CN105985595A - Heatproof corrosion-resistant floor board for greenhouse and making method of floor board - Google Patents

Abstract

The invention discloses a heatproof corrosion-resistant floor board for a greenhouse. Bisphenol A phosphite, cadmium stearate and hollow glass microbeads are added into the floor board, so that heatproof performance of the floor board is improved effectively; the floor board has certain heat insulativity, thereby being especially suitable for being used as a greenhouse floor board in cold regions.

Description

A kind of greenhouse heat-resistant anticorrosive floor and preparation method thereof

Technical field

The present invention relates to technical field of floor, particularly relate to a kind of greenhouse heat-resistant anticorrosive floor and preparation method thereof.

Background technology

PVC, as world's second largest general-purpose plastics, has a good combination property, and cheap, raw material sources are wide The advantage such as general has given play to important function in all trades and professions.PVC expanded material not only inherits above all of advantage, and There is defect or the deficiency of some performances, such as intensity, rigidity and thermodynamic property etc. do not reach the expectation of people, especially Its PVC expanded material can discharge poisonous dense smoke burning when, and these the most seriously hinder PVC foamed materials Development and application.Along with nanometer in recent years in the material shown by the great potential that goes out so that by modifications such as laminated inorganic matters Form nano composite material to improve the combination property of material and become the focus of Recent study.Laminated inorganic matter is through organically-modified After make the thermal stability of polymer composites, mechanical performance significantly improves, and particularly alpha zirconium phosphate has as one The novel nano particle of unique texture and character, has purity high, and ion exchange capacity the most easily realizes intercalation or lift-off structure, Compound with polymer easily form nanostructured, this not only give the excellent mechanical performance of polymeric material, barrier property but also Laminar nano particle is applied in expanded material can also play the effect of foaming nucleation agent to such an extent as to reaches to optimize foaming matter The purpose of amount.On the other hand, PVC expanded material, fire-retardant and press down the inferior position in terms of cigarette, also counteracts that it is further applied. And add anti-flaming smoke-inhibiting agent and just can well solve this problem, the research of forefathers has established good base for us Plinth, organic tin anti-flaming smoke-inhibiting agent and molybdenum class anti-flaming smoke-inhibiting agent have all shown outstanding flame-retardant smoke inhibition effect, special organic Anti-flaming smoke-inhibiting agent be that same polymer has the good compatibility, this is that other fire retardants are unapproachable, therefore relative to it He has suitable DEVELOPMENT PROSPECT for fire retardant, both flame-retardant smoke inhibition research being used in combination in PVC at present does not appears in the newspapers Road.So, this paper is intended to introduce organically-modified alpha zirconium phosphate Nano filling, improve the foaming quality of PVC expanded material with And mechanical property, thermal stability etc..

Summary of the invention

The object of the invention is contemplated to make up the defect of prior art, it is provided that a kind of greenhouse heat-resistant anticorrosive floor and system thereof Preparation Method.

The present invention is achieved by the following technical solutions:

Heat-resistant anticorrosive floor used by a kind of greenhouse, and it is made up of the raw material of following weight parts:

Phosphorous acid bisphenol-A ester 4-6, cadmium stearate 0.2-0.3, hydrochloric acid 10-15,80-of eight water zirconium oxychloride 17-20,40-47% The phosphatase 79 0-100 of 85%, tetrakis hydroxymetyl phosphonium sulfuric 3-4,25-30% methylamine water solution 4-7, trifluoroethyl methacrylate 5-7, Octylisothiazolinone 0.2-0.4, Ammonium persulfate. 0.06-0.1, divinylbenzene 0.01-0.02, azodicarbonamide 1-2, poly- Vinyl chloride 130-200, stannous sulfide 1-2, polyvinyl butyral resin 4-6, diethylene glycol dibenzoate 2-3, hollow glass micropearl 5-7, trimethylolpropane 0.1-0.2.

The preparation method on a kind of described greenhouse heat-resistant anticorrosive floor, comprises the following steps:

(1) eight water zirconium oxychlorides are joined in 15-18 times of distilled water, stir, be sequentially added into above-mentioned 40-47% hydrochloric acid, The phosphoric acid of 80-85%, electromagnetic agitation 3-4 days under room temperature, filter, being washed with deionized to PH is 5, and at 60-65 DEG C, vacuum is done Dry, grind, obtain alpha zirconium phosphate；

(2) take the 30-40% of above-mentioned polyvinyl butyral resin weight, mix with diethylene glycol dibenzoate, stir, add Octylisothiazolinone, rises high-temperature and is 80-90 DEG C, and insulated and stirred 3-5 minute joins the 20-of compound weight 3-4 times In the ethanol solution of 30%, stir, obtain anticorrosion alcohol liquid；

(3) above-mentioned trifluoroethyl methacrylate is joined in the dehydrated alcohol of 2-3 times, stir, with above-mentioned anticorrosion alcohol Liquid mixes, and rises high-temperature and is 70-75 DEG C, adds divinylbenzene, insulation reaction 3-4 hour, obtain anticorrosion monomer；

(4) above-mentioned phosphorous acid bisphenol-A ester is mixed with remaining polyvinyl butyral resin, stir, add trihydroxy methyl third Alkane, 200-300 rev/min is stirred 10-17 minute, adds cadmium stearate, insulated and stirred 4-6 minute at 60-70 DEG C, obtains heat-resisting helping Agent；

(5) above-mentioned alpha zirconium phosphate is joined in 90-100 times of deionized water, stir, add methylamine water solution, ultrasonic 30- 35 minutes, add tetrakis hydroxymetyl phosphonium sulfuric, dispersed with stirring 10-16 minute, add above-mentioned anticorrosion monomer, ultrasonic 3-5 minute, add Ammonium persulfate., insulation reaction 6-10 hour at 75-80 DEG C, centrifugation, precipitate is washed, dries, obtain organically-modified phosphorus Acid zirconium；

(6) by above-mentioned organically-modified zirconium phosphate, heat resistance accessory mixing, stir, add polrvinyl chloride, stannous sulfide, send into In homogenizer, 1000-1200r/min stirs 20-30 minute, slowly rises high-temperature and is 120-130 DEG C, reduces rotating speed and is 300-400r/min, stirring is to 46-50 DEG C, then rises high-temperature and be 130-140 DEG C, adds and remains each raw material, heat-insulation preheating 50-60 Minute, melt extruded by extruder, through traction cutting, plucking, to obtain final product.

The invention have the advantage that

(1) floor of the present invention has a good heat-resistant stability:

Using tetrakis hydroxymetyl phosphonium sulfuric as modifying agent, interlayer does not has to be catalyzed the factor that polrvinyl chloride decomposes, and obtains organic The layer structure of modified zirconium phosphate, it is possible to effectively play the iris action of energy and material；On the other hand, organically-modified α-phosphorus The addition of acid zirconium improves the foaming quality of polyvinyl-chloride foam material so that uniform foam cell, occurs in that substantially between abscess Boundary, i.e. closed pore quantity is increasing, and open-celled structure reduces, and this hole-closing structure absorbs a large amount of during heat transmits Heat, stop heat propagation；Polrvinyl chloride composite foam material can be made to be subject to it addition, add organically-modified alpha zirconium phosphate Can be good at keeping the shape of abscess when of to impact so that abscess keeps original rigidity and toughness, therefore improves The thickness of polrvinyl chloride walls, enhances it and resists the ability that its generation is destroyed by outer position；

(2) floor of the present invention has good water-resistance:

Through organically-modified alpha zirconium phosphate, due to organic cation replace the H+ of interlayer or organic anion at α-phosphorus Acid zirconium layer between adsorption and modified hydrophobicity is the most significantly improved；

(3) floor of the present invention has a good shock resistance:

The present invention uses tetrakis hydroxymetyl phosphonium sulfuric to significantly improve the foaming quality of polyvinyl-chloride foam material as modifying agent, bubble Hole is more uniform, and cell wall presents spherical, and complete cell wall is by deforming upon absorption energy, then toughness increases；

(4) floor of the present invention has a good fire resistance:

Alpha zirconium phosphate self is layer structure, and through the certain lift-off structure of modified formation, be no matter layer structure also It is lift-off structure, the existence of these structures, it is possible to matter and energy iris action can be played when polymer combustion, and poly- HCl, HCL gas self can be discharged during vinyl chloride burning and there is obvious anti-flammability；

(5) first the present invention makes alpha zirconium phosphate colloidization with methylamine, then using trifluoroethyl methacrylate as anticorrosion monomer, Embed in the course of the polymerization process and be stable in the presence of between modified alpha-zirconium phosphate layer, ensureing heat-resisting, the water resistant of modified alpha zirconium phosphate, anti- Impact, fire-retardant while improve antiseptic property；

The sheet material of the present invention adds phosphorous acid bisphenol-A ester, cadmium stearate, hollow glass micropearl etc., can effectively improve into The heat resistance of product sheet material, also has certain heat insulating ability, is therefore particularly suitable for cold district and uses as greenhouse floor.

Detailed description of the invention

Heat-resistant anticorrosive floor used by a kind of greenhouse, and it is made up of the raw material of following weight parts:

Phosphorous acid bisphenol-A ester 4, phosphatase 79 0, the four hydroxyl first of hydrochloric acid 10,80% of cadmium stearate 0.2, eight water zirconium oxychloride 17,40% Base sulphuric acid phosphorus 3,25% methylamine water solution 4, trifluoroethyl methacrylate 5, octylisothiazolinone 0.2, Ammonium persulfate. 0.06, Divinylbenzene 0.01, azodicarbonamide 1, polrvinyl chloride 130, stannous sulfide 1, polyvinyl butyral resin 4, diethylene glycol hexichol Formic acid esters 2, hollow glass micropearl 5, trimethylolpropane 0.1.

The preparation method on a kind of described greenhouse heat-resistant anticorrosive floor, comprises the following steps:

(1) eight water zirconium oxychlorides are joined in 15 times of distilled water, stir, be sequentially added into above-mentioned 40% hydrochloric acid, 80% Phosphoric acid, electromagnetic agitation 3 days under room temperature, filter, being washed with deionized to PH is 5, is vacuum dried, grinds, obtain α phosphorus at 60 DEG C Acid zirconium；

(2) take the 30% of above-mentioned polyvinyl butyral resin weight, mix with diethylene glycol dibenzoate, stir, add octyl group Isothiazolone, rising high-temperature is 80 DEG C, and insulated and stirred 3 minutes joins in the ethanol solution of 20% of compound weight 3 times, Stir, obtain anticorrosion alcohol liquid；

(3) above-mentioned trifluoroethyl methacrylate is joined in the dehydrated alcohol of 2 times, stir, with above-mentioned anticorrosion alcohol liquid Mixing, rising high-temperature is 70 DEG C, adds divinylbenzene, insulation reaction 3 hours, obtains anticorrosion monomer；

(4) above-mentioned phosphorous acid bisphenol-A ester is mixed with remaining polyvinyl butyral resin, stir, add trihydroxy methyl third Alkane, 200 revs/min are stirred 10 minutes, add cadmium stearate, and at 60 DEG C, insulated and stirred 4 minutes, obtain heat resistance accessory；

(5) above-mentioned α zirconium phosphate is joined in 90 times of deionized waters, stir, addition methylamine water solution, ultrasonic 30 minutes, Add tetrakis hydroxymetyl phosphonium sulfuric, dispersed with stirring 10 minutes, add above-mentioned anticorrosion monomer, ultrasonic 3 minutes, add Ammonium persulfate., Insulation reaction 6 hours at 75 DEG C, centrifugation, precipitate is washed, dries, obtain organically-modified zirconium phosphate；

(6) by above-mentioned organically-modified zirconium phosphate, heat resistance accessory mixing, stir, add polrvinyl chloride, stannous sulfide, send into In homogenizer, 1000r/min stirs 20 minutes, and slowly rising high-temperature is 120 DEG C, and reduction rotating speed is 300r/min, stirring To 46 DEG C, then to rise high-temperature be 130 DEG C, adds and remains each raw material, heat-insulation preheating 50 minutes, is melt extruded by extruder, warp Cross traction cutting, plucking, to obtain final product.

Performance test:

Density: 0.9g/cm3；

Shore D hardness: 79 degree；

Camber intensity: 24.4MPa；

Unnotched impact strength: 77kJ/m2；

Water absorption rate: 0.484%；

Shock resistance: flawless；

Oxygen index (OI): 37.1%；

45 degree of angle burnings: difficult combustion；

Nail-holding ability: 2.2kN；

Environmental-protecting performance (methanol burst size, condensed steam water 9-11L): 0.2mg/L.

Claims (2)

1. heat-resistant anticorrosive floor used by a greenhouse, it is characterised in that it is made up of the raw material of following weight parts:

Phosphorous acid bisphenol-A ester 4-6, cadmium stearate 0.2-0.3, hydrochloric acid 10-15,80-of eight water zirconium oxychloride 17-20,40-47% The phosphatase 79 0-100 of 85%, tetrakis hydroxymetyl phosphonium sulfuric 3-4,25-30% methylamine water solution 4-7, trifluoroethyl methacrylate 5-7, Octylisothiazolinone 0.2-0.4, Ammonium persulfate. 0.06-0.1, divinylbenzene 0.01-0.02, azodicarbonamide 1-2, poly- Vinyl chloride 130-200, stannous sulfide 1-2, polyvinyl butyral resin 4-6, diethylene glycol dibenzoate 2-3, hollow glass micropearl 5-7, trimethylolpropane 0.1-0.2.

2. the preparation method on a greenhouse heat-resistant anticorrosive floor as claimed in claim 1, it is characterised in that include following step Rapid:

(1) eight water zirconium oxychlorides are joined in 15-18 times of distilled water, stir, be sequentially added into above-mentioned 40-47% hydrochloric acid, The phosphoric acid of 80-85%, electromagnetic agitation 3-4 days under room temperature, filter, being washed with deionized to PH is 5, and at 60-65 DEG C, vacuum is done Dry, grind, obtain alpha zirconium phosphate；

(2) take the 30-40% of above-mentioned polyvinyl butyral resin weight, mix with diethylene glycol dibenzoate, stir, add Octylisothiazolinone, rises high-temperature and is 80-90 DEG C, and insulated and stirred 3-5 minute joins the 20-of compound weight 3-4 times In the ethanol solution of 30%, stir, obtain anticorrosion alcohol liquid；

(3) above-mentioned trifluoroethyl methacrylate is joined in the dehydrated alcohol of 2-3 times, stir, with above-mentioned anticorrosion alcohol Liquid mixes, and rises high-temperature and is 70-75 DEG C, adds divinylbenzene, insulation reaction 3-4 hour, obtain anticorrosion monomer；

(4) above-mentioned phosphorous acid bisphenol-A ester is mixed with remaining polyvinyl butyral resin, stir, add trihydroxy methyl third Alkane, 200-300 rev/min is stirred 10-17 minute, adds cadmium stearate, insulated and stirred 4-6 minute at 60-70 DEG C, obtains heat-resisting helping Agent；

(5) above-mentioned alpha zirconium phosphate is joined in 90-100 times of deionized water, stir, add methylamine water solution, ultrasonic 30- 35 minutes, add tetrakis hydroxymetyl phosphonium sulfuric, dispersed with stirring 10-16 minute, add above-mentioned anticorrosion monomer, ultrasonic 3-5 minute, add Ammonium persulfate., insulation reaction 6-10 hour at 75-80 DEG C, centrifugation, precipitate is washed, dries, obtain organically-modified phosphorus Acid zirconium；

(6) by above-mentioned organically-modified zirconium phosphate, heat resistance accessory mixing, stir, add polrvinyl chloride, stannous sulfide, send into In homogenizer, 1000-1200r/min stirs 20-30 minute, slowly rises high-temperature and is 120-130 DEG C, reduces rotating speed and is 300-400r/min, stirring is to 46-50 DEG C, then rises high-temperature and be 130-140 DEG C, adds and remains each raw material, heat-insulation preheating 50-60 Minute, melt extruded by extruder, through traction cutting, plucking, to obtain final product.