KR101556034B1 - Evaluation method and apparatus for elapsed time change resin composition - Google Patents

Abstract

The present invention provides a method for evaluating the aging property of a resin composition capable of preventing a filter clogging failure and capable of producing a stabilized aging resin composition and a resin composition calculated through evaluation of aging property and an evaluation device thereof.

Description

TECHNICAL FIELD [0001] The present invention relates to a method for evaluating the aging property of a resin composition,

The present invention relates to a method for evaluating the aging properties of a resin composition and an apparatus for evaluating aging properties.

The resin composition has various properties depending on the kinds and compositions of the components. Therefore, as the resin composition, there are a photosensitive resin composition, a curable resin composition, a thermoplastic resin composition and the like, and a resin composition suitable for the electronic device is used and selected.

On the other hand, there are methods for preliminarily evaluating whether the resin composition used in the production of an electronic device shows appropriate performance or not an adverse effect during or after the final product production. For example, there is a method of evaluating photosensitivity of a resin composition by measuring light absorption characteristics and sensitivity.

The present specification is intended to provide a method for evaluating the aging properties of a resin composition and an evaluation apparatus therefor.

The present disclosure relates to a method of injecting a resin composition into an inlet of a filter having an inlet and an outlet,

Repeating the step of collecting the resin composition discharged to the outflow portion and measuring the mass at least twice; And

And comparing the measured masses with each other.

The present invention also relates to a method of fabricating a filter, comprising: injecting a resin composition into the inlet of a filter having an inlet and an outlet;

Repeating the step of collecting the resin composition discharged to the outflow portion and measuring the mass at least twice; And

A method for evaluating the aging resistance of a resin composition comprising the steps of:

Wherein the mass of the final collected composition is at least 80% of the mass of the initially collected composition.

The present invention also relates to a filter including an inlet through which the resin composition flows and an outlet through which the resin composition flows out;

A collector for collecting the resin composition flowing out from the outlet; And

And a mass measuring section for sensing the mass of the collected resin composition.

It is possible to obtain a resin composition which is free from the problems associated with the clogging of the filter which may occur after the mass production process, which has not been expected in the past through the evaluation method and evaluation apparatus for the aging property of the resin composition.

Fig. 1 is a graph showing the amount of filtration of a resin composition as a regular product measured over time.
FIG. 2 is a graph showing a filtration amount of a resin composition as a regular product over time. FIG.
Fig. 3 is a graph showing the filtration amount of the resin composition as a defective product measured over time.
Fig. 4 is a graph showing the filtration amount of a resin composition as a defective product as a function of time. Fig.

Hereinafter, the present invention will be described in detail.

The aging properties of the resin composition were confirmed by changing the viscosity and particle size at room temperature or higher temperature of 45 ° C or higher.

The results of this storage stability are also important, but we have found that there is a new defect called filter clogging in the present process. If such defects are not evaluated and verified during development, defects will occur after the mass production process, and the cycle of replacing the filter will be frequent, so that the productivity of the process can not be increased.

Therefore, a quantitative evaluation method for judging whether or not the filter is clogged during the development of the resin composition will be described in detail herein.

Injecting a resin composition into the inlet of the filter having an inlet and an outlet in an embodiment of the present disclosure;

Repeating the step of collecting the resin composition discharged to the outflow portion and measuring the mass at least twice; And

And comparing the measured masses with each other.

In another embodiment, there is provided a method for evaluating the aging property of a resin composition, which further comprises the step of applying pressure to the resin composition injected into the inlet after the step of injecting the resin composition into the inlet.

In one embodiment of the present invention, the pressure applied to the resin composition is 0.2 bar to 2 bar. In another embodiment, the pressure applied to the resin composition is from 0.5 bar to 1.5 bar. In another embodiment, the pressure applied to the resin composition is from 1 bar to 1.2 bar.

When the pressure is less than 2 bar, the amount of the resin composition discharged to the outlet is small, so that it is difficult to evaluate the measured mass with accurate numerical values. When the pressure is more than 0.25 bar, There is an advantage in that an error can be prevented from being generated in a large amount.

In another embodiment, the pressure is applied after the step of injecting the resin composition into the inlet, and the same pressure is maintained at all subsequent steps.

In another embodiment, the pressure collects the resin composition that is discharged to the outlet and maintains the same pressure until the step of measuring the mass.

In another embodiment, the temperature of each step is room temperature.

In the present specification, the room temperature means a temperature as it is heated or not cooled, and it means 15 ° C to 25 ° C.

In another embodiment, the mass of the resin composition collected between the step of collecting the resin composition discharged to the outlet and the step of measuring the mass at least twice or more and the step of comparing the measured mass, And further comprising the step of graphing according to time.

In another embodiment, the step of collecting and measuring the mass of the resin composition discharged to the outflow portion is repeated at least twice, and the repetition is repeated at intervals of a predetermined period.

In one embodiment, the period is from one second to one month.

In another embodiment, the period is 30 seconds, 1 minute. 10 minutes, 1 hour, day, week, or month.

In the present specification, the resin composition is selected from the group consisting of a resin composition for electronic materials, a resin composition for pattern or film formation, a photosensitive resin composition, a thermosetting resin composition, and a resin composition including a mill base.

In one embodiment of the present invention, the step of collecting the resin composition discharged to the outlet and measuring the mass is repeated twice or more, and in the step of comparing the measured mass, the mass of the finally collected composition Of the mass of the initially collected composition is calculated.

In another embodiment, in the step of comparing the measured masses, the mass of the last collected composition is calculated to be equal to the mass of the initially collected composition.

In this specification, the weight of the composition collected at the end is the same as the mass of the composition initially collected, that is, the closer to 100% of the mass obtained from the initial collection, the more stable the filtration time.

In one embodiment of the present invention, it is possible to calculate that the mass of the final collected composition is 80% or more of the mass of the originally collected composition, so that a resin composition having no defect related to clogging of the filter have.

In another embodiment, the step of collecting the resin composition discharged to the outlet and measuring the mass is repeated at least twice. In another embodiment, the step of collecting the resin composition discharged to the outlet and measuring the mass is repeated 10 to 100 times.

In one embodiment of the present invention, when evaluated by the time-lapse evaluation method of the resin composition, the resin composition which is obtained by collecting the final product and measuring the mass thereof is at least 80% .

In one embodiment of the present invention, the resin composition having a mass of at least 80% of the mass of the first collected mass obtained at the end of the measurement is excellent in aging property and is poor in mass none.

The present invention also relates to a filter including an inlet through which the resin composition flows and an outlet through which the resin composition flows out;

A collector for collecting the resin composition flowing out from the outlet; And

And a mass measuring section for sensing the mass of the collected resin composition.

In this specification, the filter includes an inlet disposed at the upper end of the filter to receive the resin composition, and an outlet through which the resin composition flowing into the lower end of the filter flows out.

In the present specification, the shape of the cross section of the filter is not particularly limited, but is provided in a rectangular shape and has a receiving space capable of accommodating the resin composition.

In this specification, the outlet includes an opening.

The number of the openings is one or more, and the ratio of the openings includes 50% to 90% of the outlet area. In one embodiment of the present disclosure, the number of openings is 100 to 1,000,000. In another embodiment, the number of openings is 10,000 to 500,000. In another embodiment, the number of openings is 50,000 to 100,000.

The plurality of openings may filter the resin composition flowing out from the inside of the filter. The number of the openings and the ratio of the openings can be selected according to the properties of the resin composition to be evaluated.

In one embodiment of the present invention, the diameter of the opening is 0.5 占 퐉 to 10 占 퐉. In another embodiment, it is 1 占 퐉 to 8 占 퐉. The diameter of the opening is 1.5 탆 to 4.5 탆. The diameter of the outlet is determined by the opening of the resin composition. Further, the diameter of the required opening can be selected depending on the type of the resin composition.

However, when the diameter of the openings is 0.5 to 10 占 퐉, the amount of filtration per hour is not excessively large or small and it is easy to compare the filtration amount.

In this specification, the opening means a hole included in the outlet, and means a passage through which the resin composition flows.

According to an embodiment of the present invention, the inflow portion is disposed at an upper end portion of the filter and guides the resin composition introduced from the outside to the inside of the filter, and is formed to have an area larger than the cross sectional area of the main body, , But is not limited thereto.

In this specification, the outflow portion guides the resin composition flowing out from the inside of the filter to the outside, and is disposed at the lower end of the filter.

In this specification, the collecting unit collects the discharged resin composition through an outlet. In one embodiment, the collector is disposed in a lower region outside the filter.

In the present specification, the mass measuring section measures the mass of the collected resin composition.

In one embodiment, the collecting part and the mass measuring part are disposed integrally or in contact with each other. In the case where the mass measuring part and the collecting part are integrated, collecting and mass measurement can be performed at the same time, which is advantageous in the time and cost of the process.

Further, the collecting portion includes a supporting portion and a resin composition receiving portion provided on the supporting portion.

The support portion and the resin composition receiving portion may be integrally formed in the collecting portion. In this case, the collecting part directly accommodates the resin composition.

The collecting part may be arranged such that the support part and the resin composition receiving part are in contact with each other. In this case, the accommodating portion is provided with a recess to accommodate the resin composition. The material can be selected according to the characteristics of the resin composition. In one embodiment, the receiving portion may be selected from the group consisting of a rectangle, a triangle, an elliptical zigzag, and a random. The receptacle may be disposable, or may be cleaned and reused.

In this case, the mass of the collected resin composition can be measured by obtaining the difference between the mass of the housing portion containing the collected resin composition and the mass of the housing portion containing no resin composition.

In another embodiment, the collecting unit is movable. In this case, the collecting unit and the mass measuring unit are spaced apart from each other, and the transferring unit transfers the resin composition of the collecting unit to the mass measuring unit.

In still another embodiment, the apparatus further includes a removing unit that removes the resin composition after the mass measurement from the mass measuring unit.

 In another embodiment, in order to prevent the resin composition from being shaken or overflowed when the collecting unit is conveyed, the support unit may further include a support rod connected to the conveyance unit.

In another embodiment, the collecting portion and the mass measuring portion are spaced apart from each other, and the transferring portion for transferring the resin composition of the collecting portion to the mass measuring portion and removing the resin composition for which the mass measurement has been finished is removed from the mass measuring portion .

In one embodiment, the mass of the resin composition collected may be measured simultaneously with the collection, or the collected resin composition may be transferred and transferred through the mass measuring part.

In one embodiment, the apparatus further comprises a time measuring unit for measuring a time at which the introduced resin composition flows out.

The time during which the inflowed resin composition flows out can be measured, and the collected and collected mass can be graphed according to time.

In another embodiment, the apparatus may further include a time controller connected to the mass measuring unit and periodically measuring the mass of the resin composition transferred to the mass measuring unit.

In one embodiment, the apparatus further includes a time control unit coupled to the transfer unit and configured to periodically transfer the collecting unit.

The time control is adjusted in units of one second to one month.

In one embodiment, the apparatus further includes a data storage unit connected to the mass measuring unit. The data storage unit is connected to the mass measuring unit to digitize and store the measured mass.

And a data output unit connected to the data storage unit and outputting the stored data in another embodiment of the present invention.

The data output unit may visually display data stored in the data storage unit, and may display the data in a non-regular order such as a graph, a table, a chart, and a result.

Also, the data output unit may be a data display device, and may be printed and displayed as a document.

The aging evaluation method of the resin composition will be specifically described in the following examples. However, the following examples are intended to illustrate the present invention and the scope of the present invention is not limited thereto.

< Example >

The resin composition, which is a regular product, was injected into the aging evaluation device of the resin composition having the diameter of the outlet of the filter of 1.25 mu m.

A pressure of 0.2 bar was applied to the injected resin composition, and the mass of the resin composition discharged to the outflow portion was measured at intervals of 30 seconds at room temperature for 1 day, 7 days, 14 days, 21 days, 30 days and 40 days.

Fig. 1 is a graph showing the amount of filtration of a resin composition as a regular product measured over time.

Further, the mass of the filtered resin composition was plotted as a filtration rate (g / 0.5 min).

FIG. 2 is a graph showing a filtration amount of a resin composition as a regular product over time. FIG.

< Comparative Example >

The mass of the resin composition was measured in the same manner as in Example except that the resin composition was defective. Further, the filtration rate (g / 0.5 min) of the filtered resin composition was plotted.

Fig. 3 is a graph showing the filtration amount of the resin composition as a defective product measured over time.

Fig. 4 is a graph showing the filtration amount of a resin composition as a defective product as a function of time. Fig.

As can be seen from the graph showing the filtration amount of the resin composition over time, the defective product significantly decreases the filtration rate over time. Therefore, the aging property of the resin composition can be evaluated through the amount of the filtrate, and it is possible to secure a resin composition which does not have a defect related to the clogging of the filter that may occur after the mass production proceeding which was not anticipated in the past.

Claims (27)

Injecting a resin composition into the inlet of the filter having the inlet and the outlet;
Repeating the step of collecting the resin composition discharged to the outflow portion and measuring the mass at least twice; And
And comparing the measured masses with each other. The method according to claim 1,
After the step of injecting the resin composition into the inflow portion,
Further comprising the step of applying a pressure to the resin composition injected into the inflow portion. The method of claim 2,
Wherein the pressure is 0.2 bar to 2 bar. The method according to claim 1,
And the temperature of each step is room temperature. The method according to claim 1,
Repeating the step of collecting the resin composition discharged to the outflow portion and measuring the mass two or more times;
Between comparing the measured masses
Further comprising the step of grappling the mass of the collected resin composition with time. The method according to claim 1,
The step of collecting the resin composition discharged to the outlet and measuring the mass is repeated twice or more,
And repeating a predetermined cycle at intervals. The method of claim 6,
Wherein the period is from 1 second to 1 month. The method of claim 6,
Wherein the period is 30 seconds, 1 minute, 10 minutes, 1 hour, day unit, week unit or month unit. The method according to claim 1,
Wherein the resin composition is selected from the group consisting of a resin composition for electronic materials, a resin composition for pattern or film formation, a photosensitive resin composition, a thermosetting resin composition, and a mill base. The method according to claim 1,
Collecting the resin composition discharged to the outflow portion and measuring the mass is repeated twice or more,
In comparing the measured masses,
Wherein the mass of the final collected composition is at least 80% of the mass of the initially collected composition. The method according to claim 1,
Wherein the step of collecting the resin composition discharged to the outflow portion and measuring the mass is repeated 10 to 100 times. When evaluated according to any one of claims 1 to 11,
Wherein the mass of the last collected composition is at least 80% of the mass of the initially collected composition. A filter including an inflow portion into which the resin composition flows and an outflow portion through which the resin composition flows out;
A collector for collecting the resin composition flowing out from the outlet; And
And a mass measuring section for sensing the mass of the collected resin composition. 14. The method of claim 13,
Wherein the collecting unit and the mass measuring unit are integrally or in contact with each other. 14. The method of claim 13,
Wherein the collecting portion includes a supporting portion and a resin composition accommodating portion provided on the supporting portion. 14. The method of claim 13,
Wherein the collecting part and the mass measuring part are disposed apart from each other,
And a transfer unit for transferring the resin composition of the collecting unit to the mass measuring unit. 14. The method of claim 13,
And a removing means for removing the resin composition after the mass measurement from the mass measuring section. 14. The method of claim 13,
Wherein the collecting unit and the mass measuring unit are spaced apart from each other,
The resin composition of the collecting part is transferred to the mass measuring part,
And a transfer unit for removing the resin composition whose mass measurement is completed from the mass measuring unit. 14. The method of claim 13,
And a time measuring section for measuring a time when the inflowing resin composition flows out. 18. The method of claim 16,
And a time controller connected to the mass measuring unit and periodically measuring the mass of the resin composition transferred to the mass measuring unit. 18. The method of claim 16,
And a time control unit coupled to the conveyance unit and configured to periodically convey the collecting unit. 14. The method of claim 13,
And a data storage unit connected to the mass measuring unit. 23. The method of claim 22,
And a data output unit connected to the data storage unit and outputting the stored data. 14. The method of claim 13,
Wherein the outlet comprises an opening. 27. The method of claim 24,
Wherein the ratio of the opening portion is 50 to 90% of the area of the outlet portion. 27. The method of claim 24,
Wherein the diameter of the opening is 0.5 to 10 占 퐉. 14. The method of claim 13,
And a pressurizing portion for applying pressure to the inflowing resin composition.

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