JPH07301938A - Production of electrophotographic transparent transfer sheet - Google Patents

Abstract

PURPOSE:To provide a production method of an electrophotographic transparent transfer sheet having excellent transparency and smoothness after fixing of a toner by which pulps can be beaten with good workability. CONSTITUTION:Pulps are beaten by using a beater into <100ml freeness in Canadian standard. The beater is equipped with blades comprising cast iron or stainless steel the surfaces of which are coated with a carbide cermet having 1000-1200Hv Vickers hardness. The obtd. pulps are used to make paper. By this method, an electrophotographic transparent transfer sheet having transparency and smoothness is obtd. without wearing blades of the beater.

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 transparent transfer paper for electrophotography, which is used in electrophotographic copying machines and printers and is excellent in transparency and smoothness after toner fixing.

[0002]

2. Description of the Related Art For the purpose of obtaining a transparent transfer paper for electrophotography having a natural surface property, a paper is manufactured by using a pulp raw material having a low freeness that is beaten in multiple stages. Transparent transfer paper for electrophotography is highly demanded for its appearance, smoothness after heating and printing, writing property, and inclusion of foreign matter, because of its use as a transfer paper, and it has high and stable transparency and smoothness and cleanliness after toner fixing. Sex is needed.

In order to stably manufacture a transparent transfer paper for electrophotography which is excellent in transparency and smoothness after toner fixing, the power load of the beater is adjusted as the blade of the beater is worn. The beating degree is stabilized. Further, in the recent manufacturing process, labor saving is progressing, so that it is also necessary to prolong the replacement cycle of wear parts such as a blade of a beater.

[0004]

For the purpose of improving the transparency of electrophotographic transparent transfer paper and the smoothness after toner fixing, pulp beaten by various methods is used. However, in any of these cases, it was not possible to stably produce an electrophotographic transparent transfer paper having excellent transparency and smoothness after toner fixing while maintaining good beating operability. In order to obtain excellent transparency and smoothness after toner fixing in a stable manner, it is necessary to accurately adjust the pulp after beating to a predetermined freeness and fiber length. The problem is that the initial beating state is not always maintained because the blade wears. Further, there is a problem that iron powder generated due to abrasion adversely affects the appearance and the operability of the automatic paper feeder.

That is, an object of the present invention is for electrophotography which is excellent in transparency and smoothness after toner fixing in an electrophotographic copying machine or printer while performing beating of pulp under good operability. It is to stably manufacture transparent transfer paper.

[0006]

In order to solve the above-mentioned problems, the present inventor has found that the blade of the beating machine is less worn, and the transparency of the electrophotographic transparent transfer paper and the smoothness after fixing the toner are improved. Therefore, various beating methods were examined in order to satisfy both conditions of being preferable.

As a result, Vickers hardness Hv1000-
A beating machine equipped with a blade made of cast steel or stainless steel whose surface is coated with 1200 carbide cermet can be used to beat pulp, and the beaten pulp can be used to stably produce transparent transfer paper for electrophotography. Found to be very effective.

Furthermore, the carbide cermet is WC-Co.
System, WC / TiC-Ni system, WC-NiCr system, WC-
It has been found that when it is one selected from the CoCr system, a transparent transfer paper for electrophotography which is excellent in transparency and smoothness after toner fixing can be produced in a state where the blade of the beating machine is less worn.

Blades of a beater include a type having a high hardness but relatively brittle and a sharp edge being kept, and a type having a ductility and being easily rounded, but having a long life. Cast steel, stainless steel, etc. are often used for them. In order to stably obtain paper with excellent transparency and smoothness after toner fixing, the beating degree and fiber length must be adjusted accurately, and sharp edges are required, but materials with sharp edges are required. Then, the life tends to be shortened. However, the Vickers hardness Hv of the blade made of a relatively ductile material is 1000 to 1
Coating with a very hard carbide cermet in the 200 range made it possible to satisfy both the sharpness of the edge and the life of the blade.

When the blade of the beating machine used in the present invention is surface-coated, the Vickers hardness Hv, which is an index of the surface coating, is used.
Should be in the range of 1000 to 1200. Here, when the Vickers hardness Hv is less than 1000, a sufficient blade life cannot be obtained, and the fiber length becomes long, so that the smoothness of the electrophotographic transparent transfer paper after heating and printing decreases, On the other hand, if it exceeds 1200, the fiber length can be shortened, but the blade becomes brittle and the life is shortened. The Vickers hardness Hv is a value measured according to JIS Z2244 for a carbide cermet having the surface of cast steel covered.

The carbide cermet of the present invention means a sintered material in which a carbide and a metal are combined. For surface coating the blade of a beater, a carbide cermet having excellent hardness and toughness, for example, WC-Co type, WC / TiC-Ni
System, WC-NiCr system, WC-CoCr-based, Cr ₃ C ₂ -
A NiCr system or the like can be used. In particular, WC-Co
System, WC / TiC-Ni system, WC-NiCr system, WC-
In the case of CoCr-based carbide cermet, by changing the type and weight ratio of the metal to be combined with WC,
Vickers hardness Hv is preferable because it can be easily adjusted.

Examples of the method for coating the surface with these carbide cermets include, but are not limited to, plasma spraying method, flame spraying method and explosive spraying method.
The thickness of the surface coating layer is preferably 0.1 to 0.5 mm.

As the beating machine of the present invention, various refiners such as a disc refiner, a conical refiner, a cylindrical refiner and the like can be used, and the beating of the pulp is performed up to 100 ml or less with a Canadian standard freeness.

The paper is made by a Fourdrinier paper machine, a hybrid paper machine, a twin wire paper machine, etc., and if necessary, smoothed by a machine calender, a soft calender, a super calender, a thermal calender or the like.

The transparency of the present invention is high when the transparency obtained by subtracting the opacity measured according to the B method of the opacity test method for paper specified in JIS P8138 from 100 is used as the evaluation value. The more transparent it is.

The smoothness of the present invention relates to the appearance of the transparent transfer paper for electrophotography, and is the smoothness after toner fixing in an electrophotographic copying machine or printer, and the wavelength due to the texture of the paper is The contribution of relatively large unevenness of several mm or more is large.
In addition, it has a property that it changes due to deformation when it comes into contact with the surface for measurement, and therefore it is difficult to evaluate it with an ordinary smoothness measuring instrument. Therefore, in order to evaluate a subtle difference in appearance, the smoothness was evaluated by a sensory test for visually evaluating the surface of the paper immediately after printing with an electrophotographic copying machine.

As the pulp used in the present invention, kraft pulp, sulfite pulp, chemithermomechanical pulp, chemimechanical pulp and the like can be used alone or in combination of several kinds. It is also possible to use mixed softwood pulp and hardwood pulp.

The electrophotographic transparent transfer paper in the present invention includes electrophotographic copying machines and page printers.
Transparency 6 used as a recording material for continuous printers, facsimiles, full-color copiers, etc. to which this method is applied.
It is 0 or more paper.

[0019]

The method for producing a transparent transfer paper for electrophotography of the present invention comprises:
Using a beater equipped with a blade made of cast steel or stainless steel surface-coated with a carbide cermet having a Vickers hardness of Hv1000 to 1200, the pulp was beaten to 100 ml or less at Canadian standard freeness, and the beaten pulp was used. This is a method of making paper, and by this manufacturing method, the life of the beating machine blade is extended, and the operation stability is excellent, and the transparent transfer paper for electrophotography has excellent transparency and smoothness after toner fixing. Can be manufactured. In addition, the carbide cermet that coats the blade of the beater is WC-Co type, W
C / TiC-Ni system, WC-NiCr system, WC-CoC
When it is one kind selected from the r series, it becomes possible to produce a transparent transfer paper for electrophotography, which is excellent in transparency and smoothness after toner fixing, under more stable conditions.

[0020]

EXAMPLES Hereinafter, the present invention will be described in detail with reference to Examples. The present invention is not limited to the examples. All parts and% in the following are by weight.

Example 1 A blade of a double disc refiner having an outer diameter of 20 inches (material: 17-4PH, groove width: 5 mm, groove depth: 5 mm) was attached with a WC.
-19Co, WC-27NiCr, WC / TiC-16
A surface coating treatment of Ni and three different kinds of carbide cermets having a thickness of 0.1 mm was performed by a plasma spraying method. The Vickers hardness of the blade after the surface coating treatment was changed to 1000, 1100, and 1200 and 3 levels, respectively.

NBKP (concentration 3.8%, weight average fiber length 2.80 mm) was treated 20 times with a double disc refiner (rotation speed 16 revolutions / second) equipped with these blades, and Canadian standard freeness 60 ml. I beat up. The pulp weight-average fiber length after beating was 0.75, 0.70, and 0.66, respectively, in the order of decreasing Vickers hardness Hv.
It was mm. A transparent transfer paper for electrophotography having a basis weight of 75 g / m ² was produced using a fourdrinier paper machine using these pulps.
In the size press, 1.5 g / m ² of oxidized starch and OD of sodium chloride were used. 1g / m ² coating, then density is 0.
Machine calendering was performed so that the weight became 90 g / cm ³ . These samples are referred to as Samples 1-3, 1-4, and 1-5 in order of decreasing weight average fiber length.

Comparative Example 1 A transparent transfer paper for electrophotography was obtained by the same method as in Example 1 except that the blade was not subjected to the thermal spraying treatment. The weight average fiber length of the pulp after beating was 0.68 mm. This sample is referred to as sample 1-1.

Comparative Example 2 In Example 1, the type of carbide cermet was Cr ₃ C ₂
By changing it to -20NiCr or WC-10Co, the Vickers hardness Hv can be set to 2 of 900 and 1300.
A transparent transfer paper for electrophotography was obtained by the same method except that the level was changed. The weight average fiber lengths of the pulp after beating were 0.77 and 0.64 mm, respectively. These samples are referred to as samples 1-2 and 1-6, respectively.

The electrophotographic transparent transfer papers prepared in Example 1 and Comparative Examples 1 and 2 were evaluated by the following evaluation methods, and the results are summarized in Table 1.

[Weight Average Fiber Length] The fiber length is a weight average fiber length measured by using a Kayani fiber length measuring machine (FS-100), and the unit is mm.

[Transparency] The transparency is JIS P 813.
It is a value obtained by subtracting the opacity measured according to the B method of No. 8 from 100, and 68 or more, preferably 69 or more is required for the electrophotographic transparent transfer paper having excellent transparency.

[Smoothness] Smoothness is equivalent to that of an electrophotographic copying machine (F
X5080, manufactured by Fuji Xerox Co., Ltd.) is the result of visual evaluation of the smoothness of the paper surface immediately after toner fixing. The one with the best smoothness was evaluated as A and the one with the poorest smoothness was evaluated as D. The electrophotographic transparent transfer paper having excellent smoothness requires C or more, preferably B or more (A, B).

[Blade Life] The blade life is 1.5 when the power load for obtaining the same freeness and fiber length is immediately after the blade is replaced.
It represents the operating time until it doubles. If this value is 2000 hours or more, more preferably 2200 hours or more,
Abrasion is judged to be good.

[Iron reaction] The iron reaction is the result of a sensory test in which the degree of mixing of iron powder caused by the wear of the blade is visually evaluated with respect to a standard sample. Specifically, in order to clarify the presence of iron powder, a treatment was carried out by spraying a 5% aqueous solution of yellow blood salt on the sample surface, and then spraying a 5% hydrochloric acid aqueous solution. In Table 1, "++" indicates that it is clearly recognized, "+" indicates that it is slightly recognized, and "-" indicates that it is not recognized at all. It is necessary that the transparent transfer paper for electrophotography be "-".

[0031]

[Table 1]

By comparing Samples 1-3 to 1-5 in Table 1 with Sample 1-1, the Vickers hardness Hv is 1000 to
It is clear that a transparent transfer paper for electrophotography which is excellent in transparency and smoothness after toner fixing is obtained from pulp beaten using a beater equipped with a blade coated with 1200 carbide cermet. In that case, it is also clear that the life of the beater of the beater is long and there is no mixing of iron powder in the paper. or,
By comparing Samples 1-3 to 1-5 with Sample 1-2, it can be seen that when the Vickers hardness Hv is less than 1000, the smoothness deteriorates and the life of the blade tends to decrease. Furthermore, by comparing Samples 1-3 to 1-5 with Sample 1-6, when the Vickers hardness Hv exceeds 1200, the life of the blade decreases and the iron powder mixed due to the wear of the blade tends to increase. It turns out that

[0033]

Industrial Applicability The method for producing a transparent transfer paper for electrophotography of the present invention, that is, pulp using a beating machine equipped with a blade made of cast steel or stainless steel whose surface is coated with a carbide cermet having a Vickers hardness of 1000 to 1200 is used. Is beaten to 100 ml or less with Canadian standard freeness, and the beaten pulp is used to produce a transparent transfer paper for electrophotography, which prolongs the life of the beating machine blade.
It is possible to produce a transparent transfer paper for electrophotography, which is excellent in transparency and smoothness after fixing a toner, in a state of excellent operation stability.

Claims (2)

[Claims] 1. Vickers hardness Hv 1000-1200
Characterized in that pulp is beaten to 100 ml or less at Canadian standard freeness using a beater equipped with a blade made of cast steel or stainless steel whose surface is coated with the carbide cermet, and papermaking is performed using the beaten pulp. A method for producing a transparent transfer paper for electrophotography. 2. The carbide cermet is WC-Co type, W
C / TiC-Ni system, WC-NiCr system, WC-CoC
It is one kind selected from r-systems.
A method for producing the described photographic support.