JP4084865B2 - Starch-based binder for plasterboard - Google Patents

Description

【００５９】
注）原紙の吸水時耐剥離性の項において示される（％）は、石膏ボードから紙が剥れずに残った面積を表示している。従って、数値が大きいほど湿潤時の接着強度が高いことを表している。
【００６０】
【発明の効果】
本発明に係る石膏ボード用澱粉系バインダーは、貯蔵澱粉と、貯蔵澱粉の皮質成分との、前者／後者＝９８／２〜５／９５の重量比率である混合系である構成により、前述の応用実施例・比較例で示す如く、無機質コアの強度の増大が図れると共に、石膏ボードにおける無機質コアとボード原紙との湿潤時の接着性を向上させることができる。
【図面の簡単な説明】
【図１】コーンスターチのウエットミリングによる概略製造工程図[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a starch-based binder used as a binder for gypsum board .
[0002]
The present invention, gypsum papermaking mold was cured by (dehydration molding) or the like slip composed mainly of (slurry) between board liner, and which relates to gypsum board having inorganic core between board liner.
[0003]
[Prior art]
In the gypsum board slurry raw material, a reinforcing binder is usually added from the viewpoint of adhesion between the board base paper and the inorganic core and an increase in strength of the inorganic core itself.
[0004]
In many cases, a starch-based binder is used as one of the reinforcing binders (see Japanese Patent Application Laid-Open No. 56-120580, Japanese Patent Publication No. 57-39925, and Japanese Patent Application Laid-Open Nos. 5-148001 and 6-321659).
[0005]
Recently, for the purpose of reducing the weight of the gypsum board, a lightweight aggregate such as pearlite (pearlite) or a foaming agent is often added to the slurry raw material.
[0006]
[Problems to be solved by the invention]
In such a case, the weight of the gypsum board itself can be reduced and the weight can be reduced, but a problem is likely to occur in the adhesiveness (particularly during water absorption) between the inorganic core and the board base paper. For this reason, in order to ensure the adhesiveness between the board base paper and the gypsum board, the inorganic core is made to correspond to a substantially three-layer structure.
[0007]
In addition, the increase in the lightweight aggregate and the foaming rate results in a decrease in the relative strength of the inorganic core and a decrease in adhesion to the board base paper. In order to complement this, it is necessary to increase the amount of starch-based binder.
[0008]
However, increasing the amount of the starch-based binder still causes the following problems.
[0009]
1) The water retention of gypsum slurry also increases and the production rate decreases. That is, the number of manufacturing steps increases.
[0010]
2) The finished gypsum board becomes sensitive to humidity and the board base paper is easy to peel off.
[0011]
In view of the above, an object of the present invention is to provide a starch-based binder for gypsum board capable of increasing the strength of the inorganic core as compared with the conventional one.
[0012]
Another object of the present invention is to provide a starch-based binder that can improve the adhesion between the inorganic core and board base paper in gypsum board when wet.
[0013]
[Means for Solving the Problems]
The starch-based binder for gypsum board of the present invention solves the above-mentioned problems by being a mixed system with a cortical component of stored starch.
[0014]
In the above starch-based binder, it is more desirable that the cortical component is corn birch mainly composed of the endothelial component of corn starch discharged in the corn starch manufacturing process (wet milling).
[0015]
In the starch-based binder, it is more desirable that the mixture of the stored starch and the cortical component is subjected to acid treatment or oxidation treatment.
[0016]
It is preferable when a gypsum board is produced using the starch-based binder.
[0017]
The background to the completion of the present invention is as follows.
[0018]
Corn fiber (mainly skin) and birch (mainly endothelium) discharged in the corn starch manufacturing process (corn wet milling) are mixed with an extract component called corn steep liquor, dried and dried as corn gluten feed. It was only sold as feed and was a component for which new application development was desired (see FIG. 1).
[0019]
In the process of searching for uses of these corn fibers and white birch that are generated in the production process of coast starch starch, the inventors of the present invention are prone to various chemical modifications, and the adhesiveness of the hemicellulose constituting the cortical component is also starch. Newly discovered that it is not inferior to. And the present inventors earnestly investigated the characteristics of the reaction product when various storage starches and various cortical components were mixed and chemically modified.
[0020]
As a result, when the mixture of the stored starch and the cortical component was applied as a binder for the gypsum board , a moderate water retention force and an adhesive force more than expected were obtained. What was more surprising was that the core strength of the board, when applied as a binder for gypsum board, was significantly increased compared to conventional oxidized starch and acid-treated starch. Although the theoretical clarification of this phenomenon is not clear at present, the inventors estimate that the hemicellulose constituting the cortical component has a very high adhesive force to the inorganic substance, or One of the possible causes is that the adhesive strength of the hemicellulose and the cortical cellulose is further improved by the chemical modification.
[0021]
Through these research and development efforts, the present inventors have completed the present invention.
[0022]
[Detailed description of configuration]
The means (configuration) of the present invention will be described in detail. In the following description, the mixing ratio and the number of blending parts are in weight units unless otherwise specified.
[0023]
A. This invention makes it a prerequisite that it is a starch-type binder for gypsum boards .
[0024]
[0025]
B. The basic structure of the starch binder is that it is a mixed system with the cortical component of the stored starch.
[0026]
(1) Storage starch includes storage starch itself and modified starch that is a derivative thereof. As the stored starch, various rhizome starches represented by potato starch, tapioca starch and sweet potato starch; corn starch, high amylose corn starch, wheat starch and various rice starches represented by rice starch can be preferably used. Of these stored starches, corn starch or tapioca starch is preferred because of its price and ease of handling.
[0027]
Further, these various starches are subjected to etherification, esterification, acid treatment / oxidation treatment, dextrinization, or a modified starch combined with a modified method, or unmodified starch and modified starch. Blended starch can be used.
[0028]
(2) As a cortex component, a starch bran mainly composed of an outer skin component discharged from the starch production process of rhizome starch, or a bran mainly composed of an outer skin component discharged from the rice starch production process is preferably used. it can.
[0029]
The starch cake includes not only starch starch discharged in the production process of potato starch and sweet potato starch but also what is called tapioca pulp discharged in the production process of tapioca starch.
[0030]
The buran includes corn fiber discharged in the production process of corn starch (wet milling), what is called corn white lees, bran discharged in the production process of wheat starch, red bean, white Including rice bran, rice bran discharged in the rice starch production process, and rice bran.
[0031]
And these starch cakes and brans are all composed mainly of cellulose and hemicellulose, and contain some starches and proteins, and also fats and oils.
[0032]
Furthermore, these starch cakes and brans may of course be an acid treatment / oxidation treatment or a combination of etherification , esterification, dextrinization or a modification method thereof.
[0033]
(3) In the mixed system of the storage starch and cortical component of the present invention, when the storage starch is potato starch, the storage starch and the thin-film cortex are such that the portion of the potato skin discharged from the potato starch production process is preferable. Those produced from the same starch production process are preferred from the standpoint of easy availability and handling, among others, the combination of corn starch and white birch mixture produced from the wet milling process is judged overall, including price, physical properties, etc. It is preferable. However, the stored starch and the cortical component are not limited to those having the same production process or the same system, and are arbitrary, for example, a combination of corn starch oxidized starch / tapioca pulp.
[0034]
In addition, the storage starch constituting the storage starch / cortical component mixture system of the present invention may be an unmodified starch, but preferably modified so as to have low viscosity and low crystallinity such as acid treatment or oxidation treatment. It is desirable to perform processing. This modification treatment can be expected to increase the adhesive strength with minerals by lowering the gelatinization temperature of starch relatively, and further increase the adhesive strength with base paper when used as a binder for gypsum board. It is. Furthermore, it is more preferable that these treatments are performed not only on the starch constituting the mixture but on the mixture itself.
[0035]
Although acid treatment / oxidation treatment is simple and desirable, it is needless to say that other chemical treatments, etherification, esterification, dextrinization, or a modification method thereof may be performed. The acid treatment / oxidation treatment is usually performed by a dry method or a wet method, but is not particularly limited.
[0036]
(4) The mixing weight ratio of the stored starch and the cortical component is usually the former / the latter = 98/2 to 5/95. Desirably, it is 90 / 10-20 / 80, and more desirably 90 / 10-40 / 60.
[0037]
If the cortical component is too small, it is difficult to achieve the effects 1) increase in strength of the gypsum board and 2) improvement in adhesion when wet. On the other hand, if the cortical component is excessive, there will be no problem in terms of adhesive strength, but the water retention of the molded product becomes excessively high, so that it takes too much drying time.
[0038]
(5) The amount of the starch-based binder according to the present invention is slightly different depending on the types of starch and cortical components to be used, as shown in the examples below.
[0039]
As described in the above-mentioned prior known publications, in the case where the fibrous reinforcing agent (asbestos, rock wool, etc.) is shared or not, 100 parts by weight of the inorganic material (matrix: matrix) is used. In contrast, 0.05 to 1.0 parts by weight, preferably 0.1 to 0.8 parts, and more preferably about 0.1 to 0.5 parts, provides desired core strength and base paper adhesive strength. It is done. In the case of oxidized starch, acid-treated starch and the like currently used, the amount is 0.7 to 1.1 parts by weight.
[0040]
[0041]
It is a form of using a starch-based binder for gypsum board . Basically, 1) knead a mixture of gypsum powder, water, and binder with a kneader, blender, mixer, etc. , or 2) preliminarily gypsum powder and binder. Examples of the mixing method include blending in a powder state and then dispersing in a predetermined amount of water to form a slurry.
[0042]
These mixed slurries or kneaded materials are poured between gypsum board base papers arranged one above the other and dried to form gypsum board .
[0043]
【Example】
(1) In order to confirm the effects of the present invention, examples and comparative examples are described below. However, the scope of the present invention is not limited to the scope described in the examples. In addition, the ratio of the starch and the cortical component in each Example is as shown in Table 1.
[0044]
<Example 1>
Each dried corn starch is mixed with a corn fiber pulverized product, and 2 wt% dilute sulfuric acid is added to and mixed with 100 parts of the mixture so that the added amount of sulfuric acid is 0.05 part. Growing and acid treatment by dry method. Thereafter, using a flash mixer, a 1.5 wt% sodium carbonate aqueous solution was added to adjust the powder pH to 3-6 and the water content to 12 wt% to prepare a binder.
[0045]
<Example 2>
In Example 1, a binder was prepared by treating in the same manner with a combination of corn starch and corn birch.
[0046]
<Example 3>
A 15 wt% slurry is prepared by dispersing corn starch in corn starch in water, 0.25 part of sodium hypochlorite is added to 100 parts of the solid content mixture, and oxidation is performed by a wet method. Thereafter, the pH was adjusted to 3 to 6 with 5 wt% dilute sulfuric acid, and then dehydrated and dried to prepare a binder.
[0047]
<Example 4>
In Example 1, a binder was prepared by performing the same treatment using a combination of tapioca starch and starch cake (tapioca pulp) discharged from the starch production process.
[0048]
<Example 5>
In Example 3, a binder was prepared by performing the same treatment with a combination of wheat starch and wheat bran.
[0049]
<Example 6>
In Example 3, a binder was prepared by performing the same treatment with a combination of sweet potato starch and starch candy discharged from the starch production process.
[0050]
<Example 7>
In Example 1, a binder was prepared by performing the same treatment with a combination of rice starch and rice bran.
[0051]
<Example 8>
A binder was prepared in the same manner as in Example 2 except that the acid treatment was not performed.
[0052]
<Example 9>
A binder was prepared in the same manner as in Example 5 except that the oxidation treatment was not performed.
[0053]
<Application Examples>
Each binder of Examples 1-9 is well blended with gypsum powder in the proportion of 0.5 parts of gypsum, and 100 parts thereof are dispersed in 70 parts of distilled water. This slurry is poured into a mold having a length of 10 cm, a width of 5 cm, and a height of 1 cm. The upper and lower sides are sandwiched with white paperboard and then pressed to produce a wet gypsum board. Thereafter, the wet gypsum board was dried in a hot air circulation dryer at 110 ° C. for 1 hour to prepare a dry gypsum board.
[0054]
<Application comparison example>
Oxidized corn starch with 0.5 parts and 0.65 parts of gypsum or 0.65 parts of corn white lees was added and dried gypsum boards prepared in the same manner as in the above application examples were applied comparative examples. It was set to 1 ・ 2 ・ 3.
[0055]
<Test method and evaluation>
With respect to each of the application examples and comparative examples thus prepared, a peel resistance test at the time of water absorption of the base paper (indicating the peel strength of the base paper when wet) and a bending strength (core strength) test were performed according to JIS A 6901. These results are listed in Table 1 below.
[0056]
As can be easily judged from the data in the table, the base paper peel strength and core strength of the gypsum board to which the binders of Examples 1 to 9 were added were compared with the case where 0.25 parts of oxidized starch of Comparative Example 2 was added. And show equivalent or better results. This can be said to clearly demonstrate the effectiveness of the present invention.
[0057]
In the case of Application Comparative Example 3, the strength and releasability were relatively good, but the water retention of the gypsum slurry was too high during the production of the gypsum board, and it was a problem that it was prone to dry defects.
[0058]
[Table 1]

[0059]
Note) The percentage (%) shown in the section of the peel resistance when absorbing water of the base paper indicates the area left without peeling off the paper from the gypsum board. Therefore, the larger the value, the higher the adhesive strength when wet.
[0060]
【The invention's effect】
The starch-based binder for gypsum board according to the present invention has the above-mentioned application due to the constitution in which the storage starch and the cortical component of the storage starch are a mixed system having a weight ratio of the former / the latter = 98/2 to 5/95. As shown in the examples and comparative examples, the strength of the inorganic core can be increased, and the adhesion between the inorganic core and the board base paper in the gypsum board can be improved.
[Brief description of the drawings]
FIG. 1 is a schematic production process diagram of corn starch by wet milling.

Claims (8)

A starch-based binder for gypsum board to be added to gypsum slurry as a raw material for gypsum board ,
A starch-based binder for gypsum board , characterized in that it is a mixed system of stored starch and cortical components of stored starch in a weight ratio of the former / the latter = 98/2 to 5/95. The starch-based binder for gypsum board according to claim 1, wherein the mixing weight ratio of the stored starch and the cortical component is the former / the latter = 90/10 to 20/80.  The starch-based binder for gypsum board according to claim 1, wherein the cortical component is a starch cake mainly composed of a shell component discharged from a starch production process of rhizome starch. The starch-based binder for gypsum board according to claim 1, wherein the cortical component is a bran mainly composed of an outer skin component discharged from a production process of rice starch. The starch-based binder for gypsum board according to claim 1, wherein the cortical component is corn birch mainly composed of an endothelial component of corn starch discharged in a corn starch manufacturing process (wet milling). The starch-based binder for gypsum board according to claim 1, wherein the mixture of the stored starch and the cortical component is acid-treated. The starch-based binder for gypsum board according to claim 1, wherein the mixture of the stored starch and the cortical component is oxidized. A method for producing a gypsum board, wherein the starch-based binder for gypsum board according to any one of claims 1 to 7 is added to a gypsum slurry as a raw material of the gypsum board .

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