JPH07109165A - Production of hardening material by fiber reinforced cement - Google Patents

Abstract

PURPOSE:To provide a method capable of producing the hardening material without lowering production speed treated on a screen, free from the occurrence of production trouble and further without deteriorating the properties. CONSTITUTION:A hardening material by fiber reinforced cement is produced by treating on a screen the compounded material obtained by compounding cement as a main component with an aggregate material and a reinforcing pulp fiber. A breached waste-paper pulp treated in a regeneration process and having Canadian freeness of >=650csf is used as the above mentioned reinforcing pulp fiber of this process.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for producing a fiber-reinforced cement cured product used as a building board or the like.

[0002]

2. Description of the Related Art Pulp has been generally used as a reinforcing fiber for an inorganic hardened product mainly made of cement. Most of this pulp is NU produced from wood chips
Although virgin pulp such as KP and LUKP is used, a part of the pulp is recycled pulp made from recycled cardboard or the like due to the movement of forest resource protection and resource recycling.

The above-mentioned cardboard waste paper pulp is a typical example of the recycled pulp, but many recycled pulps are once made into paper and are beaten to give paper strength. Since various additives are used depending on the application, they remain as impurities even after the regeneration treatment.

[0004]

However, the recycled pulp that has been beaten as described above has poor drainage performance, and a blended material prepared by mixing such recycled pulp with cement to prepare a slurry is used as a round net. When performing shaping in the papermaking method or the Fourdrinier papermaking method, there is a problem that the production speed is significantly reduced. Further, as described above, when various additives are contained in the recycled pulp as impurities, foaming may occur during the papermaking process, or production problems such as hardening inhibition of cement may occur, and further cement There is a problem that the physical properties of the cured product cannot be secured.

The present invention has been made in view of the above points, and does not reduce the production speed by papermaking,
It is another object of the present invention to provide a method for producing a fiber-reinforced cement cured product that can be produced without causing production troubles and further without lowering physical properties.

[0006]

A method for producing a fiber-reinforced cement hardened body according to the present invention is to produce a fiber-reinforced cement hardened body by paper-making a compounded material containing cement as a main component and an aggregate and a reinforcing pulp fiber. In manufacturing, the above-mentioned reinforcing pulp fiber has a Canadian freeness of 650 cs.
It is characterized in that a recycled bleached waste paper pulp having a value of f or more is used.

In the present invention, as reinforcing pulp fibers, bleached waste paper pulp for cotton products such as towels and underwear, bleached waste paper pulp for paper diapers, bleached waste paper pulp for paper cups, and paper packs for beverages such as milk are used. Bleached waste paper pulp can be used. Further, in the present invention, papermaking can be performed using a Fourdrinier papermaking machine. Hereinafter, the present invention will be described in detail. Any cement such as early-strength cement or blast furnace cement can be used, and any aggregate such as silica sand, silica stone, fly ash, mica, calcium carbonate can be used as the aggregate. Then, a cement-based main component is mixed with an aggregate and a reinforcing pulp fiber, and these are dispersed in water to prepare a slurry-shaped compounding material.

The reinforcing pulp fiber is not particularly limited, such as bleached or unbleached kraft pulp of softwood and hardwood, hemp, and other organic fibers such as vinylon and polyethylene can be used. Then, as a part of the reinforcing pulp fiber or in place of these, as a whole of the reinforcing pulp fiber, recycled waste paper pulp of industrial waste is used.

As the recycled waste paper pulp, one having a freeness of 650 csf or more in Canadian freeness is used, and bleached waste paper pulp in a refined and bleached state after further bleaching treatment is used. By using a Canadian freeness having a freeness of 650 csf or more, it is possible to maintain a high drainage at the time of papermaking, and the bleached waste paper pulp subjected to the bleaching treatment contains various kinds of waste paper. The additive can be used in a state where impurities are reduced by removing the additive. The bleaching treatment can be performed using a bleaching agent such as sodium chlorite and hydrogen peroxide, and this bleaching treatment may be performed before or after the regeneration treatment. The bleaching treatment is preferably performed so that the lignin and hemicellulose of the pulp are close to zero. The amount of the bleached waste paper pulp used as the reinforcing pulp fiber is not limited, and the mixing ratio may be set according to the target papermaking properties and physical properties.

The bleached waste paper pulp as described above includes bleached waste paper pulp for cotton products such as towels and underwear, bleached waste paper pulp for diapers, bleached waste paper pulp for paper cups, and bleached waste paper for beverages such as milk. Pulp can be used. As a bleached waste paper pulp for cotton products, it is desirable to cut the fiber length to 5 mm or less. Further, some paper diapers contain a water-absorbing polymer, and in this case, the water-absorbing polymer is preferably removed and used as bleached waste paper pulp. In order to remove the water-absorbing polymer, it is preferable to disintegrate the pulp, wash with a large amount of water and make paper. Furthermore, in the case of bleached waste paper pulp for paper cups, it is desirable to use the recycled products after removing impurities as much as possible. The same applies to the case of bleached waste paper pulp in paper packs for beverages.

A fiber-reinforced cement cured product can be produced by forming and shaping the slurry-like compounding material prepared as described above. This can be performed by molding a slurry-like compounding material into an uncured cement sheet (green sheet) and shaping it using a Fourdrinier paper machine or the like that uses felt or the like as cloth. Here, by using a bleached waste paper pulp having a freeness of 650 csf or more as the Canadian freeness, it is possible to secure the same freeness as in the case of using virgin pulp, thereby increasing the papermaking speed and increasing the productivity. Is something that can be done.
In addition, the bleaching treatment can prevent various additives contained in the waste paper from acting as impurities in the papermaking process, causing foaming in the papermaking process and inhibiting hardening of the cement. It prevents the occurrence of production troubles such as rusting, and also enables stable and stable papermaking of the drainage of the compounding material, and further improves the adhesion between waste paper pulp and cement to improve the fiber-reinforced cement cured product. The strength of can be improved.

[0012]

By using recycled paper pulp having a Canadian freeness of 650 csf or more as the reinforcing pulp fiber, drainage can be secured and papermaking speed can be increased. Further, by using bleached waste paper pulp, various additives contained in the waste paper can be removed during the bleaching treatment, and the one free from impurities can be used.

[0013]

The invention will now be illustrated by the examples. (Example 1) A waste product of knitted underwear is exposed to sodium chlorite, wet disaggregated with a pulper, cut with a disc refiner to have a fiber length of 5 mm or less, and dried to give a bleached waste paper. The pulp was obtained. The Canadian freeness of this bleached waste paper pulp was 750 csf.

Next, after the bleached waste paper pulp is sufficiently dispersed in water, the bleached waste paper pulp is adjusted to 6% by weight.
Solid components were hydromixed at a compounding ratio of 55% by weight of cement, 30% by weight of fly ash, 5% by weight of mica, and 4% by weight of calcium carbonate to prepare a slurry-like compounding material. After making the slurry-form compounded material with a Fourdrinier paper machine, a 12 mm-thick plate was formed by dewatering press molding, and primary curing was carried out at room temperature for 8 hours, and then secondary curing was performed.
The fiber-reinforced cement hardened body was obtained by carrying out 80 degreeC for 80 hours, and also by drying at 60 degreeC for 72 hours.

(Example 2) A paper diaper was pulverized by a dry method to remove polyvinyl chloride, rubber and the like through a first screen, and then a water absorbing polymer was roughly removed through a second screen. Was dispersed in water to swell the water-absorbent polymer and wet-milled, and the water-absorbent polymer was removed with a screen so as not to swell with magnesium chloride. After this, the paper was dried and further bleached with sodium chlorite to obtain bleached waste paper pulp.
The Canadian freeness of this bleached waste paper pulp is 730c.
It was sf. Then, using this bleached waste paper pulp, a fiber-reinforced cement cured product was obtained in the same manner as in Example 1.

Example 3 A bleached waste paper pulp was obtained by wet disintegrating a paper cup with a pulper, separating impurities and pulp with a screen, drying the paper, and subjecting it to a bleaching treatment with sodium chlorite. The Canadian freeness of this bleached waste paper pulp was 670 csf. Then, using this bleached waste paper pulp, a fiber-reinforced cement cured product was obtained in the same manner as in Example 1.

(Example 4) 3% by weight of bleached waste paper pulp of knitted underwear obtained in Example 1 was used as a reinforcing pulp fiber, and NU was used.
1.5% by weight of KP virgin pulp and 1.5% by weight of LUKP virgin pulp were mixed to be used as 6% by weight. The Canadian freeness of this pulp is 71
It was 0 csf. Then, using this pulp, a fiber-reinforced cement cured product was obtained in the same manner as in Example 1.

(Example 5) The reinforcing pulp fiber was 1.5% by weight of the bleached waste paper pulp of the paper diaper obtained in Example 2 and NU.
3% by weight of KP virgin pulp and 1.5% by weight of LUKP virgin pulp were mixed to be used as 6% by weight. The Canadian freeness of this pulp is 680c
It was sf. Then, using this pulp, Example 1
A fiber-reinforced cement cured product was obtained in the same manner as in.

(Example 6) The reinforcing pulp fiber was 1.5% by weight of the bleached waste paper pulp of the paper cup obtained in Example 3 and NU.
3% by weight of KP virgin pulp and 1.5% by weight of LUKP virgin pulp were mixed to be used as 6% by weight. The Canadian freeness of this pulp is 650c
It was sf. Then, using this pulp, Example 1
A fiber-reinforced cement cured product was obtained in the same manner as in.

Example 7 A bleached waste paper pulp was obtained by wet disintegrating a milk pack with a pulper, separating impurities and pulp with a screen, drying with papermaking, and further subjecting to bleaching treatment with sodium chlorite. The Canadian freeness of this bleached waste paper pulp was 660 csf. Then, using this bleached waste paper pulp, a fiber-reinforced cement cured product was obtained in the same manner as in Example 1.

(Comparative Example 1) Recycled cardboard waste paper pulp which had not been bleached was used as the reinforcing pulp fiber. The Canadian freeness of this cardboard waste paper pulp was 590 csf. Then, using this cardboard waste paper pulp, a fiber-reinforced cement cured product was obtained in the same manner as in Example 1.

(Comparative Example 2) A reinforcing pulp fiber was mixed with NUK.
3% by weight of P virgin pulp and 3% by weight of LUKP virgin pulp were mixed to be used as 6% by weight.
The Canadian freeness of this pulp was 640 csf. Then, using this pulp, a fiber-reinforced cement cured product was obtained in the same manner as in Example 1.

In each of the above Examples 1 to 7 and Comparative Examples 1 and 2, the upper limit of the paper making speed of the Fourdrinier paper making machine was measured, and the tensile strength and absolute dry specific gravity of the fiber-reinforced cement cured product were measured. did. The results are shown in the table below.

[0024]

[Table 1]

As can be seen from Table 1, in each of the examples in which the recycled bleached waste paper pulp having a Canadian freeness of 650 csf or more was used as the reinforcing pulp fiber, the Canadian freeness was 650 csf.
Compared to the smaller ones of Comparative Examples 1 and 2, the papermaking speed can be increased and the production speed can be improved.
It was also confirmed that the physical properties of the fiber-reinforced cement cured product were superior to those of Comparative Example 1 which was not subjected to the bleaching treatment.

[0026]

As described above, in the present invention, in producing a fiber-reinforced cement cured product by making a compounded material containing cement as a main component and an aggregate and a reinforcing pulp fiber,
Since the recycled bleached waste paper pulp having a Canadian freeness of 650 csf or more is used as the reinforcing pulp fiber, it is possible to protect forest resources by effectively using industrial waste by using a recycled product. Of course, Canadian Freeness is 650
A reinforcing pulp fiber having a drainage of not less than csf can increase the speed of papermaking to improve productivity, and the use of bleached waste paper pulp can be used without any impurities, resulting in production trouble. Production can be performed without further degrading the physical properties.

[Procedure amendment]

[Submission date] November 22, 1993

[Procedure Amendment 1]

[Document name to be amended] Statement

[Name of item to be corrected] 0015

[Correction method] Change

[Correction content]

Example 2 A paper diaper was pulverized by a dry method to remove polyvinyl chloride, rubber and the like through a first screen, and then a water absorbing polymer was removed through a second screen. After this, the paper was dried and further bleached with sodium chlorite to obtain bleached waste paper pulp. The Canadian freeness of this bleached waste paper pulp is 73
It was 0 csf. Then, using this bleached waste paper pulp, a fiber-reinforced cement cured product was obtained in the same manner as in Example 1.

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Claims (6)

[Claims] 1. A recycled material having a Canadian freeness of 650 csf or more as the reinforcing pulp fiber when a fiber-reinforced cement hardened product is produced by making a compounding material containing cement as a main component and an aggregate and a reinforcing pulp fiber. A method for producing a fiber-reinforced cement cured product, which comprises using treated bleached waste paper pulp. 2. The method for producing a cured fiber-reinforced cement product according to claim 1, wherein a bleached waste paper pulp obtained by regenerating a cotton product such as a towel or underwear is used as the reinforcing pulp fiber. 3. The method for producing a fiber-reinforced cement hardened product according to claim 1, wherein bleached waste paper pulp of a paper diaper is used as the reinforcing pulp fiber. 4. The method for producing a fiber-reinforced cement hardened product according to claim 1, wherein bleached waste paper pulp of a paper cup is used as the reinforcing pulp fiber. 5. The method for producing a hardened fiber-reinforced cement according to claim 1, wherein bleached waste paper pulp of a paper pack of a beverage such as milk is used as the reinforcing pulp fiber. 6. The method for producing a fiber-reinforced cement cured product according to claim 1, wherein the papermaking is performed using a Fourdrinier papermaking machine.