WO2019010599A1 - Sound-proof and shock-proof rigid foam material - Google Patents

Abstract

Disclosed is a sound-proof and shock-proof rigid foam material, characterized in that same is prepared by mixing, casting, reacting and ageing the following materials A and B in parts by weight: material A: 100 parts of a polyether polyol, 1-2 parts of a nano corundum powder, 8-12 parts of potassium hexatitanate whiskers, 3-4 parts of water, 2.3-2.5 parts of vinyl tri(β-methoxyethoxy)silane, 30-35 parts of diatomaceous earth, 10-12 parts of a montmorillonite powder, 3-4 parts of ceramic fibers, 2-3 parts of triethanolamine, 3-4 parts of dibutyl phthalate, 1-2 parts of potassium tetraborate, and 6-8 parts of modified attapulgite; and material B: 30-35 parts of diphenylmethane diisocyanate. The rigid foam material has a good heat retaining property, and is beneficial for saving on electrical energy when used in thermal insulation materials or heat retaining materials; further can save on the raw material amount due to a low average core density; has a good sound-proof effect, and has a light weight, and is shock-proof and corrosion resistant.

Description

Soundproof and shockproof rigid foam Technical field

The present invention relates to a foam, and more particularly to a rigid foam material that is soundproof and shockproof.

Background technique

Polyurethane foam is made by polymerizing and foaming isocyanate and hydroxy compound, and can be classified into soft and hard according to its hardness. In general, it has excellent elasticity, flexibility, elongation and compressive strength; good chemical stability, resistance to many solvents and oils; excellent wear resistance, 20 times larger than natural sponges; and excellent processing Properties such as properties, heat insulation, adhesion, etc., are excellent cushioning materials, but at a higher price. Polyurethane foams are generally only used for buffer packaging or cushioning materials for high-end precision instruments, valuable equipment, high-end crafts, etc., and can also be made into exquisite and highly protective packaging containers; Buffer packaging.

Rigid polyurethane foam has the characteristics of low density, high strength, low thermal conductivity, sound insulation and water barrier.

In order to reduce the impact of noise on our daily lives, the measures taken in buildings are mainly sound insulation and sound absorption. Sound insulation is to isolate the sound source and prevent the noise generated by the sound source from propagating into the room. Planting trees on both sides of the road can provide sound insulation for the houses on both sides. A sandwich structure in which a plurality of layers of dense materials are separated by a porous material in a building also has a good sound insulation effect. In order to eliminate noise, commonly used sound absorbing materials are mainly porous sound absorbing materials, such as glass wool, mineral wool, expanded perlite, perforated sound absorbing panels and the like. The sound absorption properties of a material depend on its roughness, flexibility, porosity and other factors. Foam plastic is also called porous plastic. It is made of resin as the main raw material and has numerous microporous plastics inside. It has light weight, heat insulation, shock resistance and corrosion resistance. It is widely used as packaging materials and car shells.

Summary of the invention

The object of the present invention is to provide a soundproof and shockproof rigid foam material which has good sound insulation and heat insulation effects.

The technical solution of the invention:

A soundproof and shockproof rigid foam material is prepared by mixing, pouring, reacting and curing the following parts by weight of A and B materials:

Material A: polyether polyol 100, nano corundum powder 1-2, potassium hexatitanate whisker 8-12, water 3-4, vinyl tris(β-methoxyethoxy) silane 2.3-2.5, silicon Algae 30-35, montmorillonite powder 10-12, ceramic fiber 3-4, triethanolamine 2-3, dibutyl phthalate 3-4, potassium tetraborate 1-2, modified attapulgite 6-8 ;

Material B: diphenylmethane diisocyanate 30-35.

The modified attapulgite is prepared by weighing the following raw materials by weight: attapulgite 95-110, iron ore slag 1-2, straw ash 50-55, gypsum 3-4, styrene 2-3 , ascorbic acid 2-3, dicyandiamide 1-2, ammonium hydrogencarbonate 3-4, ethyl acetate 3-4, dioctyl ester 4-5, sodium selenite 5-6, borax 3-4, chlorinated paraffin 1-2; preparation method is to put attapulgite, iron ore slag, gypsum into a calciner, calcination at 570-590 ° C for 4-5 hours, take out, mix with straw ash, ammonium bicarbonate, borax, grind to Obtain 300-400 mesh powder, then add styrene, ascorbic acid, dicyandiamide mixture, continue grinding for 30-45 minutes, to fully disperse, then add other remaining ingredients, continue grinding for 30-45 minutes, after 1500-1800 The mixture is stirred at a sub-point for 15-30 minutes to obtain a modified attapulgite.

The soundproof and shockproof rigid foam material of the invention is prepared by the following specific steps:

Mixing the raw materials of the A material, grinding at room temperature for 20-30 minutes to obtain a slurry; adding the B material to the A material, stirring at 200-300 rpm for 30-45 seconds; pouring freely into the mold to obtain foam The mold blank; then, together with the mold, the mold blank is sent into the tunnel oven, the temperature is increased in stages: 40-45 ° C, the reaction is 15-25 minutes; then at 55-65 ° C, the reaction is 10-15 minutes; The reaction is carried out at 75-85 ° C for 5-10 minutes; finally, it is aged at 90-100 ° C for 5-7 hours.

The invention has good heat preservation performance, and is beneficial to save electric energy when used for heat insulating materials or heat insulating materials; since the average core density is low, the raw material amount can also be saved; the invention has good sound insulation effect, and is light in weight, shockproof, preservative.

Specific implementation

A soundproof and shockproof rigid foam material is prepared by mixing, pouring, reacting and curing the following parts by weight of A and B materials:

Material A: The weight of each raw material is (parts by weight): polyether polyol 100, nano corundum powder 1, potassium hexatitanate Whiskers 8, water 3, vinyl tris(β-methoxyethoxy)silane 2.3, diatomaceous earth 30, montmorillonite powder 10, ceramic fiber 3, triethanolamine 2, dibutyl phthalate 3, 4 Potassium borate 1, modified attapulgite 6;

Material B: Parts by weight of each raw material (parts by weight): diphenylmethane diisocyanate 30.

The modified attapulgite is prepared by weighing the following parts by weight (kg): attapulgite 95, iron ore slag 1, straw ash 50, gypsum 3, styrene 2, ascorbic acid 2, dicyandiamide 1. Ammonium hydrogencarbonate 3, ethyl acetate 3, dioctyl ester 4, sodium selenite 5, borax 3, chlorinated paraffin 1; preparation method is to put attapulgite, iron ore slag and gypsum into a calcining furnace, Calcined at 570-590 ° C for 4-5 hours, taken out, mixed with straw ash, ammonium bicarbonate, borax, ground to obtain 300-400 mesh powder, and then mixed with styrene, ascorbic acid, dicyandiamide, continue to grind After 30-45 minutes, to fully disperse, and then add other remaining ingredients, continue to grind for 30-45 minutes, and then stir at 1500-1800 rpm for 15-30 minutes to obtain modified attapulgite.

The soundproof and shockproof rigid foam material of the invention is prepared by the following specific steps:

Mixing the raw materials of the A material, grinding at room temperature for 20-30 minutes to obtain a slurry; adding the B material to the A material, stirring at 200-300 rpm for 30-45 seconds; pouring freely into the mold to obtain foam The mold blank; then, together with the mold, the mold blank is sent into the tunnel oven, the temperature is increased in stages: 40-45 ° C, the reaction is 15-25 minutes; then at 55-65 ° C, the reaction is 10-15 minutes; The reaction is carried out at 75-85 ° C for 5-10 minutes; finally, it is aged at 90-100 ° C for 5-7 hours.

The functional parameters of the obtained materials were as follows: compressive strength (MPa): 0.21, oxygen index: 26, thermal conductivity (W/mK): 0.033.

Claims (1)

1. The invention discloses a soundproof and shockproof rigid foam material, which is characterized in that the following weight parts of A and B materials are mixed, poured, reacted and matured:

   Material A: polyether polyol 100, nano corundum powder 1-2, potassium hexatitanate whisker 8-12, water 3-4, vinyl tris(β-methoxyethoxy) silane 2.3-2.5, silicon Algae 30-35, montmorillonite powder 10-12, ceramic fiber 3-4, triethanolamine 2-3, dibutyl phthalate 3-4, potassium tetraborate 1-2, modified attapulgite 6-8 ;

   Material B: diphenylmethane diisocyanate 30-35;

   The modified attapulgite is prepared by weighing the following raw materials by weight: attapulgite 95-110, iron ore slag 1-2, straw ash 50-55, gypsum 3-4, styrene 2-3 , ascorbic acid 2-3, dicyandiamide 1-2, ammonium hydrogencarbonate 3-4, ethyl acetate 3-4, dioctyl ester 4-5, sodium selenite 5-6, borax 3-4, chlorinated paraffin 1-2; preparation method is to put attapulgite, iron ore slag, gypsum into a calciner, calcination at 570-590 ° C for 4-5 hours, take out, mix with straw ash, ammonium bicarbonate, borax, grind to Obtain 300-400 mesh powder, then add styrene, ascorbic acid, dicyandiamide mixture, continue grinding for 30-45 minutes, to fully disperse, then add other remaining ingredients, continue grinding for 30-45 minutes, after 1500-1800 The mixture is stirred at a sub-point for 15-30 minutes to obtain a modified attapulgite.