KR100655973B1 - Method of measurement for scrap contents in talc-polypropylene composite using rheological analysis technique - Google Patents

Abstract

A method for measuring scrap content of polypropylene composite is provided to conveniently, rapidly and accurately analyze the scrap content by using a secondary functional formula showing the relation between the elastic viscosity ratio of a formed article and the scrap content, thereby predicting quality lowering of the formed article due to over-excessive use of the scrap. The method for measuring scrap contents of polypropylene composite containing 20 wt.% of talc comprises the steps of: (a) preparing a virgin formed article sample of the composite; (b) preparing a virgin formed article sample of the composite; (c) preparing a scrap-containing formed article sample of the composite; (d) performing a dynamic frequency sweep test of advanced rheometric expansion system(ARES) on each of the sample so as to measure the ratio of the elastic viscosity of the scrap-containing formed article sample to the elastic viscosity of the virgin formed article sample; and (e) substituting the elastic viscosity ratio for X in a secondary functional formula to calculate the amount of scrap content Y, where the secondary functional formula is represented as Y = a + bX + cX^2(wherein a is constant, b is a coefficient of X and c is a coefficient of X^2).

Description

Measurement method of scrap content of talc-containing polypropylene composites using rheological properties {Method of measurement for scrap contents in talc-polypropylene composite using rheological analysis technique}

1 is a graph of a cole-cole plot of the dynamic frequency sweep test of an advanced Rheometric Expansion System (ARES) of a polypropylene composite having various scrap contents. .

FIG. 2 is a graph illustrating the experimental formula of the ratio of the elastic viscosity of the scrap-containing molded product specimens and the scrap content to the elastic viscosity of the virgin molded product specimens.

The increasing use of talc in the plastics industry not only reduces the amount of resin, but also increases strength, increases heat resistance, reduces shrinkage and circulation time in castings, and improves melt flow. . Particularly, in the case of fine powder, the amount of use for the production of engineering plastics used as automotive parts is increasing.

In addition, polypropylene is the most widely used automotive interior material because of its low cost, easy casting and processing, and excellent mechanical properties.In particular, polypropylene increases the strength against deformation at high temperatures when talc is included. Talc-containing polypropylene composites are also widely used.

In the manufacture of molded articles of talc-containing polypropylene composite material, scrap is inevitably generated, and it is common in commercial production to mix and recycle a certain amount of virgin resin that does not contain the scrap. However, when the amount of scrap used is more than a certain amount, physical properties such as yield point, tensile strength, flexural strength, etc. of the molded product may be lowered, and the molecular weight distribution of the polymer may be widened, which may make molding difficult and may cause injection failure during molding.

Korean Patent No. 270899 describes a method for utilizing waste polypropylene scrap in formwork for concrete production, and Korean Patent No. 90-005412 includes fatty acid metal salts and alkaline earth metal oxides that do not deteriorate in physical properties even when the scrap is contained. A polypropylene composition is described, and Korean Patent No. 266384 describes a method for manufacturing an automobile bumper using foamed crosslinked polyethylene foam scrap, and Korean Patent No. 187102 describes a method for recycling polyethylene terephthalate carpet scrap. Doing.

Conventional methods for analyzing scrap usage have not been reported yet, but the management of materials through mechanical properties is not a problem, but the quality is not a problem immediately after the manufacture, but there may be a problem in the future. There was a problem that could not confirm the use

Accordingly, an object of the present invention is to recycle a scrap of talc-containing polypropylene composite material, and to easily and quickly and accurately analyze the scrap content by using a quadratic function representing the relationship between the ratio of the elastic viscosity of the molded article and the scrap content. Providing anticipation of deterioration of molded parts due to excessive use of scrap, and facilitating quality control.

The present invention provides a method for measuring the scrap content of a polypropylene composite material containing 20% by weight of talc, the method comprising: preparing a virgin molded product specimen of the composite material; Preparing a molded article specimen containing the scrap of the composite material; Performing a dynamic frequency sweep test (ARES) of the Advanced Rheometric Expansion System (ARES) to measure the ratio of the elastic viscosity of the scrap-containing molded product specimen to the elastic viscosity of the virgin molded product specimen; It is characterized in that it provides a method for measuring the scrap content of the polypropylene composite material containing 20% by weight of talc, the step of calculating the scrap content by substituting the ratio of the elastic viscosity to the following second functional formula, The quadratic function is expressed as Y = a + b X + c X ² , Y is the scrap content, X is the ratio of elastic viscosity, and the elastic viscosity of the scrap-containing molded product specimen is divided by the elastic viscosity of the virgin molded product specimen, and a is Constant values b and c are the coefficients of X and X ² , respectively.

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

The polypropylene composite material containing 20% by weight of talc of the present invention is an olefin-based nonpolar polymer represented by the following formula (1): the number average molecular weight is 5.51 X 10 ⁴ , the weight average molecular weight is 1.48 X 10 ⁴ , the molecular weight distribution value is 2.7, melting The index is 9 g / 10min.

The talc-containing polypropylene composite material has a simple linear structure and has a structure that is resistant to pressure and heat, which are the biggest influences of the extrusion process several times, but the molecular weight is reduced by cutting of the carbon skeleton during the extrusion process. Therefore, the scrap content can be measured by measuring the rheological properties through the ARES (Advanced Rheometric Expansion System).

Hereinafter, the present invention will be described in more detail with reference to Examples, but the following Examples are intended to illustrate the present invention, and do not limit the present invention.

Example  1: Manufacture of standard molded parts

Prepare Virgin polypropylene containing 20% by weight of talc. Recycled specimens were produced by two or more extrusion using a twin screw extruder, the extrusion conditions were barrel temperature 205 ℃, die temperature 220 ℃ and screw speed 30 rpm. Standard moldings contain virgin polypropylene containing 20% by weight of talc and recycled specimens in proportions of 100/0, 95/5, 90/10, 80/20, 60/40, 50/50 and 0/100, respectively. After the extrusion was carried out under the extrusion conditions, the extruded pellet-shaped sample was prepared in the form of a disc having a diameter of 25 mm and a thickness of 2 mm using a hot press. All specimens were dried at 90 ° C. for 12 hours before performing the next step to minimize the effects of moisture.

Example  2: Rheological properties  Measure

The polymers have long carbon chains and have viscoelastic properties that are both elastic and viscous.They are measured by the dynamic frequency sweep test of the advanced rheological expansion system (ARES). Can be. The dynamic frequency sweep test sets the temperature and strain above the melting temperature on the ARES to vary the frequency from 0.05 rad / s to 100 rad / s while distinguishing the viscosity and elasticity of the polymer. It is a method of measuring viscoelasticity of polymer that can observe the elastic force of the polymer and can observe the viscous force of the polymer at high frequency. When the prepared specimen was subjected to a dynamic frequency sweep test with ARES, a parallel plate fixture was used, but the upper plate had the same diameter as the sample, and the frequency was 0.05 rad / s to 100 rad / s. The experiment was performed at 200 ° C., which is 7% and the actual injection temperature.

Example  3: Elastic viscosity  Experimental formula for ratio and scrap content

The results of preparing the Cole-Cole Plot from the measurement results are shown in FIG. 1. It can be seen that two extrusions lead to a lower frequency region (right portion of FIG. 1), resulting in new relaxation. This results in the breakage of the carbon skeleton when extruded several times, and these small molecular weight talc-containing polypropylene composites aggregated differently from the original molecular weight talc-containing polypropylene composites to provide different relaxation as shown in FIG. Will appear. In addition, in the case of a specimen containing a large amount of specimens subjected to two extrusion processes, the tendency is gradually similar to that of the two extrusion specimens as the mixing ratio increases.

In FIG. 1, a relation between elastic force and scrap recycling amount is derived at a peak representing a second relaxation at the point where the peak interval is the largest width. This is a standardized concept of dividing the viscosity according to the content of scrap extruded several times. The ratio of elastic viscosity and scrap content can be expressed by the following quadratic function Y = 10.07 19.33 X + 9.33 X ² . Y is the scrap content, and X is the ratio of the elastic viscosity, and the elastic viscosity of the scrap-containing molded product specimen is divided by the elastic viscosity of the virgin molded product specimen, that is, (η " recycled) / (η 'virgin). The X axis represents the ratio of scrap usage, and the Y axis represents the elastic viscosity, and the experimental formula of the ratio of the elastic viscosity and the scrap content is shown graphically in FIG.

Table 1 shows the results of comparing the validity of the empirical formula with the actual experimental results. As shown in Table 1, it was confirmed that the reliability was 82% or more as the scrap content increased. Therefore, using the empirical formula, it was confirmed that the quantitative measurement of the scrap content by measuring the rheological properties from the talc-containing polypropylene molded article which does not know the scrap usage.

Comparison of Theoretical Viscosity Ratio and Scrap Contents X 1.027 1.115 1.243 1.297 1.324 Y (Experimental Result) 0.1 0.2 0.4 0.5 One Y (function value) 0.0528 0.1101 0.4515 0.6872 0.8254

Since the talc-containing polypropylene composite material is cut in the carbon skeleton during the extrusion process, the physical properties of the molded product may be degraded when the molded product is recycled from scrap, so the second functional formula representing the relationship between the ratio of elastic viscosity and the scrap content is used. By providing a simple, quick and accurate method for analyzing scrap content, it is possible to predict quality degradation of molded products due to excessive use of scrap and to facilitate quality control.

Claims (2)

In the method for measuring the scrap content of a polypropylene composite material containing 20% by weight of talc, Preparing a virgin molded product specimen of the composite material; Preparing a molded article specimen containing the scrap of the composite material; Performing a dynamic frequency sweep test (ARES) of the Advanced Rheometric Expansion System (ARES) to measure the ratio of the elastic viscosity of the scrap-containing molded product specimen to the elastic viscosity of the virgin molded product specimen; Method for measuring the scrap content of the polypropylene composite material containing 20% by weight of talc, the step of calculating the scrap content by substituting the ratio of the elastic viscosity to the following second functional formula: The quadratic functional formula is expressed as Y = a + b X + c X ² , Y is the scrap content, X is the ratio of the elastic viscosity, the elastic viscosity of the scrap-containing molded product specimen divided by the elastic viscosity of the virgin molded product specimen, a Is a constant and b and c are the coefficients of X and X ² , respectively. The method of claim 1, wherein a is 10.07, b is -19.33, and c is 9.33.

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