JPH03892A - Backing paper for wallpaper - Google Patents

Abstract

PURPOSE:To obtain the subject backing paper hardly generating unsealing or lapping at joint of wallpaper in applying wallpaper on alkaline substrate comprising cellulosic fiber as main component, mixing with alkali-resistant inorganic fiber and making to paper in mixed state. CONSTITUTION:Cellulosic fiber is used as main component and mixed with 1-50% alkali-resistant inorganic fiber (preferably A-glass fiber or ECR-glass fiber), then made to paper in mixed state to afford the aimed backing paper. Besides, said inorganic fiber preferably has 1.0-15 mm fiber length and 1.0-25mum diameter.

Description

[Detailed Description of the Invention] [Industrial Field of Application] The present invention provides a method for improving the strength over time of 2 when wallpaper such as PVC wallpaper, 'A' wallpaper, and inorganic wallpaper is applied to an alkaline base such as concrete. The present invention relates to wallpaper lining paper that is mainly made of cellulose fibers and exhibits little deterioration in dimensional stability.

[Conventional technology]

Wallpapers such as PVC wallpaper, textile wallpaper, and inorganic wallpaper have been mainly used as interior materials for buildings, but the bases to which they are pasted are plasterboard and plywood.

Laminated wood, etc. are common.

Such wallpaper repeatedly absorbs and desorbs moisture due to changes in temperature and humidity conditions, and eventually opens and curls at the joints between the wallpapers, resulting in deterioration in appearance.

As one of the measures to improve this, conventionally, a backing paper mixed with E or C glass fiber, which has good dimensional stability and is relatively inexpensive, has been used.

When wallpaper lined with mixed paper such as Kokoga-no-Ko is applied directly to an alkaline substrate such as concrete, mortar, or slate board, it will contain E or C, which has poor alkali resistance, except for the main component, cellulose fiber, which has good alkali resistance. Glass fiber becomes brittle due to the influence of alkali from the base due to moisture absorption.

As a result, the strength and two-dimensional stability of the backing paper deteriorates, and the wallpaper becomes more likely to open up and curl up.

For this reason, there is a desire for a backing paper for wallpaper that has good alkali resistance and is unlikely to open or curl even when applied directly to an alkaline base.

[Problem to be solved by the invention]

The present invention is designed to reduce the alkali resistance of slate board 2, when installing wallpaper on an alkaline base such as mortar or concrete, the seams of the wallpaper may open up and curl up due to moisture absorption and desorption over time. It concerns a good wallpaper backing paper.

[Means to solve the problem]

The inventors have demonstrated oral strength even under alkaline conditions.

As a result of intensive study on lining paper with less deterioration in dimensional stability, we found that this objective can be achieved by mixing 1 to 50% of inorganic fibers with good alkali resistance into lining paper that is mainly made of cellulose fibers. This is what I discovered.

The present invention will be explained in more detail.

For the cellulose fiber used as the main component in the present invention, high-yield pulp such as kraft pulp, sulfide pulp, and ground pulp, cotton linter pulp, etc. can be used, and cellulose fibers are particularly limited. It's not something you do.

Inorganic fibers with good alkali resistance used in the present invention include A glass fiber and ECR glass fiber.

Examples include glass fiber 2, quartz glass fiber, and asbestos, but A glass fiber and ECR glass fiber are preferable in consideration of papermaking suitability, dimensional stability, safety, and the like.

If the blending amount of the inorganic fiber with good alkali resistance used in the present invention is less than 1%, the blending amount will be too small and sufficient dimensional stability will not be achieved. If it exceeds 50%, rigid inorganic fibers account for the majority, resulting in a sheet with too low density after paper formation, resulting in a decrease in paper strength and poor processability during wallpaper production, which is undesirable.Good dimensional stability and paper 1-50% is optimal for obtaining power.

The fiber length of the inorganic fiber is preferably 1.0 to 151 m1 in consideration of dimensional stability and suitability for paper making. If it is less than 1■, the suitability for paper making will be good, but the dimensional stability will deteriorate. On the other hand, if the length exceeds 15 m, the dimensional stability improves, but the suitability for paper making deteriorates, which poses a problem.

The optimal diameter of the inorganic fiber is 1.0 to 257M, and 1.0 to 257M.
．． When it is less than 0-, dimensional stability deteriorates. Also 25-
Exceeding this is undesirable as it causes a decrease in paper strength 9 dimensional stability.

Furthermore, there is no limit to the number of parts of the sizing agent, paper strength improver, fixing agent, dye, and lithium refueling agent used in paper making.

[For production]

The present inventors have developed a wallpaper lining paper mainly composed of cellulose fibers, in which inorganic fibers with good alkali resistance are used.
By mixing paper in the range of 50%, we have found a lining paper that is difficult to open and curl up at the seams of wallpaper when wallpaper is installed on an alkaline base.

Cellulose fibers generally have good alkali resistance; for example, commercially available bleached LBKP is diluted with 1% NaOH at room temperature for 24 hours.
Paper strength when paper is made after time treatment and washing.

The elongation in water is almost the same as before treatment, and when E glass fiber with poor alkali resistance is treated under similar conditions, the weight decreases by about 50%, making it impossible to measure the strength. In contrast, the A glass fiber, which has good alkali resistance, has a weight loss of less than 1% and almost no strength loss.

As described above, since the present invention is a lined paper using cellulose fibers and inorganic fibers with good alkali resistance, it is believed that good oral strength and two-dimensional stability can be maintained even when applied to an alkaline base. It will be done.

(Example〕 The present invention will be illustrated below by way of examples.

Example I NBKP (reactor water level: 400MM) 45% by weight, L
A slurry was prepared in which 45% by weight of BKP (furnace water level: 500aQ) and 10% of A glass fiber (diameter 17m, length: 4,5 wa), which is an alkali-resistant inorganic fiber, were uniformly dispersed in water. 0.1% by weight of sulfate (based on fiber) and 0.2% by weight (based on fiber) of an epichlorohydrin resin-based wet paper strength improver were added, and JIS P-
A hand-made paper with a basis weight of 80 g/rrr was prepared according to 8209, and this was used as a backing paper. However, a cylinder dryer was used for drying. This material was immersed in a 1.0% by weight NaOH solution for 24 hours at room temperature, and then dehydrated and dried in the same manner as for handmade paper. In the performance test, the tensile strength and elongation in water were measured for the backing paper before and after alkali treatment.

Comparative Example I 50% by weight of NBKP (v1 water level: 400d), LBK
A pulp slurry containing 50% by weight of P (ice charcoal: 500d) was prepared, and as in Example 1, the basis weight was 80g/
A backing paper for rrl' was prepared and a performance test was conducted.

Comparative Example 2 NBKP (Furnace Ice Charcoal: 4QQd) 45% by weight, LB
KP (F ice charcoal: 500d) 45% by weight, E glass fiber which is an inorganic fiber with poor alkali resistance (diameter: 17
A slurry was prepared by uniformly dispersing 10% by weight (4° length: 4.5 m) in water. Hereinafter, the basis weight is 80g as in Example 1.
/i backing paper was prepared and a performance test was conducted.

Comparative example 3 NBKP (furnace ice charcoal: 4QOa+jl) 45% by weight,
LBKP (?71 water level: 500mj2) 45% by weight, 7/Lz force resistance 1.1m 10% by weight of A glass fiber (diameter: 0.5Ijmy, length: 0.6m), which is a texture fiber, is uniformly dispersed in water. A slurry was created. Below, Example 1
A backing paper with a basis weight of 80 g/i was prepared in the same manner as above, and a performance test was conducted.

Example 2 NBKP (furnace ice charcoal: 350d) 30% by weight, LB
A slurry was prepared by uniformly dispersing in water 30% by weight of KP (ice charcoal: 500 d) and 40% by weight of ECR glass fiber (diameter = 9-9 length: 3 m), which is an alkali-resistant inorganic fiber. Thereafter, a backing paper with a basis weight of 90 g/i was prepared in the same manner as in Example 1, and a performance test was conducted.

Comparative example 4 NBKP (furnace ice charcoal: 350mQ) 30% by weight, L
BKP (v1 water level: 500d) 10% by weight, ECR glass fiber, which is an alkali-resistant inorganic fiber (diameter:
9Ia.

Length: 3cm) A slurry was prepared by uniformly dispersing 60% by weight in water. Thereafter, a backing paper with a basis weight of 90 g/i was prepared in the same manner as in Example 1, and a performance test was conducted.

The performance evaluation results are shown in Table 1.

Table 1 Test method 1. Tensile strength: According to JIS-P8113.

2. Elongation in water: A sample was immersed in water for 1 hour, and the elongation was determined from the dimensional change before and after immersion.

Elongation in water (%) = (B-A)/A It can be seen that in Comparative Example 1, which was not treated, the elongation in water, which is an index of dimensional stability, was significantly inferior both before and after the alkali treatment. Furthermore, it can be seen that Comparative Example 2, in which inorganic fiber E glass fiber having poor alkali resistance was blended, had poor strength and elongation in water after alkali treatment compared to Example 1. Furthermore, Comparative Example 3, in which inorganic fibers with short fiber length and small diameter were blended, was found to have inferior elongation in water both before and after the alkali treatment compared to Example 1. In addition, ECR, which is an alkali-resistant inorganic fiber,
Comparative Example 4, which contains 60% A glass fiber, contains 40% of the same fiber.
It is recognized that the paper strength is inferior to that of Example 2, in which % of the paper was mixed. In contrast, it has been shown that the examples of the present invention do not deteriorate in both strength and two-dimensional stability even under alkaline conditions.

Patent applicant: Sanyo Kokusaku Valve Co., Ltd.

Claims (1)

[Claims] 1. A lining paper for wallpaper, which is mainly composed of cellulose fibers and mixed with 1 to 50% of alkali-resistant inorganic fibers. 2. The wallpaper lining paper according to claim 1, wherein the inorganic fiber is A glass fiber. 3. The wallpaper lining paper according to claim 1, wherein the inorganic fiber is ECR glass fiber. 4 The fiber length of the inorganic fiber is 1.0 to 15 mm and the diameter is 1
．． The wallpaper lining paper according to any one of claims 1 to 3, which has a particle size of 0 to 25 μm.