, which is characterized in that in step 1) the correction factor measurement needs to prepare Solution and Standard Stock solutions are marked, include that three kinds of standard substance styrene, toluene and ethylbenzene, internal standard compound are in Standard Stock solutions Dioxane, solvent are water, and according to the peak area of three kinds of standard substances, the correction of three kinds of standard substances is calculated by formula (1) The factor:

In formula: R_f--- the correction factor of standard substance；A_s--- the peak area of internal standard compound；m_v ^o--- the quality of standard substance, it is single Position is gram；A_v--- the peak area of standard substance；m_s ^o--- the quality of internal standard compound, unit are gram.

3. measuring method according to claim 1, which is characterized in that the step 2) three kinds of determinand styrene, toluene Assay with ethylbenzene is the peak area according to internal standard compound and three kinds of determinand styrene, toluene and ethylbenzene；It is counted by formula (2) Calculate the content of each determinand in carboxylic styrene butadiene latex sample to be measured:

In formula: A_i--- the peak area of determinand；m_s--- the quality of internal standard compound, unit are milligram；R_f--- it is obtained by formula (1) The correction factor arrived；A_s--- the peak area of internal standard compound；m_d--- the quality of carboxylic styrene butadiene latex sample to be measured, unit are kilogram.

4. measuring method according to claim 2, which is characterized in that the process for preparation of the inner mark solution are as follows: configuration is dense Degree range is 300 μ g/cm³~600 μ g/cm³Inner mark solution, internal standard compound is dioxane, and solvent is water；Standard Stock solutions Including three kinds of standard substance styrene, toluene and ethylbenzene: the volume ratio of three kinds of standard substance styrene, toluene and ethylbenzene and solvent For 1:30~1:60, solvent is water.

5. measuring method according to claim 2, which is characterized in that the specific continuous mode of the correction factor are as follows: press Water, inner mark solution and Standard Stock solutions are placed in the top of head-space sampler by the proportion of 1mL:2mL:15 μ L~1mL:4mL:45 μ L It is mixed in empty bottle, ml headspace bottle is sealed, by the top tank air injecting chromatograph of mixed solution；According to the peak face of three kinds of standard substances Product, the correction factor of three kinds of standard substances is calculated by formula (1).

6. measuring method according to claim 3, which is characterized in that three kinds of determinand styrene, toluene and ethylbenzene Assay process it is as follows: weigh 0.3g~1g carboxylic styrene butadiene latex sample to be measured, be added to the head space of head-space sampler In bottle；Then after the water of 0.8mL~1.1mL and the inner mark solution of 1.8mL~2.2mL is added, ml headspace bottle is sealed；70 DEG C~ At 90 DEG C, 0.5h~2h is heated, after the sample vapor liquid equilibrium in ml headspace bottle, by ml headspace bottle gas injecting chromatograph at the middle and upper levels, Obtain the peak area of internal standard compound and three kinds of determinand styrene, toluene and ethylbenzene；Carboxy styrene-butadiene rubber to be measured is calculated according to formula (2) The content of each determinand in milk sample product.

7. according to the described in any item measuring methods of claim 5 or 6, which is characterized in that the chromatographic condition are as follows: sample introduction Mouth temperature is 150 DEG C~250 DEG C, split ratio 10:1, column head pressure 12psi, and starting column temperature is 30 DEG C~50 DEG C, is retained 10min rises to 170 DEG C with 2 DEG C/min~6 DEG C/min heating rate, does not retain, then again with 8 DEG C/min~11 DEG C/min Heating rate rise to 250 DEG C, do not retain, detector temperature be 250 DEG C~300 DEG C.

8. measuring method according to claim 7, which is characterized in that the chromatographic condition are as follows: injector temperature is 150 DEG C~250 DEG C, split ratio 10:1, column head pressure 12psi, starting column temperature is 30 DEG C~40 DEG C, retains 10min, with 3 DEG C/min~5 DEG C/min heating rate rises to 170 DEG C, do not retain, then again with 9 DEG C/min~10 DEG C/min heating rate 250 DEG C are risen to, is not retained, detector temperature is 250 DEG C~300 DEG C.

9. according to the described in any item measuring methods of claim 5 or 6, which is characterized in that the condition of the head-space sampler are as follows: Sample injector furnace temperature is 80 DEG C~95 DEG C, and sample injector furnace temperature soaking time is 40min~70min, and sampling probe temperature is 100 DEG C, is passed Defeated line temperature is 110 DEG C, nebulizer gas pressure 20psi, and sample injection time is 0.01min~0.04min, and pulling out the needle time is 0.2min, Pressurize 3.0min.

10. measuring method according to claim 9, which is characterized in that the condition of the head-space sampler are as follows: sample injector furnace Temperature is 90 DEG C~95 DEG C, and sample injector furnace temperature soaking time is 55min~65min, and sampling probe temperature is 100 DEG C, transmission line temperature It is 110 DEG C, nebulizer gas pressure 20psi, sample injection time is 0.02min~0.03min, and pulling out the needle time is 0.2min, pressurization 3.0min。