CN106702809B

CN106702809B - A kind of high temperature resistant inorganic label paper

Info

Publication number: CN106702809B
Application number: CN201611095797.3A
Authority: CN
Inventors: 朱英杰; 董丽颖
Original assignee: Shanghai Institute of Ceramics of CAS
Current assignee: Shanghai Institute of Ceramics of CAS
Priority date: 2016-12-02
Filing date: 2016-12-02
Publication date: 2018-09-28
Anticipated expiration: 2036-12-02
Also published as: CN106702809A

Abstract

The present invention relates to a kind of high temperature resistant inorganic label paper, the inorganic refractory facestock layer of the high temperature resistant inorganic label paper includes hydroxyapatite overlong nanowire and inorfil.The inorganic label paper of the novel fire resistant, without any organic matter, with higher temperature tolerance, can use for a long time in the high temperature environment compared with traditional high temperature resistant labels, have noninflammability and good thermal insulation.

Description

A kind of high temperature resistant inorganic label paper

Technical field

The invention belongs to novel inorganic incombustible paper and its application fields, and in particular to one kind is by hydroxyapatite overlength nanometer The inorganic refractory paper of line and the compound preparation of inorfil and its in the hot environment higher than room temperature as the application of label paper.

Background technology

High temperature resistant paper is just playing increasingly important role, such as high temperature isolation in industrial production and people’s lives Paper, industrial high temperature resistant liner, high-temperature resistant label paper etc..High-temperature resistant label paper major applications in special industrial environment, such as Nuclear power plant or steel plant's high-temperature area.High-temperature resistant label paper currently on the market generally uses polyphenylene sulfide (PPS), plant fiber Surface is coated with high-temperature resistant coating and is made, and high-temperature resistant label paper generally existing heat resistance currently on the market is poor, and (highest is resistant to 300 DEG C) the shortcomings that.The present invention using hydroxyapatite overlong nanowire with inorfil is compound prepares high-temperature resistant label paper, with Traditional high-temperature resistant label paper is compared, and the high-temperature resistant label paper prepared by the present invention is inorganic refractory paper, is not burnt, with higher Thermal stability.

Invention content

It is an object of the invention to utilize a kind of good biocompatibility, heat safe hydroxyapatite overlong nanowire and nothing Machine fiber composite prepares the inorganic label paper of novel fire resistant.

On the one hand, the present invention provides a kind of high temperature resistant inorganic label paper, the high temperature resistant inorganic label paper it is inorganic resistance to Fiery facestock layer includes hydroxyapatite overlong nanowire and inorfil.

Preferably, in the high temperature resistant inorganic label paper hydroxyapatite overlong nanowire mass percent >=40%, Preferably 50~70wt%.

Preferably, the hydroxyapatite overlong nanowire be can in water with existing for monodisperse status a diameter of 2~ 100nm, length are that the hydroxyapatite nano line of 50nm~100 μm assembles the two-dimensional network structure hydroxyapatite nano to be formed Line or a diameter of 5~100nm, the hydroxyapatite overlong nanowire that length is 20~2000 μm.

Preferably, inorfil used when preparing includes glass fibre, carbon fiber, boron fibre, oxide fibre, silicic acid Salt fiber, silicon carbide fibre and metallic fiber, a diameter of 1~15 μm of the inorfil, length be 1~12mm.

Preferably, thickness >=50 μm of the high temperature resistant inorganic label paper.

The present invention also provides a kind of application of high temperature resistant inorganic label paper in the hot environment higher than room temperature.

The invention has the advantages that：

High-temperature resistant label paper of the present invention has good biocompatibility, high-flexibility, fire resisting and heat-resisting quantity Energy.

Description of the drawings

Fig. 1：High-temperature resistant label paper prepared by the embodiment of the present invention 1；

Fig. 2：The fire resistance test of high-temperature resistant label paper prepared by the embodiment of the present invention 1；

Fig. 3：High-temperature resistant label paper prepared by the embodiment of the present invention 1 is using the photo after laser printer types.

Specific implementation mode

It is further illustrated the present invention below by way of following embodiments, it should be appreciated that following embodiments are merely to illustrate this Invention, is not intended to limit the present invention.

The present invention can be used hydroxyapatite overlong nanowire and inorfil and the high temperature resistant be prepared as raw material Label paper.Weight percent of the hydroxyapatite overlong nanowire of the present invention in high temperature resistant inorganic label paper >= 40%, preferred hydroxyapatite overlong nanowire weight percent is 50~70%.Specifically, by well dispersed hydroxyl Apatite overlong nanowire water slurry is mixed with inorfil water slurry, and being slowly stirred makes hydroxyapatite overlong nanowire It is uniformly wrapped on the surface of inorfil, above-mentioned composite material water slurry is then prepared into tool using traditional paper-making process There is good flexible inorganic refractory paper；Further, which is used as high-temperature resistant label paper.

Solvent-thermal method preparation may be used in hydroxyapatite overlong nanowire of the present invention, can refer to document and patent report It is prepared by the method in road, such as：Zhu Yingjie, Lu Bingqiang, Chen Feng, the non-ignitable hydroxyapatite paper of high-flexibility high temperature resistant and its preparation Method, patent No. ZL201310687363.2；Ying-Ying Jiang,Ying-Jie Zhu,Feng Chen,Jin Wu, Ceramics International,41,6098-6102(2015)；Yong-Gang Zhang,Ying-Jie Zhu Feng Chen,Jin Wu,Materials Letters,144,135-137(2015).Other suitable preparation methods, institute can also be used As long as the hydroxyapatite overlong nanowire can be prepared with method.The hydroxyapatite overlong nanowire it is straight Diameter can be 5~100nm, and length can be 20~2000 μm.

Present invention preferably employs by can in water with a diameter of 2~100nm, length existing for monodisperse status for 50nm~ 100 μm of hydroxyapatite nano line assembles the two-dimensional network structure hydroxyapatite nano line to be formed.The two-dimensional network structure The preparation method of hydroxyapatite nano line can be used：Using water-soluble Ca salt as calcium source, using water-soluble phosphate as phosphorus source, Using water-soluble fatty acid salt as reactant, surfactant and emulsifier, using water as solvent, reaction precursor is obtained after mixing Liquid suspension；By gained reaction precursor liquid suspension at 100~250 DEG C after hydro-thermal process 1 hour~7 days, then through detaching simultaneously Being washed with water to obtain can be in water with hydroxyapatite nano line existing for monodisperse status；Existing for the monodisperse status Hydroxyapatite nano line is dispersed in water, and addition ethyl alcohol, separation product, washing, alcohol are washed to obtain the two-dimensional network structure hydroxyl Base apatite nano wire.

In the present invention, the water solubility fatty acid salt includes but is not limited to oleate, linoleate, stearate, the moon Cinnamic acid salt, myristate and palmitate.The fatty acid salt can make any type salt of aliphatic acid, preferred fatty acid Receive salt or sylvite.It is interpreted as that a kind of fatty acid salt can be used, two or more fatty acid salt can also be used.Additionally It is generally understood that using the reaction product of corresponding aliphatic acid and alkali, for example, oleic acid and sodium hydroxide reaction product.Fatty acid salt Water formation fatty acid salt aqueous solution can be first dissolved in and add reaction system, the molar concentration of the fatty acid salt aqueous solution can be 0.01~10 mol/L.The water-soluble Ca salt include but is not limited to calcium chloride, calcium sulfate, calcium acetate, calcium nitrate and/or Its hydrate, it should be understood that a kind of water-soluble Ca salt can be used, two or more water-soluble Ca salt can also be used；Additionally It is generally understood that using water-soluble calcium salt hydrate, such as CaCl₂·2H₂O.The water-soluble calcium saline solution molar concentration can For 0.001~10 mol/L, preferably 0.01~2 mol/L.

Water-soluble phosphoric acid saline solution is added in above-mentioned precursors, and it is outstanding to obtain precursors after evenly mixing Supernatant liquid.The molar concentration of the water-soluble phosphoric acid saline solution can be 0.001~10 mol/L, preferably 0.01~2 mole/ It rises.The water-soluble phosphate include but is not limited to sodium phosphate, sodium dihydrogen phosphate, disodium hydrogen phosphate, sodium tripolyphosphate, six partially Sodium phosphate, potassium phosphate, dipotassium hydrogen phosphate, potassium dihydrogen phosphate, potassium tripolyphosphate, hexa metaphosphoric acid potassium, ammonium phosphate, diammonium hydrogen phosphate, The hydrate of ammonium dihydrogen phosphate, tripolyphosphate ammonium, Hexamethylphosphoric acid triamide, and/or the above compound.It should be understood that can be used a kind of water-soluble Two or more water-soluble phosphate can also be used in acid phosphate；In addition it should be further appreciated that using water-soluble phosphoric acid The hydrate of salt, such as NaH₂PO₄·2H₂O。

In the present invention, the molar ratio of the water-soluble fatty acid salt and calcium source is 10:1~1:10, it is preferable that its mole Than being 7:2~5:1.The molar ratio of the water-soluble Ca salt and water-soluble phosphate can be 1:10~10:1, preferably 1:2~2: 1。

By reaction precursor liquid suspension at 100~250 DEG C after hydro-thermal process 1 hour~7 days, then through detaching and being washed with water It washs to obtain the hydroxyapatite nano line, hydroxyapatite nano line existing for the monodisperse status is dispersed in water, Addition ethyl alcohol, separation product, washing, alcohol are washed to obtain the two-dimensional network structure hydroxyapatite nano line.

Gained hydroxyapatite overlong nanowire will be prepared or two-dimensional network structure hydroxyapatite nano line is prepared into hydroxyl The water slurry of base apatite overlong nanowire.Wherein, the concentration of the water slurry of the hydroxyapatite overlong nanowire can For 0.1~20wt.%, preferred concentration is 0.3~4wt.%.

Hydroxyapatite overlong nanowire obtained by preparing is prepared into water slurry and is mixed with inorfil, is starched Material.Inorfil of the present invention, including but not limited to glass fibre, carbon fiber, boron fibre, oxide fibre, silicic acid Salt fiber, silicon carbide fibre and metallic fiber, a diameter of 1~15 μm, length is 1~12mm.In gained slurry (water slurry) A concentration of 0.1~10wt.% of inorfil, preferred concentration are 0.2~1wt.%.

The paper technology of the present invention for preparing high temperature resistant inorganic label paper is：By the slurry configured by drainage at Type, squeezing (1~5MPa of pressure, 5~30min of time), dry (60~105 DEG C of temperature, 3~10min of time) and press polish (line pressure 5~150N/mm of power, 5~15m/min of speed) after be prepared.

High temperature resistant inorganic label paper of the present invention refers to being made using hydroxyapatite overlong nanowire and inorfil It is prepared as a raw material, the high temperature resistant inorganic label paper is prepared by traditional paper-making process, and thickness >=50 micron are excellent It is selected as 50~3000 μm.The present invention by computer tensiometer measure the tensile strength of label paper prepared by the present invention be 5~ 50MPa。

Weight percent of the hydroxyapatite overlong nanowire of the present invention in high temperature resistant inorganic label paper >= 40%, preferred hydroxyapatite overlong nanowire weight percent is 50~70%.

Embodiment is enumerated further below so that the present invention will be described in detail.It will similarly be understood that following embodiment is served only for this Invention is further described, and should not be understood as limiting the scope of the invention, those skilled in the art is according to this hair Some nonessential modifications and adaptations that bright the above is made all belong to the scope of protection of the present invention.Following examples are specific Technological parameter etc. is also only an example in OK range, i.e. those skilled in the art can be done properly by the explanation of this paper Selection in range, and do not really want to be defined in hereafter exemplary concrete numerical value.

Embodiment 1：

It is the water slurry that 5mm, a diameter of 6 μm of glass fibre are configured to a concentration of 0.6wt.% by length, at ultrasound 3min is managed, then by the reticular structure hydroxyapatite overlong nanowire water slurry of a concentration of 0.6wt.% according to 90wt.% The proportioning of hydroxyapatite overlong nanowire is slowly added in the glass fibre water slurry being ultrasonically treated, and is slowly stirred Slurry is obtained after 1min, drainage is molded on the quick sheet forming apparatus of kayser by the slurry after this two kinds of Material claddings, after molding Page by squeezing (pressure 5MPa, time 3min), dry (temperature is 95 DEG C, time 10min), press polish (line pressure 5N/ Mm, speed 5m/min) after to be prepared into thickness be 230 μm of high-temperature resistant label paper, the tensile strength of the label paper is 9MPa.

Embodiment 2：

It is the water slurry that 9mm, a diameter of 6 μm of glass fibre are configured to a concentration of 0.5wt.% by length, at ultrasound 5min is managed, then by the reticular structure hydroxyapatite overlong nanowire water slurry of a concentration of 0.6wt.% according to 70wt.% The proportioning of hydroxyapatite overlong nanowire is slowly added in the glass fibre water slurry being ultrasonically treated, and is slowly stirred Slurry is obtained after 1min, drainage is molded on the quick sheet forming apparatus of kayser by the slurry after this two kinds of Material claddings, after molding Page by squeezing (pressure 6MPa, time 3min), dry (temperature is 95 DEG C, time 10min), press polish (line pressure 10N/mm, speed 10m/min) after to be prepared into thickness be 150 μm of high-temperature resistant label paper, the tensile strength of the label paper is 7MPa。

Fig. 2：The fire resistance test of high-temperature resistant label paper prepared by the embodiment of the present invention 1, it is of the invention as can be known from Fig. 2 to make Standby label paper has good high temperature resistance；Fig. 3：High-temperature resistant label paper prepared by the embodiment of the present invention 1 is beaten using laser Photo after the printing of print machine, it is known that label paper prepared by the present invention can be used for printing character or pattern.

Claims

1. a kind of high temperature resistant inorganic label paper, which is characterized in that the inorganic refractory facestock layer of the high temperature resistant inorganic label paper by A diameter of 1~15 μm, the inorfil that length is 1~12 mm and be uniformly wrapped in the surface concentrations of inorfil be 40~ The hydroxyapatite overlong nanowire of 90wt% forms；

The hydroxyapatite overlong nanowire is can be in water with a diameter of 2~100 nm, length existing for monodisperse status The two-dimensional network structure hydroxyapatite nano line to be formed or straight is assembled for the hydroxyapatite nano line of 50 nm~100 μm Diameter is 5~100 nm, the hydroxyapatite overlong nanowire that length is 20~2000 μm；

Inorfil used includes that carbon fiber, boron fibre, oxide fibre, silicate fiber, silicon carbide fibre and metal are fine Dimension.

2. high temperature resistant inorganic label paper according to claim 1, which is characterized in that the thickness of the high temperature resistant inorganic label paper >=50 μm of degree.

3. high temperature resistant inorganic label paper according to claim 1 or 2, which is characterized in that the oxide fibre includes glass Glass fiber.