KR100663131B1 - Method for measuring tactic unit distribution in homo polypropylene using thermal fractionated crystallization and differential scanning calorimetry analysis - Google Patents

Abstract

The present invention relates to a method for measuring the tacticity distribution of homopolypropylene by differential scanning calorimetry (TFC) using thermal fractionated crystallization (TFC). More specifically, in the method for measuring the distribution of tacticity structure of homo polypropylene, lamellae of different sizes are formed according to each temperature while melting the homo polypropylene by thermal fractional crystallization process and cooling the same repeatedly by quenching and isothermally. After fractional crystallization by star, it is to provide a method for measuring the tacticity distribution of homopolypropylene through the comparison of the partial calorie ratio obtained through the melting curve appearing at each temperature while heating and melting it.

Thermal Fractional Crystallization (TFC), Differential Calorimetry (DSC), Homo Polypropylene, Tacticity Distribution

Description

Method for measuring tactic unit distribution in homo polypropylene using thermal fractionated crystallization and differential scanning calorimetry analysis}             

1 is an exemplary view showing a result of melting measurement according to a conventional method. In this case, the calorimetric measurement results of the polymer having an isotactic index of 96 are indicated by dotted lines, and the calorimetric measurement results of the polymer having an isotactic index of 92.5 are indicated by solid lines.

2 is an exemplary view showing a result of melting measurement according to the method of the present invention. In this case, the calorimetric measurement results of the polymer having an isotactic index of 96 are indicated by dotted lines, and the calorimetric measurement results of the polymer having an isotactic index of 92.5 are indicated by solid lines.

3 is a graph showing partial calorie ratio (PA) for each temperature region for obtaining a tacticity distribution index according to the method of the present invention. In this case, the dotted line represents a polymer having an isotactic index of 92.5, and the solid line represents a polymer having an isotactic index of 87 and 96, respectively.

4 is a graph illustrating a tacticity distribution index (DI) for each temperature region calculated using the partial calorie ratio of FIG. 3 according to the method of the present invention. In this case, the dotted line represents a polymer having an isotactic index of 92.5, and the solid line represents a polymer having an isotactic index of 87 and 96, respectively.

The present invention relates to a method for measuring the tacticity distribution of homopolypropylene by differential scanning calorimetry (TFC) using thermal fractionated crystallization (TFC). More specifically, the present invention relates to a measurement method using a differential scanning calorimeter as a method for evaluating the tacticity structure distribution of homopolypropylene more easily and more accurately.

In general, the parts with structural defects in the polymer chain interfere with the crystallization process, and the distribution thereof causes the crystal size to be distributed according to the distribution of the crystallization temperature during cooling, so that the higher the crystal size, the higher the melt size in the melt measurement of the differential scanning calorimeter. Measured by temperature and heat of fusion.

Tactical structure of polypropylene is divided into three types, isotactic, atactic and syndiotactic. The basic molecular structure of polypropylene is a (-CH ₂ -CH (CH ₃ )-) _n structure in which methyl groups are alternately bonded to a main chain of carbon atoms. If the main chain is assumed to be in a flat zigzag shape, the methyl group is present only on one side above or below the plane, and each monomer unit has the same stereo coordination with respect to the molecular chain, which is called isotactic structure. The case is called atactic structure. In addition, the case where a given methyl group is regularly arranged alternately up and down the reference plane in a planar zigzag form is called a syndiotactic structure.

In general, polypropylene is mostly an isotactic structure, and at this time includes an atactic structure to some extent. The present invention targets the general isotactic polypropylene, i.e., homopolypropylene consisting of a small amount of atactic polypropylene and a large amount of isotactic polypropylene.

Compared to polyethylene, polypropylene is a polymer whose physical properties are determined by the influence of stereoregularity. Especially in the case of homo polypropylene, the isotactic structure in which the methyl group attached to the main chain is present in three-dimensionally identical form is easy to crystallize in a regular structure, but the atactic structure is difficult to crystallize. And the melting temperature, which affect the final properties.

The tacticity of such homopolypropylenes is generally indicated by isotactic index (II). This is an index indicating the proportion of isotactic components in the homopolypropylene as a sample.

This isotactic index has been mainly calculated by solvent extraction method, which was extracted with heptane solvent, solubility was regarded as atactic content and insoluble content as isotactic content and its weight ratio was calculated and expressed as isotactic index. .

In addition, it can also be measured by nuclear magnetic resonance (NMR) method, which calculates the ratio of methyl groups continuously in only one direction of the main chain plane in the spectrum as a result of NMR measurement, using the Pentad method. The method is mainly used to obtain a ratio of five or more methyl groups continuously placed in one direction in the polymer backbone.

Therefore, the solvent extraction method or the NMR measurement method is a general method, and the isotactic ratio shown at this time may be referred to as an average value in the whole molecule. Through this, the distribution of the tactile structure in the molecule or between molecules is unknown. There was.

In order to solve this problem, the TREF method has been developed, which is a separation method for identifying heterogeneity between molecules, and is a classification method according to the difference in crystallinity due to various compositions between polymer chains. This method is based on the principle of crystallization and dissolution. Polymer fractions with different chemical composition are extracted according to the degree of crystallinity, and when the sample is melted in an appropriate solvent and temperature and cooled slowly, each crystallization fraction is supported according to the degree of crystallinity. ) Precipitated and then solvent extraction under elevated temperature conditions to obtain polymer fractions.

When the polypropylene is applied according to the above method, each fraction is separated according to the degree of crystallinity or tacticity. When each separated sample is subjected to individual NMR measurement, the isotactic index of the separation is measured, and thus the tactile in the sample. The city distribution can be calculated. However, this TREF method has the disadvantage of requiring long time and high cost while ensuring the integrity of fractionation.

Therefore, the technical problem of the present invention is to develop a method for measuring the tacticity distribution of homopolypropylene, and to take a thermal fractional crystallization process as a pretreatment process for crystallizing each of the different size lamellar formed according to the tacticity distribution, A method for obtaining a tacticity distribution using the calorie ratio for each melting region obtained by melting measurement is invented.

In general, the crystallization of homopolypropylene, a stereoregular polymer, depends on the isotactic index (II) of the polymer chain, and the measured isotactic index is an average value of the entire chain. In the present invention, the TAC-differential scanning calorimeter is used for evaluating the Tacticity distribution structure to determine the Tacticity distribution structure. (DSC) analysis to measure.

Accordingly, an object of the present invention is a method for measuring the distribution of tacticity structure of homopolypropylene, wherein the homopolypropylene is melted by thermal fractional crystallization, and it is differently formed according to each temperature while cooling it repeatedly by quenching and isothermally. After fractional crystallization for each lamellae of size, it is to provide a method for measuring the tacticity distribution of homo polypropylene through the comparison of the partial calorie ratio obtained through the melting curve appearing at each temperature while melting and heating it.

In addition, the isothermal temperature for the step annealing from the molten state for fractional determination of the lamellae is separated at intervals of 10 ° C or 20 ° C, the cooling rate between the isothermal stage is 100 ~ 200 ° C / min, the retention of the isothermal phase for fractional determination The time is characterized by 2 to 4 hours.

In addition, the temperature increase rate for melting after the thermal fractional crystallization treatment is 5 to 10 ℃ / min, characterized in that the initial temperature of the measurement section is 40 ℃, the end temperature is 200 ℃.

Finally, the tacticity distribution can be expressed by dividing the partial calorie ratio (%) of each region by the partial calorific ratio (%) of the highest temperature region, which is 1 By fixing with, the comparison between samples becomes easy.

Hereinafter, the present invention will be described in more detail.

In the case of polyethylene polymerized using 1-olefin as a comonomer, the final physical properties vary depending on the type and content of the comonomer as well as the distribution. Differential scanning calorimetry (DSC) measurements using thermal fractional crystallization (TFC) are used for the analysis of intra-chain comonomer distribution. When the melt measurement is performed after the crystals of different sizes are formed, the melt curves separated by the crystal size can be obtained differently from the normal melt curves measured after melting by cooling by general slow cooling (10 ° C./min.). Each melting temperature and partial calorie ratio (PA) shows the lamellar content ratio of the corresponding size to obtain comonomer distribution, and the comonomer distribution index (DI: Distribution index) can be obtained by the ratio between the partial calories. have.

The most important point in the selection of thermal fractional crystallization conditions of homo polypropylene is the crystallization temperature and crystallization time. The isothermal temperature for the stepwise annealing from the molten state is composed of 10 ° C. or 20 ° C. separated and isothermal residence time at each temperature. Is selected from 2 to 12 hours.

In other words, when the sample is melted and the temperature is stepwise lowered by quenching and isothermal stepwise, crystals of the size corresponding to the isothermal temperature at each cooling and isothermal temperature are stably crystallized. This means that at higher temperatures, the largest crystals crystallize intensively, and at lower temperatures, smaller crystals crystallize sequentially. Therefore, when the molten sample is cooled while crystallizing at a fixed temperature of each stage, it forms a lamellar group (polymer fraction) having different sizes, and undergoes a thermal fractional crystallization process in which crystals of various sizes are produced according to crystallization.

The isothermal crystallization conditions for thermal fractional crystallization are based on the thermodynamic stability of crystals of different sizes, and the isothermal crystallization at each fixed stage proceeds to a separate crystallization process in which lamellae of different sizes are produced.

Homopolypropylene has defects in the atactic structure in the chain, which reduces the lamellar size due to chain folding of the isotactic chain, and widens and diversifies the lamellar size distribution if the distribution is not uniform. Thus, thermal fractional crystallization fractionates molten homopolypropylene at different stages of temperature, crystallizing it by lamellar size, which is the same effect as classified by inter-chain tacticity. For this purpose, the completely melted sample is annealed (crystallized) sequentially by decreasing the temperature from the initial melting temperature and crystallized, and then the endothermic melting curve and the heat amount separated by the crystal size are obtained by the elevated temperature.

After thermal fractional crystallization, heating at a rate of 10 ° C / min or 5 ° C / min yields a separate melting curve corresponding to the amount of each crystal, because crystals with different sizes due to the difference in tacticity between the chains It is a distribution curve.

Thus, the total heat of melt represents the average crystallinity of the entire chain, and the partial calorie ratio (PA) of each of the separated melt regions represents the fraction for the chains with similar tacticity. The higher the melting temperature, the larger the crystal size and the higher isotactic index. Therefore, the distribution index (DI) can be obtained from the ratio between partial calories.

Since the isotactic index (II) obtained in the general analysis is the average of the entire chain, it cannot represent the difference of the tacticity distribution between samples, and the same samples as well as samples with different isotactic indexes from the melt measurement results after thermal fractional crystallization. The tacticity distribution can be compared accurately between the livers.

The tacticity distribution analysis method using the measurement result of this invention is as follows.

The definitions of terms used in this analysis are as follows.

1) Total melt calories (J / g): average crystallinity of the whole chain

2) Partial Calorie Ratio (%) = (Partial Calorie / Total Calorie of Each Melting Zone) × 100

   : The fraction of chains with similar crystal size, ie similar tacticity, the higher the melting temperature, the higher the isotactic index.

3) Tacticity distribution index (DI): ratio between partial calorie ratios

    = Partial calorie ratio (%) of each zone / partial calorie ratio (%) of the highest temperature zone

: Comparison between samples is easy by fixing partial calorie ratio (%) of highest high temperature range to 1. The larger the distribution index in the region with low melting temperature, the higher the fraction of chains with lower tacticity.

The present invention will be described in more detail with reference to the following examples.

(Examples 1-3)

As a result of melting measurements after thermal fractional crystallization of three types of homopolypropylenes having different isotactic indices, the total melting temperature and calorific value were compared with those measured after melting by cooling by general slow cooling (10 ° C / min.). This increased and was proportional to the isotactic index of the sample. However, as a result of analysis using partial calorie ratio and tacticity distribution index from melting curves separated by crystal size, the difference in tacticity distribution between homopolypropylene samples is different from the isotactic index difference between samples. It can be seen that it must be obtained by analysis. Table 1 shows the isotactic index and melting temperature of each sample.

Sample History Melt measurement result after TFC treatment Sample Name Isotactic index Melting temperature (℃) Melt Calorie (J / g) A 87 169 119.5 B 92.5 169.7 122 C 96 171.4 141.3

2 is an exemplary view showing a result of melting measurement according to the method of the present invention. In this case, the calorimetric measurement results of the polymer having an isotactic index of 96 are indicated by dotted lines, and the calorimetric measurement results of the polymer having an isotactic index of 92.5 are indicated by solid lines.

3 is a graph showing partial calorie ratio (PA) for each temperature region for obtaining a tacticity distribution index according to the method of the present invention. In this case, the dotted line represents a polymer having an isotactic index of 92.5, and the solid line represents a polymer having an isotactic index of 87 and 96, respectively. As shown in the figure, the difference between the isotactic index is large for the samples with isotactic indices of 87 and 92.5 but the tacticity distribution is similar with only slight differences. Therefore, it can be seen that the isotactic index and the tacticity distribution of the entire sample are different, and the tacticity distribution can be compared through the results of the present measurement method. Table 2 shows the partial calorie ratio (%) for each temperature range (10 ° C interval).

   Temperature (℃) II 65 75 85 95 105 115 125 135 145 155 165 175 87 1.6 1.2 1.2 1.1 1.3 1.9 2.1 3.5 5.8 16.2 38.1 25.9 92.5 1.4 1.1 0.9 0.7 0.7 1.2 1.5 2.8 5.3 16.8 38.4 29.1 96 1.6 1.4 1.4 1.4 1.5 1.9 2.1 3.1 5.2 14.1 27.3 39.1

4 is a graph illustrating a tacticity distribution index (DI) for each temperature region calculated using the partial calorie ratio of FIG. 3 according to the method of the present invention. In this case, the dotted line represents a polymer having an isotactic index of 92.5, and the solid line represents a polymer having an isotactic index of 87 and 96, respectively. Comparison of distribution indices enables comparison of the difference in tactile distribution between samples more clearly. In other words, the difference between the 96 and 92.5 samples is greater than that of the 96 and 92.5 samples, and the 87 and 92.5 samples have a lower content of chains with lower tacticity. It is possible to compare between temperatures, ie content between crystal sizes. Table 3 shows the tacticity distribution index for each temperature range (10 ° C interval).

  Temperature (℃) II 65 75 85 95 105 115 125 135 145 155 165 175 87 0.06 0.05 0.04 0.04 0.05 0.07 0.08 0.14 0.22 0.63 1.47 One 92.5 0.05 0.04 0.03 0.02 0.02 0.04 0.05 0.1 0.18 0.58 1.32 One 96 0.04 0.04 0.03 0.04 0.04 0.05 0.05 0.08 0.13 0.36 0.67 One

The effect of the present invention is a novel method for obtaining easier and more accurate tacticity distribution of homopolypropylene through thermal fractional crystallization and DSC measurement. To this end, we invented the conditions of the thermal fractional crystallization process, which is a pretreatment process for crystallizing lamellae of different sizes formed according to the tacticity distribution of the homopolypropylene chain, and utilizing the calorie ratio for each melting region obtained from the melt measurement. It provides an analysis method to find the tee distribution.

Through the present invention, it can be seen that the difference in the tacticity distribution of the homopolypropylene is different from the isotactic index difference, so that it should be obtained by a separate intrinsic structural analysis, and the isotactic index through the melt measurement result after thermal fractional crystallization. It is possible to accurately compare the tacticity distribution between different samples as well as between different samples.

Claims (5)

In the method for measuring the distribution of tacticity structure of homo polypropylene, the differential polycrystallization is carried out by melting the homo polypropylene through the step of thermal fractional crystallization and cooling the polypropylene homogeneously in a stepwise manner, and cooling the isothermal temperature repeatedly. Method of measuring the tacticity distribution of homopolypropylene by comparing the partial calorie ratio obtained through the melting curve appearing at each temperature while heating and melting it 2. The method of claim 1, wherein the isothermal temperature for the stepwise annealing from the molten state for fractional determination of the lamellae is separated by 10 ° C or 20 ° C intervals and isothermally crystallized stepwise. Way The tacticity of the homopolypropylene according to claim 1, wherein the cooling rate between the isothermal stages for fractional determination of lamellae is 100 to 200 ° C / min, and the residence time of the isothermal stage for fractional determination is 2 to 4 hours. Measurement method of distribution chart The tacticity distribution diagram of homopolypropylene according to claim 1, wherein the temperature increase rate for melting after the thermal fractional crystallization treatment is 5 to 10 ° C / min, the initial temperature of the measurement section is 40 ° C, and the end temperature is 200 ° C. How to measure The tacticity distribution index of claim 1 is expressed as the partial calorie ratio (%) of each region divided by the partial calorie ratio (%) of the highest temperature region, wherein the partial calorie ratio (%) of the highest temperature region is calculated. ) Is a method of measuring the tacticity distribution of homopolypropylene, characterized in that fixed to 1

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