CN103787642A - Efficient thermal insulation energy-saving material - Google Patents

Abstract

The invention discloses an efficient thermal insulation energy-saving material. The efficient thermal insulation material is characterized by comprising the following raw materials in parts by weight: 20-30 parts of expanded perlite, 2-8 parts of polypropylene fibers, 2-5 parts of white clay powder, 5-8 parts of sodium silicate, 2-5 parts of aluminium dihydrogen phosphate, 10-15 parts of ash-calcium powder, 2-5 parts of flame retardant, 2-5 parts of hardening agent and 5-15 parts of fillers. The thermal insulation energy-saving material disclosed by the invention is applicable to sound insulation and efficient thermal insulation of kinds of building walls.

Description

A kind of high-efficient insulation energy-saving material

Technical field

The present invention relates to building material field, be specifically related to a kind of high-efficient insulation energy-saving material and preparation method.

Background technology

Building energy conservation refers to that material of construction building products is in planning, design, construction and use procedure, by adopting novel wall material, carry out building energy-saving standard, strengthen the management of buildings with energy equipment, the thermal property of appropriate design architectural exterior-protecting construction, improve the operational efficiency of heating, refrigeration, illumination, ventilation, plumbing and passage, and utilize renewable resources, guaranteeing that buildings uses under the prerequisite of function and indoor thermal environment quality, reduce the consumption of architectural resource, rationally effectively utilize the activity of the energy.

Developed country, by more and more having effectively utilized the energy, has met the needs of comfortable quality of building substantially, and in China, along with the raising of people's living condition, comfortable building thermal environments more and more becomes the needs of people's life.At present, the most of organic and inorganic heat insulation material sold on market has occurred that in the application of wall thermal insulating system heat-insulating property in various degree declines, and the cracking of thermal insulation layer, the basic problem such as come off, go mouldy.

The invention provides a kind of high-efficient insulation energy-saving material and preparation method thereof, overcome the variety of problems that above commercially available traditional lagging material exists.

Summary of the invention

First object of the present invention is to provide a kind of high-efficient insulation energy-saving material, comprise the raw material of following weight part: 20 ~ 30 parts of pearlstones, 2 ~ 8 parts of polypropylene fibers, 2 ~ 5 parts, white clay powder, 5 ~ 8 parts of water glass, 2 ~ 5 parts of aluminium dihydrogen phosphates, 10 ~ 15 parts of ash calcium powders, 2 ~ 5 parts of fire retardants, 2 ~ 5 parts of Hardening agent, 5 ~ 15 parts of fillers.

Above-mentioned fire retardant is zinc borate.

Above-mentioned Hardening agent is Sodium Silicofluoride.

Above-mentioned filler is flyash or sawdust powder.

Second object of the present invention is to provide a kind of preparation method of high-efficient insulation energy-saving material: by pearlstone, and man-made fiber, white clay powder, silicate, aluminium dihydrogen phosphate, grey calcium powder and fire retardant are mixed in proportion, and put into stirrer and stir until mix; In stirrer, add Hardening agent, filler and water to continue to stir 15 ~ 20 min; Smear the thick releasing agent of one deck 3 ~ 5 mm in die surface, pour gained mixture in mould extrusion forming; The raw material module obtaining after extrusion forming is sent in baking oven and is dried; Lagging material to be formed cooling completely after, effects on surface carries out press polish processing; After press polish layer is dried completely, packing warehouse-in.

The mass ratio of above-mentioned Hardening agent, filler and water is 1:3:25.

Above-mentioned press polish step is to smear at heat insulation material surface the lime mortar layer that a layer thickness is 15 ~ 25 mm.

Above-mentioned lime mortar layer is that mass ratio is lime: the mixed slurry of sand: water=1:1:3.

Product starting material of the present invention are easily buied, and preparation method is simple, and heat insulation, sound insulation and heat preservation and energy conservation effects are positive.

embodiment:

Below in conjunction with concrete case study on implementation, the present invention is described in further detail:

Embodiment 1:

Pearlstone 30 kg, polypropylene fiber 8 kg, white clay powder 5 kg, water glass 5 kg, aluminium dihydrogen phosphate 5 kg, grey calcium powder 15 kg and zinc borate 5 kg are mixed in proportion, put into stirrer and stir until mix; In stirrer, add Sodium Silicofluoride 5 kg, flyash 15 kg and water 100 L to continue to stir 15 ~ 20 min; Smear the thick releasing agent of one deck 3 ~ 5 mm in die surface, pour gained mixture in mould extrusion forming; The raw material module obtaining after extrusion forming is sent in baking oven and is dried; Lagging material to be formed cooling completely after, effects on surface smearing thickness is the lime mortar layer of 15 ~ 20 mm; After lime mortar layer is dried completely, packing warehouse-in.

Embodiment 2:

Pearlstone 20 kg, spandex fibre 2 kg, white clay powder 2 kg, water glass 5 kg, aluminium dihydrogen phosphate 2 kg, grey calcium powder 15 kg and zinc borate 2 kg are mixed in proportion, put into stirrer and stir until mix; In stirrer, add Sodium Silicofluoride 2 kg, sawdust powder 10 kg and water 60 L to continue to stir 15 ~ 20 min; Smear the thick releasing agent of one deck 3 ~ 5 mm in die surface, pour gained mixture in mould extrusion forming; The raw material module obtaining after extrusion forming is sent in baking oven and is dried; Lagging material to be formed cooling completely after, effects on surface smearing thickness is the lime mortar layer of 15 ~ 20 mm; After lime mortar layer is dried completely, packing warehouse-in.

Embodiment 3:

By pearlstone 25 kg, nylon fibre 8 kg, white clay powder 3 kg, water glass 5 kg, aluminium dihydrogen phosphate 5 kg, grey calcium powder 15 kg and zinc borate 3 kg are mixed in proportion, and put into stirrer and stir until mix; In stirrer, add Sodium Silicofluoride 3 kg, sawdust powder 10 kg and water 80 L to continue to stir 15 ~ 20 min; Smear the thick releasing agent of one deck 3 ~ 5 mm in die surface, pour gained mixture in mould extrusion forming; The raw material module obtaining after extrusion forming is sent in baking oven and is dried; Lagging material to be formed cooling completely after, effects on surface smearing thickness is the lime mortar layer of 15 ~ 20 mm; After lime mortar layer is dried completely, packing warehouse-in.

Claims (8)

1. a high-efficient insulation energy-saving material, it is characterized in that, described heat insulating energy saving material comprises the raw material of following weight part: 20 ~ 30 parts of pearlstones, 2 ~ 8 parts of polypropylene fibers, 2 ~ 5 parts, white clay powder, 5 ~ 8 parts of water glass, 2 ~ 5 parts of aluminium dihydrogen phosphates, 10 ~ 15 parts of grey calcium powders, 2 ~ 5 parts of fire retardants, 2 ~ 5 parts of Hardening agent, 5 ~ 15 parts of fillers.

2. high-efficient insulation energy-saving material according to claim 1, is characterized in that, described fire retardant is zinc borate.

3. high-efficient insulation energy-saving material according to claim 2, is characterized in that, described Hardening agent is Sodium Silicofluoride.

4. high-efficient insulation energy-saving material according to claim 3, is characterized in that, described filler is flyash or sawdust powder.

5. prepare the method for high-efficient insulation energy-saving material as claimed in claim 4 for one kind, it is characterized in that, press following processing step: by pearlstone, man-made fiber, white clay powder, silicate, aluminium dihydrogen phosphate, ash calcium powder and fire retardant are mixed in proportion, and put into stirrer and stir until mix; In stirrer, add Hardening agent, filler and water to continue to stir 15 ~ 20 min; Smear the thick releasing agent of one deck 3 ~ 5 mm in die surface, pour gained mixture in mould extrusion forming; The raw material module obtaining after extrusion forming is sent in baking oven and is dried; Lagging material to be formed cooling completely after, effects on surface carries out press polish processing; After press polish layer is dried completely, packing warehouse-in.

6. the method for preparing high-efficient insulation energy-saving material according to claim 5, is characterized in that, the mass ratio of described Hardening agent, filler and water is 1:3:25.

7. the method for preparing high-efficient insulation energy-saving material according to claim 6, is characterized in that, described press polish step is to smear at heat insulation material surface the lime mortar layer that a layer thickness is 15 ~ 25 mm.

8. the method for preparing high-efficient insulation energy-saving material according to claim 7, is characterized in that, described lime mortar layer is that mass ratio is lime: the mixed slurry of sand: water=1:1:3.