CN104876533A - Energy-saving building material and preparation method thereof - Google Patents

Abstract

The invention discloses an energy-saving building material and a preparation method thereof. The energy-saving building material comprises the following components in parts by weight: 8-22 parts of sea-foam stone powder, 6-17 parts of bentonite, 5-15 parts of ethylene propylene diene monomer, 11-18 parts of coal ash, 9-20 parts of tetra calcium aluminoferrite, 6-14 parts of calcium hypophosphite, 5-11 parts of zinc borate, 3-8 parts of nanosilicon dioxide, and 5-9 parts of aluminum silicate wool. The preparation method comprises the following steps of: (1) respectively grinding sea-foam stone powder, bentonite, coal ash, tetra calcium aluminoferrite, calcium hypophosphite, zinc borate and nanosilicon dioxide by using a grinding machine so as to respectively obtain powder of the above components; (2) opening a high-speed dispersion machine, and adding the above components into the high-speed dispersion machine to mix; and (3) pressurizing the mixed building material in a high-temperature mould, pressing at high temperature, and taking out from the mould after pressing so as to obtain the energy-saving building material.

Description

A kind of energy saving building material and preparation method thereof

Technical field

The invention belongs to energy-conserving and environment-protective building material field, relate to material of construction and preparation method thereof, particularly relate to a kind of energy saving building material and preparation method thereof.

Background technology

The height of energy for building depends on the thermal and insulating performance of architectural exterior-protecting construction, the stopping property etc. of building.Although China does a lot of work in the research and development, production, design, construction etc. of body of wall, roof cladding, door and window, floor power-saving technology and product, but, due to factors such as the thermal and insulating performance of architectural exterior-protecting construction is not high, the stopping property of building differences, China's building energy consumption total amount is caused to remain high, still there is huge spread with Foreign Advanced Lerel, China also has very large potentiality in architectural exterior-protecting construction is energy-conservation.Conventional its energy-saving effect of material of construction is comparatively conventional, can not effectively reduce the energy consumption of building.Therefore, need to proceed deep exploitation to material of construction.Study novel energy saving and environment friendly material of construction.

Summary of the invention

The technical problem solved: the object of this invention is to provide a kind of energy saving building material and preparation method thereof, under the prerequisite of physical strength ensureing material of construction, reduces the energy consumption of material of construction, improves the effect that it is energy-conservation.

Technical scheme: in order to solve the problem, the invention discloses a kind of energy saving building material and preparation method thereof, and described energy saving building material comprises the composition of following weight part:

Described a kind of energy saving building material, comprises the composition of following weight part:

A preparation method for energy saving building material, comprises the following steps:

(1) get sepiolite powder, wilkinite, flyash, tetracalcium aluminoferrite, calcium propionate, zinc borate, nano silicon, carry out milled processed with sand mill respectively, after grinding, obtain the powder of mentioned component respectively;

(2) high speed dispersor is opened, in high speed dispersor, add that sepiolite powder is 8-22 part, wilkinite is 6-17 part, terpolymer EP rubber is 5-15 part, flyash is 11-18 part, tetracalcium aluminoferrite is 9-20 part, calcium propionate is 6-14 part, zinc borate is 5-11 part, nano silicon is 3-8 part, aluminium silicate wool is 5-9 part, the composition added is mixed;

(3) by mixed material of construction again in die material pressurization carry out high temperature compacting, during compacting, pressure is 26-46Mpa, and die temperature stabilizes to 85-105 DEG C, takes out after compacting from mould, be preparation energy saving building material.

The preparation method of described a kind of energy saving building material, time processed in described step (3), pressure is 36Mpa.

The preparation method of described a kind of energy saving building material, time processed in described step (3), die temperature stabilizes to 95 DEG C.

Beneficial effect: energy saving building material of the present invention has the advantage that intensity is high, energy consumption is low, be applied in building, can under the prerequisite ensureing buildings intensity, effectively reduce the energy consumption of buildings, in the preparation method of material of construction of the present invention, the moiety of material of construction is innovated, adds the materials such as terpolymer EP rubber, nano silicon and aluminium silicate wool, remarkable to the performance effect improving material of construction.

Embodiment

Embodiment 1

(1) get sepiolite powder, wilkinite, flyash, tetracalcium aluminoferrite, calcium propionate, zinc borate, nano silicon, carry out milled processed with sand mill respectively, after grinding, obtain the powder of mentioned component respectively;

(2) high speed dispersor is opened, in high speed dispersor, add that sepiolite powder is 22 parts, wilkinite is 6 parts, terpolymer EP rubber is 15 parts, flyash is 18 parts, tetracalcium aluminoferrite is 9 parts, calcium propionate is 6 parts, zinc borate is 11 parts, nano silicon is 3 parts, aluminium silicate wool is 9 parts, the composition added is mixed;

(3) by mixed material of construction again in die material pressurization carry out high temperature compacting, during compacting, pressure is 46Mpa, and die temperature stabilizes to 105 DEG C, takes out after compacting from mould, be preparation energy saving building material.

Embodiment 2

(1) get sepiolite powder, wilkinite, flyash, tetracalcium aluminoferrite, calcium propionate, zinc borate, nano silicon, carry out milled processed with sand mill respectively, after grinding, obtain the powder of mentioned component respectively;

(2) high speed dispersor is opened, in high speed dispersor, add that sepiolite powder is 8 parts, wilkinite is 17 parts, terpolymer EP rubber is 5 parts, flyash is 11 parts, tetracalcium aluminoferrite is 20 parts, calcium propionate is 14 parts, zinc borate is 5 parts, nano silicon is 8 parts, aluminium silicate wool is 5 parts, the composition added is mixed;

(3) by mixed material of construction again in die material pressurization carry out high temperature compacting, during compacting, pressure is 26Mpa, and die temperature stabilizes to 85 DEG C, takes out after compacting from mould, be preparation energy saving building material.

Embodiment 3

(1) get sepiolite powder, wilkinite, flyash, tetracalcium aluminoferrite, calcium propionate, zinc borate, nano silicon, carry out milled processed with sand mill respectively, after grinding, obtain the powder of mentioned component respectively;

(2) high speed dispersor is opened, in high speed dispersor, add that sepiolite powder is 20 parts, wilkinite is 8 parts, terpolymer EP rubber is 8 parts, flyash is 17 parts, tetracalcium aluminoferrite is 13 parts, calcium propionate is 11 parts, zinc borate is 10 parts, nano silicon is 7 parts, aluminium silicate wool is 6 parts, the composition added is mixed;

(3) by mixed material of construction again in die material pressurization carry out high temperature compacting, during compacting, pressure is 46Mpa, and die temperature stabilizes to 105 DEG C, takes out after compacting from mould, be preparation energy saving building material.

Embodiment 4

(1) get sepiolite powder, wilkinite, flyash, tetracalcium aluminoferrite, calcium propionate, zinc borate, nano silicon, carry out milled processed with sand mill respectively, after grinding, obtain the powder of mentioned component respectively;

(2) high speed dispersor is opened, in high speed dispersor, add that sepiolite powder is 13 parts, wilkinite is 14 parts, terpolymer EP rubber is 12 parts, flyash is 13 parts, tetracalcium aluminoferrite is 18 parts, calcium propionate is 8 parts, zinc borate is 7 parts, nano silicon is 4 parts, aluminium silicate wool is 8 parts, the composition added is mixed;

(3) by mixed material of construction again in die material pressurization carry out high temperature compacting, during compacting, pressure is 26Mpa, and die temperature stabilizes to 85 DEG C, takes out after compacting from mould, be preparation energy saving building material.

Embodiment 5

(1) get sepiolite powder, wilkinite, flyash, tetracalcium aluminoferrite, calcium propionate, zinc borate, nano silicon, carry out milled processed with sand mill respectively, after grinding, obtain the powder of mentioned component respectively;

(2) high speed dispersor is opened, in high speed dispersor, add that sepiolite powder is 17 parts, wilkinite is 11 parts, terpolymer EP rubber is 10 parts, flyash is 15 parts, tetracalcium aluminoferrite is 15 parts, calcium propionate is 9 parts, zinc borate is 8 parts, nano silicon is 6 parts, aluminium silicate wool is 7 parts, the composition added is mixed;

(3) by mixed material of construction again in die material pressurization carry out high temperature compacting, during compacting, pressure is 36Mpa, and die temperature stabilizes to 95 DEG C, takes out after compacting from mould, be preparation energy saving building material.

Thermal conductivity and the folding strength of energy saving building material of the present invention are as follows:

	Thermal conductivity (W/ (mK))	Ultimate compression strength
			Embodiment 1	0.035	27.5
Embodiment 2	0.032	28.4
			Embodiment 3	0.027	31.7
Embodiment 4	0.026	32.2
			Embodiment 5	0.022	39.5

Claims (5)

1. an energy saving building material, is characterized in that described energy saving building material comprises the composition of following weight part:

2. a kind of energy saving building material according to claim 1, is characterized in that described energy saving building material comprises the composition of following weight part:

3. a preparation method for energy saving building material, is characterized in that, the preparation method of described energy saving building material comprises the following steps:

(1) get sepiolite powder, wilkinite, flyash, tetracalcium aluminoferrite, calcium propionate, zinc borate, nano silicon, carry out milled processed with sand mill respectively, after grinding, obtain the powder of mentioned component respectively;

(2) high speed dispersor is opened, in high speed dispersor, add that sepiolite powder is 8-22 part, wilkinite is 6-17 part, terpolymer EP rubber is 5-15 part, flyash is 11-18 part, tetracalcium aluminoferrite is 9-20 part, calcium propionate is 6-14 part, zinc borate is 5-11 part, nano silicon is 3-8 part, aluminium silicate wool is 5-9 part, the composition added is mixed;

(3) by mixed material of construction again in die material pressurization carry out high temperature compacting, during compacting, pressure is 26-46Mpa, and die temperature stabilizes to 85-105 DEG C, takes out after compacting from mould, be preparation energy saving building material.

4. the preparation method of a kind of energy saving building material according to claim 3, is characterized in that, time processed in described step (3), pressure is 36Mpa.

5. the preparation method of a kind of energy saving building material according to claim 3, is characterized in that, time processed in described step (3), die temperature stabilizes to 95 DEG C.