JPH0485357A - Moisture absorbent for pag and method for drying and storing pag - Google Patents

Abstract

PURPOSE:To prepare the title absorbent excellent in moisture-absorbing properties by selecting the absorbent comprising a mixture of a polyethylene glycol with a highly water-absorbing acrylic polymer capable of gelling by water absorption in a specified ratio. CONSTITUTION:The title absorbent comprising a mixture of a polyethylene glycol with a highly water-absorbing acrylic polymer capable of gelling by water absorption (e.g. Aqua Keep 10SH-NF, a product of Sumitomo Seika chemicals Co., Ltd.) in a ratio of (1:1)-(1:5) is selected.

Description

Detailed Description of the Invention [Industrial Application Field] The present invention relates to the crystallography of polyacrylamide gel (hereinafter referred to as PAG), a method for drying PAG using its V&wetting agent, and a method for drying PAG using the drying method. The present invention relates to a method for preserving PAG after it has been processed.

[Prior Art] FIGS. 5 and 6 are diagrams showing a conventional method for drying and storing PAG.

The method shown in FIG. 5 uses a gel dryer 40. The gel dryer 40 includes a heat unit 42 in a main body 41.
is built-in, and the inside can be kept airtight with a cover 43. A vacuum pump (or aspirator, etc.) 45 is connected from the lower side of the main body 41 through a conduit 44, and can depressurize the inside of the gel dryer 40.

Gel G is passed through filter paper 46 as a porous spacer,
On the heater unit 42! ! It is hidden and covered with a silicone rubber sheet 47. In this state, the gel G is dried on the filter paper 46 while being kept depressurized by the vacuum pump 45 and heated by the heater unit 42 .

FIG. 6 shows a method of drying in a cold storage, using two semipermeable membranes 51, 51, etc. made of cellophane or the like moistened with Gel G.
52, fold it back as shown by the white arrow,
Wrap it around the glass plate 53 and use a fixing device 54 such as a rubber band.
to stop all sides. In this state, place it in a refrigerator to dry.

[Issues to be Solved by the Invention] Although the drying time is short in the former method, since the gel G is dried on the filter paper 46, it is difficult to measure the colorless and transparent PAG using a densitometer or the like after dry storage. There was a problem.

In the latter method, it can be separated in a colorless and transparent state because it is sandwiched between semipermeable membranes 51 and 52, but since it is air-dried, it takes a long time to completely dry and become a thin layer. there were.

In all of the above cases, since pretreatment is performed with a glycerol solution of around 5% to 10%, there were problems such as cracks appearing in Gel G and color reduction of staining occurring during long-term storage. . In addition, if pretreatment is performed with a glycerol solution of 3% or less, or if no pretreatment is performed with a glycerol solution, cracks may occur in the gel G during drying or the gel G may dry completely. The problem was that it became very fragile.

The objects of the present invention are to provide a moisture absorbent with good moisture absorption performance, a drying method for drying PAG in a short time, and a colorless, transparent and flexible PAG.
To provide a preservation method that allows AG to be preserved semi-permanently as it is.

[Means for solving the problem] y1. In order to solve this problem, the moisture absorbent for PAG according to the present invention contains 1 to 5 parts of polyethylene glycol and 1 to 5 parts of acrylic super water absorbent polymer that gels when absorbed.
This is a composition in which they are mixed at a ratio of 0.

Further, the method for drying PAG according to the present invention has a structure in which the moisture absorbent is brought into contact with the PAG through a semipermeable membrane.

Furthermore, the method for preserving PAG according to the present invention is such that after drying using the drying method described above, the semipermeable membrane is left and the PAG is laminated with a resin film having low tackiness at room temperature.

[Example] Hereinafter, the present invention will be described in detail with reference to the drawings and the like.

FIG. 1 is an explanatory diagram showing an embodiment of the method for drying PAG according to the present invention, FIG. 2 is an explanatory diagram showing an embodiment of the absorbent clothing for PAG according to the present invention, and FIG. FIG. 4, a diagram showing the characteristics of an example moisture absorbent, is an explanatory diagram showing an example of the method for preserving PAG according to the present invention.

In this invention, two moistened semi-permeable membranes 1112 are used to make P.
AG is sandwiched, further sandwiched between holders 13 and 14 (FIGS. 1A and 1B), and fixed on all sides with fixing tools 15a to 15C such as binder clips (FIG. 1C).

Next, the moisture absorbent 2 is placed on both sides of the semipermeable membrane 11.1'2.

The moisture absorbent 2 is a mixture of 1 part polyethylene glycol (PEG) 21 and 1 to 5 parts acrylic super water absorbent polymer 22 that gels upon water absorption.

Although polyethylene glycol 21 has a strong water absorption side, when it contains water, it liquefies, and there is a possibility that the low molecular weight polyethylene glycol 21 permeates through the semipermeable membrane 11.12 and enters the PAG. In addition, the super absorbent polymer 22 is
Although its water supply power is weak, it turns into a gel when it absorbs water.

In other words, by mixing polyethylene glycol 21 and superabsorbent polymer 22 in the ratio described above (Fig. 2A), polyethylene glycol 21 can strongly absorb moisture from within the PAG (Fig. 2B). The superabsorbent polymer 22 absorbs the water and turns it into a gel (FIG. 2C).

In this way, the action of the superabsorbent polymer 22 prevents the liquefied polyethylene glycol 21 and absorbed water from returning into the PAG, and makes it possible to prolong the water absorption power of the polyethylene glycol 21.

The present inventors, as polyethylene glycol 21,
Polyethylene glycol 20,000 (Product name.

Aqua keep l03H-NF with an average molecular weight of 20.000) as a super absorbent polymer 22 for 1
(manufactured by Sumitomo Seika ■) in a ratio of 1.2, 3.4.5 was used, and the moisture absorbent 2 was placed on the PAG as described above for a certain period of time (1234.5 hr). The amount of water absorbed (%) by PAC was investigated afterwards (Figure 3).

As shown in Figure 3, PEG and Aqua keep
It can be seen that when the ratio is around 1:3, both the water absorption time and the amount of water absorbed are good. When the proportion of Aqua keep is small, the water absorption time is fast, but the absorption amount is low and the water is saturated immediately. On the contrary, it can be seen that as the amount is increased, the water absorption time gradually becomes slower and the amount of absorption also decreases. These ratios can be appropriately selected depending on the degree to which PA (,) is desired to be dried.

Furthermore, according to experiments conducted by the present inventors, polyethylene glycol 20,000 and Aqua keep 10St
(-Using moisture absorbent 2 mixed with NF at a ratio of 1:3,
Drying treatment was performed using the drying method according to the present invention. As a result,
Although it varies depending on the gel concentration of PAG, it can be sufficiently dried in 1 to 2 hours after placing moisture absorbent 2 on both sides, and 2
By leaving it for 4 hours, it was possible to completely dry and thin the layer.

The PAG thus dried and thinned is placed in the holder 13.
14, immediately cut out the semipermeable membrane 11, 12 leaving 1 to 2 cm around the PAG, and laminate it with a special laminator 30 using a resin film 31 with low adhesiveness at room temperature (see Fig. 4A). Figure 4B).

This resin film 31 is made of rubber, acrylic, or
The adhesive layer is formed by applying a low-tack adhesive such as cellulose or vinyl. For example, Hessar (
Nippon Optical Fiber ■) etc. can be used.

In this way, by creating the storage unit 32 in which the PAG units 33 and 34 are laminated with the resin film 31 (Fig. 4C), further evaporation of moisture is prevented, and moisture from the outside can be returned to the PAC C and semi-transparent. Membrane 1.1.1
It is possible to prevent (prevent) from entering 2.

When laminating and storing like this, PEC and ^
A mixture of qua keep in a ratio of 1:3 was good.

[Effects of the Invention] As explained above, according to claim (1), polyethylene glycol and a superabsorbent polymer that gels when absorbed are used in a predetermined ratio, so that the superabsorbent polymer It becomes a gel and retains liquefied polyethylene glycol and absorbed water, and can maintain the water-absorbing power of polyethylene glycol.

Moreover, according to claim (2), the drying time can be significantly shortened by the moisture absorbent.

Furthermore, according to claim (3), since the product is stored by being laminated with a resin film that has low adhesiveness at room temperature, it is possible to prevent further evaporation of water and to prevent water from entering from the outside again. Flexible PAG can be preserved semi-permanently.

[Brief explanation of drawings]

FIG. 1 is an explanatory diagram showing an example of the drying method for PAG according to the present invention, FIG. 2 is an explanatory diagram showing an example of the moisture absorbent for PAC according to the present invention, and FIG. FIG. 4, a diagram showing the characteristics of an example moisture absorbent, is an explanatory diagram showing an example of the method for preserving PAG according to the present invention. FIGS. 5 and 6 are diagrams showing conventional methods of drying and preserving PAG. PAC...Polyacrylamide gel 11.12...Semipermeable membrane 13.14...Holder 15a to 15d...Fixing device 2...Moisture absorbent 21...Polyethylene glycol 22...Super water absorbency Polymer 31...Resin film agent Patent attorney Kama 1) Second son (1 other person) Fig. 2A Fig. 2C Fig. 3A Fig. PEG I with weight 5Aquakeep stopper No. 3B catalog freezing interval (hr) Engraving of drawings Figure 5A Figure 5B Figure 6A and 53 (Force drawing) Drafting procedure amendment for drawings (method) % formula % 1. Indication of incident 1990 Patent WiR200130 No. 5, Date of amendment order Heisei Shipping date: October 30, 2017 Mi7, amendment details as per attached sheet

Claims (3)

[Claims] (1) A moisture absorbent for PAG, which is a mixture of 1 part polyethylene glycol and 1 to 5 parts acrylic super absorbent polymer that gels when absorbed. (2) The moisture absorbent according to claim (1) is applied through a semipermeable membrane.
A method of drying PAG by contacting it with AG. (3) A method for preserving PAG, which comprises drying by the drying method according to claim (2) and then laminating it with a resin film having low tackiness at room temperature, leaving the semipermeable membrane.