CN109853289B - Flame-retardant paper-based material prepared from reactive flame-retardant fibers and preparation method thereof - Google Patents
Flame-retardant paper-based material prepared from reactive flame-retardant fibers and preparation method thereof Download PDFInfo
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Abstract
The invention relates to a flame-retardant paper-based material prepared from reactive flame-retardant fibers and a preparation method thereof, belonging to the field of flame-retardant materials. The quantitative amount of the flame-retardant paper base material is 60-80 g/m2A dry tensile strength in the longitudinal direction of 25 to 30N/15mm and a burst index of 2.6 to 3.5Kpa · m2The limiting oxygen index is more than or equal to 27 percent, and the flame retardance is good. The invention takes melamine, polyphosphoric acid and ethanol as raw materials to synthesize melamine polyphosphate at first; then, preparing the flame-retardant plant fiber by taking plant fiber pulp, persulfate and the obtained melamine polyphosphate as raw materials through a grafting reaction; and adding other papermaking additives, making the flame-retardant paper base material, and pressing, surface sizing and drying to obtain the product. In addition, the invention has simple process and low production cost, and the waste liquid after the flame-retardant grafting modification can be used for preparing the flame-retardant surface sizing solution, does not cause new environmental pollution and has wider market prospect.
Description
Technical Field
The invention relates to the field of flame-retardant materials, in particular to a flame-retardant paper-based material prepared from reactive flame-retardant fibers and a preparation method thereof.
Background
With the development of society, the use of the plant fiber flame retardant paper is wider and wider, such as manufacturing building and decoration materials, packaging materials, air filtering materials, electrical appliance insulating materials, aerospace materials and the like.
The technical problems to be solved by the invention are as follows:
1. the flame retardancy of plant fiber.
It is well known that plant fibers are a combustible substance. Various plant fiber paper-based materials, including building materials such as partition wall paper boards, indoor paper decorative materials such as wallpaper, paper packaging materials such as paper boxes and the like are flammable materials causing fire disasters and are always the key points of fire fighting work. With the development of society, flame retardant paper-based materials are used in more and more fields, such as building materials, decorative materials, packaging materials, automobile filter materials, and the like. The plant fiber paper is subjected to flame retardant treatment, so that the hidden danger of fire can be reduced, the spreading speed or the spreading tendency of flame can be delayed, and casualties and property loss in the fire can be reduced. The plant fiber paper after flame retardant treatment is generally difficult to ignite or has long ignition time, can inhibit the propagation of flame, has low heat release rate, and the ignited paper can be self-extinguished or can prolong the flash time, thereby providing more time for evacuation of people, rescue of property and the like.
2. The flame retardant durability of the paper is a problem.
At present, a plurality of flame retardant papers have the defects that the flame retardant function is not long in durability, and a plurality of additive flame retardants can generate a series of physical and chemical changes under the action of light, heat, moisture and the like in the paper, so that the efficacy of the flame retardants is reduced, and the flame retardant performance of the paper is reduced or disappears.
3. The addition of flame retardant has influence on the physical strength performance of paper.
At present, the commonly used nitrogen-containing and phosphorus-containing organic and inorganic flame retardants for paper flame retardance and filler flame retardants such as aluminum hydroxide, magnesium hydroxide and hydrotalcite are used for realizing the flame retardance of paper by adding flame retardants in pulp or on the surface, but the general flame retardance efficiency is lower, and a large amount of flame retardants are required to be added to achieve the flame retardance effect. The problems it brings are: firstly, the flame retardant cost is high; secondly, due to the large addition amount, the physical strength of the paper sheet is seriously weakened, and the service performance of the paper or the paperboard is reduced; and ash content of paper sheets is increased, abrasion of paper machine equipment is increased, maintenance cost is increased, and operating efficiency of the paper machine is affected.
The present application has been made for the above reasons.
Disclosure of Invention
Aiming at the defects in the prior art, the invention aims to provide a flame-retardant paper base material prepared by using reactive flame-retardant fibers and a preparation method thereof.
In order to achieve the first purpose, the invention adopts the technical scheme that:
a flame-retardant paper base material prepared from reactive flame-retardant fibers is characterized in that the quantitative ratio of the flame-retardant paper base material is 60-80 g/m2A dry tensile strength in the longitudinal direction of 25 to 30N/15mm and a burst index of 2.6 to 3.5Kpa · m2The limiting oxygen index is more than or equal to 27 percent.
A second object of the present invention is to provide a method for preparing the above flame retardant paper-based material, comprising the steps of:
(1) adding ethanol into a reactor, sequentially adding melamine and polyphosphoric acid into the reactor under the stirring condition, heating the system to 65-75 ℃ after complete dissolution, reacting for 5-6 h, then carrying out heat preservation reaction for 8-10 h at 75 ℃, and finally carrying out vacuum drying for 8-10 h to obtain melamine polyphosphate;
(2) adding plant fiber pulp and persulfate initiator into another reactor according to the proportion, heating to 80-90 ℃, stirring for 0.5-1 h, adding the melamine polyphosphate prepared in the step (1) into the reactor, stirring at the constant temperature of 80-90 ℃ for reaction for 12-15 h, taking out the fiber after the reaction is finished, and finally cleaning and drying to obtain the graft modified flame-retardant plant fiber;
(3) and (3) mixing the flame-retardant plant fiber obtained in the step (2) and a papermaking auxiliary agent, and then carrying out papermaking, squeezing, drying, surface sizing and drying to obtain the flame-retardant paper base material.
Further, in the technical scheme, the mass part ratio of the ethanol, the melamine and the polyphosphoric acid in the step (1) is 1: 0.1-0.2: 0.1 to 0.2.
Further, according to the technical scheme, the plant fiber pulp obtained in the step (2) is prepared from the following raw materials in parts by mass of 1: 0.5-1.0 of softwood pulp and hardwood pulp are used as raw materials and are mixed and ground into pulp by a PFI disc mill.
Preferably, in the technical scheme, the concentration of the plant fiber pulp is 10-15 wt%.
Preferably, in the technical scheme, the grinding speed of the disc grinder is 5000-10000 r/min.
Further, according to the technical scheme, the mass part ratio of the plant fiber pulp in the step (2) to the persulfate and the melamine polyphosphate is 1.5-2: 0.01-0.02: 0.1 to 0.3.
Further, according to the above technical scheme, the persulfate may be any one of sodium persulfate, potassium persulfate, or ammonium persulfate.
Further, according to the technical scheme, the papermaking auxiliary agent in the step (3) comprises a reinforcing agent and a retention aid, wherein the reinforcing agent is preferably polyacrylamide (CPAM), and the retention aid is composed of cationic polyacrylamide and bentonite.
Preferably, in the technical scheme, the mass part ratio of the flame-retardant plant fiber to the reinforcing agent is 1: 0.001 to 0.003.
Preferably, in the technical scheme, the mass part ratio of the flame-retardant plant fiber to the polyacrylamide and bentonite is 1: 0.0003 to 0.0006: 0.002-0.004.
Further, according to the technical scheme, the surface sizing agent adopted by the surface sizing process is prepared from the following components in percentage by mass of 1: 0.01-0.02: 0.15-0.25 of cationic starch and the waste liquid after the graft modification reaction in the step (2), wherein the waste liquid contains melamine polyphosphate.
Further, according to the technical scheme, the amount of the surface sizing agent is 3-5% of the mass of the flame-retardant plant fiber, and the sizing concentration is 8-12%.
The invention takes melamine and polyphosphoric acid as raw materials and ethanol as a medium, and firstly melamine polyphosphate is synthesized under certain conditions; then, taking softwood pulp and hardwood pulp as raw materials, adopting melamine polyphosphate as a reactive flame retardant, and taking persulfate as an initiator, and carrying out a grafting reaction under a certain condition to prepare the flame-retardant plant fiber; and adding other papermaking additives, making the flame-retardant paper base material, and squeezing, surface sizing and drying to obtain the product.
Compared with the prior art, the flame-retardant paper base material prepared by utilizing the reactive flame-retardant fibers and the preparation method thereof have the following beneficial effects:
(1) the self-made reactive flame retardant and the components in the plant fiber are subjected to a grafting reaction, so that the flame retardant really becomes a part of the plant fiber, and the plant fiber is endowed with a long-term and lasting flame retardant effect.
(2) The reactive flame-retardant plant fiber prepared by the invention does not influence the combination of the fibers in the papermaking process, thereby ensuring the flame retardance and not influencing the physical strength of the paper-based material; in addition, the melamine polyphosphate also has a certain crosslinking effect, and can improve the physical strength of the paper base material, so that the paper base material prepared by adopting the flame-retardant secondary fiber has good flame retardance and excellent physical strength.
(3) The method has simple process and low production cost, and the waste liquid after the flame-retardant grafting modification can be used for preparing the flame-retardant surface sizing solution, so the method does not cause new environmental pollution and has wider market prospect.
Drawings
FIG. 1 is a flow chart of the present invention process for preparing a flame retardant paper-based material using reactive flame retardant fibers.
Detailed Description
The present invention will be described in further detail with reference to the following embodiments and accompanying drawings. The present invention is implemented on the premise of the technology of the present invention, and the detailed embodiments and specific procedures are given to illustrate the inventive aspects of the present invention, but the scope of the present invention is not limited to the following embodiments.
Various modifications to the precise description of the invention will be readily apparent to those skilled in the art from the information contained herein without departing from the spirit and scope of the appended claims. It is to be understood that the scope of the invention is not limited to the procedures, properties, or components defined, as these embodiments, as well as others described, are intended to be merely illustrative of particular aspects of the invention. Indeed, various modifications of the embodiments of the invention which are obvious to those skilled in the art or related fields are intended to be covered by the scope of the appended claims.
For a better understanding of the invention, and not as a limitation on the scope thereof, all numbers expressing quantities, percentages, and other numerical values used in this application are to be understood as being modified in all instances by the term "about". Accordingly, unless expressly indicated otherwise, the numerical parameters set forth in the specification and attached claims are approximations that may vary depending upon the desired properties sought to be obtained. At the very least, each numerical parameter should at least be construed in light of the number of reported significant digits and by applying ordinary rounding techniques.
Example 1
The method for preparing the flame-retardant paper-based material by using the reactive flame-retardant fibers comprises the following steps:
(1) adding ethanol in a ratio into a reactor, adding melamine in a ratio under a stirring condition, continuously adding polyphosphoric acid in a ratio after complete dissolution, then reacting for 6 hours at 65 ℃, continuously heating to 75 ℃, keeping the temperature for 8 hours, and after the reaction is finished, carrying out vacuum drying on the product for 8 hours to obtain melamine polyphosphate, wherein: the mass ratio of the ethanol to the melamine to the polyphosphoric acid is 1: 0.1: 0.1.
(2) mixing the components in a mass ratio of 1: 0.5 of softwood pulp and 0.5 of hardwood pulp are uniformly mixed, then mixed and ground by a PFI disc mill, the rotating speed of the disc mill is controlled to be 5000-10000 r/min, secondary fiber pulp is prepared, and the concentration of the secondary fiber pulp is adjusted to be 10 wt%.
(3) Adding the 10% secondary fiber pulp obtained in the step (2) and ammonium persulfate into another reactor according to the proportion, then placing the reactor into a water bath, heating the water bath to 80 ℃, stirring for 1h, then adding the melamine polyphosphate prepared in the step (1) according to the proportion, placing the melamine polyphosphate into a constant speed stirrer, continuously stirring and reacting for 15h at 80 ℃, then taking out the fiber, washing with deionized water and acetone, and finally performing vacuum drying to obtain the graft modified reactive flame-retardant plant fiber; wherein: the mass ratio of the plant fiber pulp to the ammonium persulfate to the melamine polyphosphate is 1.5: 0.01: 0.1.
(4) adding a polyacrylamide (CPAM) reinforcing agent and a retention aid into the flame-retardant plant fiber according to the proportion, then adding clear water, uniformly stirring, and adjusting the concentration of paper pulp to 0.3 wt% to obtain pulp for papermaking;
wherein: the mass ratio of the flame-retardant secondary fiber to the polyacrylamide is 1: 0.001;
the retention aid consists of cationic polyacrylamide and bentonite, and the mass ratio of the flame-retardant plant fiber to the cationic polyacrylamide to the bentonite is 1: 0.0003: 0.002.
(5) placing the slurry obtained in the step (4) into a sheet making machine to make wet paper sheets, wherein the paper sheets are processed by 2.5kg/cm2Drying at 80 ℃ after squeezing, then carrying out surface sizing on the dried paper sheet according to the proportion, and continuously drying at 80 ℃ to obtain a flame-retardant paper base material; wherein:
the sizing agent for surface sizing consists of cationic starch and the waste liquid (containing melamine polyphosphate) subjected to grafting modification in the step (3), wherein the mass ratio of the flame-retardant plant fiber to the cationic starch to the waste liquid subjected to grafting modification is 1: 0.01: 0.15;
the dosage of the surface sizing agent is 3 percent of the mass of the flame-retardant plant fiber, and the sizing concentration is 8 percent.
Example 2
The method for preparing the flame-retardant paper-based material by using the reactive flame-retardant fibers comprises the following steps:
(1) adding ethanol in a ratio into a reactor, adding melamine in a ratio under a stirring condition, continuously adding polyphosphoric acid in a ratio after complete dissolution, then reacting for 5.5h at 70 ℃, continuously heating to 75 ℃, keeping the temperature for 10h, and after the reaction is finished, carrying out vacuum drying on the product for 10h to obtain melamine polyphosphate, wherein: the mass ratio of the ethanol to the melamine to the polyphosphoric acid is 1: 0.15: 0.15.
(2) mixing the components in a mass ratio of 1: 0.8 of softwood pulp and 0.8 of hardwood pulp are uniformly mixed, then mixed and ground by a PFI disc mill, the rotating speed of the disc mill is controlled to be 5000-10000 r/min, secondary fiber pulp is prepared, and the concentration of the secondary fiber pulp is adjusted to be 12 wt%.
(3) Adding the secondary fiber pulp with the concentration of 12% obtained in the step (2) and sodium persulfate into another reactor according to the proportion, then placing the reactor into a water bath, heating the water bath to 85 ℃, stirring for 1h, then adding the melamine polyphosphate prepared in the step (1) according to the proportion, placing the melamine polyphosphate into a constant speed stirrer, continuously stirring and reacting for 13h at 85 ℃, then taking out the fiber, washing with deionized water and acetone, and finally performing vacuum drying to obtain the graft modified reactive flame-retardant plant fiber; wherein: the mass ratio of the plant fiber pulp to the sodium persulfate to the melamine polyphosphate is 1.8: 0.015: 0.15.
(4) adding a polyacrylamide (CPAM) reinforcing agent and a retention aid into the flame-retardant plant fiber according to the proportion, then adding clear water, uniformly stirring, and adjusting the concentration of paper pulp to 0.4 wt% to obtain pulp for papermaking;
wherein: the mass ratio of the flame-retardant secondary fiber to the polyacrylamide is 1: 0.002;
the retention aid consists of cationic polyacrylamide and bentonite, and the mass ratio of the flame-retardant plant fiber to the cationic polyacrylamide to the bentonite is 1: 0.0004: 0.003.
(5) placing the slurry obtained in the step (4) into a sheet making machine to make wet paper sheets, wherein the paper sheets are processed by 3.0kg/cm2Drying at 90 ℃ after squeezing, then carrying out surface sizing on the dried paper sheets according to the proportion, and continuously drying at 90 ℃ to obtain a flame-retardant paper base material; wherein:
the sizing agent for surface sizing consists of cationic starch and the waste liquid (containing melamine polyphosphate) subjected to grafting modification in the step (3), wherein the mass ratio of the flame-retardant plant fiber to the cationic starch to the waste liquid subjected to grafting modification is 1: 0.015: 0.2;
the dosage of the surface sizing agent is 4 percent of the mass of the flame-retardant plant fiber, and the sizing concentration is 10 percent.
Example 3
The method for preparing the flame-retardant paper-based material by using the reactive flame-retardant fibers comprises the following steps:
(1) adding ethanol in a ratio into a reactor, adding melamine in a ratio under a stirring condition, continuously adding polyphosphoric acid in a ratio after complete dissolution, then reacting for 5 hours at 72 ℃, continuously heating to 75 ℃, keeping the temperature for 9 hours, and after the reaction is finished, carrying out vacuum drying on the product for 9 hours to obtain melamine polyphosphate, wherein: the mass ratio of the ethanol to the melamine to the polyphosphoric acid is 1: 0.2: 0.2.
(2) mixing the components in a mass ratio of 1: 1, uniformly mixing softwood pulp and hardwood pulp, then mixing and grinding the mixture by using a PFI disc mill, controlling the rotating speed of the disc mill to be 5000-10000 r/min, preparing secondary fiber pulp, and adjusting the concentration of the secondary fiber pulp to be 15 wt%.
(3) Adding the secondary fiber pulp with the concentration of 15% obtained in the step (2) and potassium persulfate into another reactor according to the proportion, then placing the reactor into a water bath, heating the water bath to 90 ℃, stirring for 0.5h, then adding the melamine polyphosphate prepared in the step (1) according to the proportion, placing the melamine polyphosphate into a constant speed stirrer, continuously stirring and reacting for 12h at the temperature of 80 ℃, taking out the fiber, washing with deionized water and acetone, and finally performing vacuum drying to obtain the graft modified reactive flame-retardant plant fiber; wherein: the mass ratio of the plant fiber pulp to the potassium persulfate to the melamine polyphosphate is 2: 0.02: 0.3.
(4) adding a polyacrylamide (CPAM) reinforcing agent and a retention aid into the flame-retardant plant fiber according to the proportion, then adding clear water, uniformly stirring, and adjusting the concentration of paper pulp to 0.5 wt% to obtain pulp for papermaking;
wherein: the mass ratio of the flame-retardant secondary fiber to the polyacrylamide is 1: 0.0025;
the retention aid consists of cationic polyacrylamide and bentonite, and the mass ratio of the flame-retardant plant fiber to the cationic polyacrylamide to the bentonite is 1: 0.0005: 0.0025.
(5) placing the slurry obtained in the step (4) into a sheet making machine to make wet paper sheets with the paper sheets passing through 4.0kg/cm2Drying at 100 ℃ after squeezing, then carrying out surface sizing on the dried paper sheets according to the proportion, and continuously drying at 100 ℃ to obtain a flame-retardant paper base material; wherein:
the sizing agent for surface sizing consists of cationic starch and the waste liquid (containing melamine polyphosphate) subjected to grafting modification in the step (3), wherein the mass ratio of the flame-retardant plant fiber to the cationic starch to the waste liquid subjected to grafting modification is 1: 0.02: 0.2.
the dosage of the surface sizing agent is 3.5 percent of the mass of the flame-retardant plant fiber, and the sizing concentration is 8 percent.
Example 4
The method for preparing the flame-retardant paper-based material by using the reactive flame-retardant fibers comprises the following steps:
(1) adding ethanol in a ratio into a reactor, adding melamine in a ratio under a stirring condition, continuously adding polyphosphoric acid in a ratio after complete dissolution, then reacting for 6 hours at 70 ℃, continuously heating to 75 ℃, keeping the temperature for 8 hours, and after the reaction is finished, carrying out vacuum drying on the product for 10 hours to obtain melamine polyphosphate, wherein: the mass ratio of the ethanol to the melamine to the polyphosphoric acid is 1: 0.15: 0.2.
(2) mixing the components in a mass ratio of 1: 0.6 of softwood pulp and 0.6 of hardwood pulp are uniformly mixed, then mixed and ground by a PFI disc mill, the rotating speed of the disc mill is controlled to be 5000-10000 r/min, secondary fiber pulp is prepared, and the concentration of the secondary fiber pulp is adjusted to be 10 wt%.
(3) Adding the 10% secondary fiber pulp obtained in the step (2) and sodium persulfate into another reactor according to the proportion, then placing the reactor into a water bath, heating the water bath to 86 ℃, stirring for 1h, then adding the proportion of the melamine polyphosphate prepared in the step (1), placing the melamine polyphosphate into a constant speed stirrer, continuously stirring and reacting for 14h at 86 ℃, then taking out the fiber, washing with deionized water and acetone, and finally performing vacuum drying to obtain the graft modified reactive flame-retardant plant fiber; wherein: the mass ratio of the plant fiber pulp to the sodium persulfate to the melamine polyphosphate is 1.6: 0.02: 0.2.
(4) adding a polyacrylamide (CPAM) reinforcing agent and a retention aid into the flame-retardant plant fiber according to the proportion, then adding clear water, uniformly stirring, and adjusting the concentration of paper pulp to 0.6 wt% to obtain pulp for papermaking;
wherein: the mass ratio of the flame-retardant secondary fiber to the polyacrylamide is 1: 0.003;
the retention aid consists of cationic polyacrylamide and bentonite, and the mass ratio of the flame-retardant plant fiber to the cationic polyacrylamide to the bentonite is 1: 0.0006: 0.004.
(5) placing the slurry obtained in the step (4) into a sheet making machine to make wet paper sheets, wherein the paper sheets are processed by 5.0kg/cm2Drying at 90 ℃ after squeezing, then carrying out surface sizing on the dried paper sheets according to the proportion, and continuously drying at 90 ℃ to obtain a flame-retardant paper base material; wherein:
the sizing agent for surface sizing consists of cationic starch and the waste liquid (containing melamine polyphosphate) subjected to grafting modification in the step (3), wherein the mass ratio of the flame-retardant plant fiber to the cationic starch to the waste liquid subjected to grafting modification is 1: 0.02: 0.25.
the dosage of the surface sizing agent is 5 percent of the mass of the flame-retardant plant fiber, and the sizing concentration is 12 percent.
The main performance indexes of the flame-retardant paper base material prepared in the examples 1 to 4 were tested. The flame retardance is tested by adopting an oxygen index instrument according to the ASTM D2863 oxygen index test standard; the longitudinal dry tensile strength is detected according to the national standard GB T12914-2008 of determination of tensile strength of paper and paperboard; the burst index is tested according to the standard GB/T454-2002 'determination of paper burst strength'; the test results are shown in table 1.
TABLE 1 test results of main performance indexes of the flame-retardant paper base materials prepared in examples 1 to 4
The results in table 1 show that the flame-retardant paper base material prepared by the invention has good and durable flame retardance, no halogen, no toxicity and good physical strength, and the waste liquid after grafting modification is used for preparing the flame-retardant surface sizing solution, so that the process is simple, pollution-free, low in production cost and wide in market prospect.
Claims (5)
1. A flame-retardant paper base material prepared by utilizing reactive flame-retardant fibers is characterized in that: the quantitative amount of the flame-retardant paper base material is 60-80 g/m2A dry tensile strength in the longitudinal direction of 25 to 30N/15mm and a burst index of 2.6 to 3.5Kpa · m2(iv)/g, limiting oxygen index is not less than 27%;
the flame-retardant paper base material is prepared by the following method, comprising the following steps:
(1) adding ethanol into a reactor, sequentially adding melamine and polyphosphoric acid into the reactor under the stirring condition, heating the system to 65-75 ℃ after complete dissolution, reacting for 5-6 h, then carrying out heat preservation reaction for 8-10 h at 75 ℃, and finally carrying out vacuum drying for 8-10 h to obtain melamine polyphosphate; wherein: the mass part ratio of the ethanol to the melamine to the polyphosphoric acid is 1: 0.1-0.2: 0.1 to 0.2;
(2) adding plant fiber pulp and persulfate initiator into another reactor according to the proportion, heating to 80-90 ℃, stirring for 0.5-1 h, adding the melamine polyphosphate prepared in the step (1) into the reactor, stirring at the constant temperature of 80-90 ℃ for reaction for 12-15 h, taking out the fiber after the reaction is finished, and finally cleaning and drying to obtain the graft modified flame-retardant plant fiber; wherein: the mass part ratio of the plant fiber pulp to persulfate and melamine polyphosphate is 1.5-2: 0.01-0.02: 0.1 to 0.3;
(3) mixing the flame-retardant plant fiber obtained in the step (2) and a papermaking auxiliary agent, and then carrying out papermaking, squeezing, drying, surface sizing and drying to obtain the flame-retardant paper base material; wherein: the surface sizing agent adopted by the surface sizing process consists of cationic starch and the waste liquid obtained after the graft modification reaction in the step (2), wherein the waste liquid contains melamine polyphosphate, and the mass ratio of the flame-retardant plant fiber to the cationic starch to the waste liquid obtained after the graft modification is 1: 0.01-0.02: 0.15 to 0.25.
2. A fire retardant paper based material prepared with reactive fire retardant fibers as claimed in claim 1, characterized in that: the plant fiber pulp obtained in the step (2) adopts a raw material formula with the mass portion ratio of 1: 0.5-1.0 of softwood pulp and hardwood pulp are used as raw materials and are mixed and ground into pulp by a PFI disc mill.
3. A fire retardant paper based material prepared with reactive fire retardant fibers as claimed in claim 1, characterized in that: the concentration of the plant fiber pulp is 10-15 wt%.
4. A fire retardant paper based material prepared with reactive fire retardant fibers as claimed in claim 1, characterized in that: the papermaking auxiliary agent in the step (3) comprises a reinforcing agent and a retention aid, wherein the reinforcing agent is polyacrylamide, and the retention aid is composed of cationic polyacrylamide and bentonite.
5. The flame retardant paper based material prepared by using the reactive flame retardant fiber according to claim 4, wherein: the flame-retardant plant fiber and the reinforcing agent are mixed according to the mass part ratio of 1: 0.001 to 0.003; the mass part ratio of the flame-retardant plant fiber to the cationic polyacrylamide and bentonite in the retention aid is 1: 0.0003 to 0.0006: 0.002-0.004.
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