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CN105175006B - A kind of firing process of light-weight insulating brick - Google Patents

A kind of firing process of light-weight insulating brick Download PDF

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Publication number
CN105175006B
CN105175006B CN201510533536.4A CN201510533536A CN105175006B CN 105175006 B CN105175006 B CN 105175006B CN 201510533536 A CN201510533536 A CN 201510533536A CN 105175006 B CN105175006 B CN 105175006B
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base substrate
temperature
time
light
insulating brick
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CN105175006A (en
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林�智
武祯
邵俊杰
郭峰
陈全娣
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Keda Industrial Group Co Ltd
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Keda Clean Energy Co Ltd
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Abstract

The invention discloses a kind of firing process of light-weight insulating brick, including:(1)Base substrate is made by following composition of raw materials:Industrial cinder 50 76%, pug 6 20%, potassium feldspar 4 20%, albite 4 20%, quartz 4 20%, polishing slag 0 15%;(2)Refractory support is added below base substrate, at least one layer of high temperature powder is spread between the base substrate and refractory support;(3)Base substrate is warming up to 800 DEG C from normal temperature;(4)Base substrate is to slowly warm up to 1000 DEG C from 800 DEG C, heating-up time t240 90min, and be incubated under conditions of 1000 DEG C of temperature, soaking time t320‑30min;(5)Base substrate is warming up to temperature T from 1000 DEG C, temperature T is 1,150 1250 DEG C;(6)Normal temperature is naturally cooling to from temperature T.The present invention's burns till that step is simple, and firing time is short, saves the energy, and obtained insulating brick performance is good.

Description

A kind of firing process of light-weight insulating brick
Technical field
The present invention relates to field of heat insulating materials, more particularly to a kind of heat-insulation and heat-preservation for exterior wall and indoor heat insulation The firing process of the light-weight insulating brick of sound insulation.
Background technology
Insulation material of the present invention is mainly used in the heat-insulation and heat-preservation of exterior wall and the heat-insulating sound-insulating insulation of interior, existing Insulation material mainly have it is following several:
1st, for existing external wall thermal insulation material mainly based on benzene plate, the refractory temperature of benzene plate is 700 degree or so, and There is no hardness, be similar cotton texture, so its, which is used, there must be other construction materials as rigid support, form composite wood Material is used.Moreover, the temperature of fire is generally 800-1000 degree, the refractory temperature that 700 degree of benzene plate is insufficiently resistant to fire, So for fire, it is not the refractory material on practical significance.
2nd, existing interior wall heat-insulating sound-insulating insulation material is mainly based on aerated bricks, also using shale brick, clay Brick.The shortcomings that aerated bricks are although light, but its is maximum is exactly frangible, intensity deficiency, and is easily in powdery.But consider it Saving of the lightweight to building cost, be extended use in recent years or constantly, instead of shale brick and clay brick.Shale Brick, clay brick, intensity is higher, but from great, greatly increases the load-bearing of building, and wall collapses to people in a fire Secondary damage is larger caused by body, so this kind of partition block is gradually substituted.
3rd, the existing firing process using industrial cinder light-weight insulating brick, mainly with polished bricks production process Polishing slag is body material, and supplements extremely least a portion of industrial cinder as supplement raw material(Within 15%).Meanwhile existing use The technology of slag light heat insulation material is polished, production cost is high, and sintering process needs 16-24 hour.
Disclosed in Chinese patent CN200510016692.X《Coagulated stone brick and building-block》, its raw material includes:Solidifying stone 11- 28%th, cinder 26-40%, CHARACTERISTICS OF TAILINGS SAND 32-43%, surplus are water.In this patent, cinder is make use of as raw material, but the dosage of cinder It is less, not as bulk, and using solidifying masonry as binding agent, fragment of brick is made using gluing process.
Disclosed in Chinese patent CN200910016194.3《Coal residue powder environment-friendly brick》, " take 60-70% cinder powder to decide Material, makees flocculating agent with 20-30%300# cement, with 10% 100 mesh normal sands masonry auxiliary materials, three kinds of raw materials is mixed equal After even, addition can make brick raw material pinch pockets of water with hand, and feedstock delivery to extrusion shaping machine then is made into adobe, shaping Adobe afterwards is put into 20 DEG C~30 DEG C of environment temperature, 65 ± 20%rh of relative humidity is dried in canopy, avoids being exposed to the sun, and spontaneously dries 48 Can be finished product more than hour." this patent is a kind of coal residue powder environment-friendly brick, although the addition of cinder is also larger, it without Cross and burn till, simply bonded by the use of cement as a kind of binding agent.
Chinese patent CN201410137770.0《A kind of low thermal conductivity thermal insulation ceramicses brick and preparation method thereof》, cinder is A kind of raw material therein, addition is less, only 8-14%, and its firing process is:5-10 DEG C/min speed is warming up to 820-860 DEG C, be incubated 0.5-1h, then 1220-1280 DEG C be warming up to 8-12 DEG C/min speed, be incubated 1.5-2h, then with 10-15 DEG C/min speed is cooled to 740-780 DEG C, is incubated 1-1.5h, then be warming up to 1060- with 5-10 DEG C/min speed 1120 DEG C, 1-2h is incubated, is cooled to normal temperature.The firing process of the patent is complex, total firing time about 10 hours, takes It is long.
The content of the invention
The technical problems to be solved by the invention are, there is provided a kind of firing process of light-weight insulating brick, step is simple, burns It is short into the time, the energy is saved, obtained insulating brick performance is good.
To reach above-mentioned technique effect, the invention provides a kind of firing process of light-weight insulating brick, including:
(1)Base substrate is made by following composition of raw materials:
Industrial cinder 50-76%
Pug 6-20%
Potassium feldspar 4-20%
Albite 4-20%
Quartzy 4-20%
Polish slag 0-15%;
(2)Refractory support is added below base substrate, at least one layer of high temperature powder is spread between the base substrate and refractory support;
(3)Base substrate is warming up to 800 DEG C from normal temperature, heating-up time t1
(4)Base substrate is to slowly warm up to 1000 DEG C from 800 DEG C, heating-up time t240-90min, and in 1000 DEG C of temperature Under conditions of be incubated, soaking time t320-30min;
(5)Base substrate is warming up to temperature T, heating-up time t from 1000 DEG C4, wherein, the temperature T is 1150-1250 ℃;
(6)Normal temperature, temperature fall time t are naturally cooling to from temperature T5
The t1 、t2 、t3、 t4 、t5Time overall length be 4-7 h.
As the improvement of such scheme, the t1For 20-60min.
As the improvement of such scheme, the t4For 40-80min.
As the improvement of such scheme, the t5For 2-4h.
As the improvement of such scheme, the t1 、t2 、t3、 t4 、t5Time overall length be 4-6 h.
As the improvement of such scheme, the high temperature powder is aluminum oxide or silica.
As the improvement of such scheme, the base substrate is made up of following primary raw material:
Industrial cinder 60-76%
Pug 8-20%
Potassium feldspar 5-20%
Albite 5-20%
Quartzy 5-20%
Polish slag 0.1-15%.
As the improvement of such scheme, the raw material of the base substrate also includes:Auxiliary material 3-10%,
The auxiliary material is carboxymethyl cellulose, one kind in sodium tripolyphosphate or combination.
As the improvement of such scheme, the industrial cinder includes power plant cinder, heat supply cinder, coal and turns bottle coal slag.
As the improvement of such scheme, the proportion by the base substrate burnt till is 0.2-0.8,1000 DEG C of refractory temperature >, is led Hot coefficient is 0.04~0.10W/ (m.k).
Implement the present invention to have the advantages that:
First, formula of the invention is industrial cinder 50-76%, pug 6-20%, potassium feldspar 4-20%, albite 4-20%, stone English 4-20%, polishing slag 0-15%.For the present invention using industrial cinder as formula main body, addition is more than 50%, while such cinder Characteristic is all imperfect combustion, and the carbon that inside is contained is the foaming agent in sintering process again, and caused bubble is by single respectively Solely it is enclosed in inside base substrate, forms the stomata of single hole closing, air can not forms convection current inside base substrate, and heat is inside base substrate Heat exchange can not be formed, and has the function that insulation, sound insulation, heat-insulated.The present invention coordinates on the basis of industrial cinder adds potassium Feldspar 4-20%, albite 4-20%, can adjust the surface tension being formulated during high temperature, and closed air bubbles are caused micro- to ensure Minute bubbles will not penetrate spilling, also will not assemble to form bulla;Pug 6-20% is added, improves the plasticity of base substrate, ensures formula The hardness of powder;Quartzy 4-20% is added, glass item is formed in high temperature, adjusts the hardness and fragility of final products, ensures resistance to compression Intensity;Polishing slag 0-15% is added, for adjusting the porosity and pore opening.
2nd, because the present invention uses above-mentioned special formulation, therefore, firing process of the invention is simple, it is thus only necessary to controls Second temperature rise period was slow heating, and other temperature rise periods can use normal programming rate, because the second heating rank Section is process caused by gas, and the porcelain of base substrate needs the time, if gas has produced, and base substrate does not complete porcelain also, Then bubble will overflow base substrate, it is impossible to form loose structure.If heating is too fast, inside generation gas pressure is excessive, easily production Raw gas overflowing penetrates, and can not be formed and close independent stomata, and the finished product produced just does not reach the effect of heat-insulated insulation Fruit.Moreover, the whole firing time of the present invention was controlled in 4-7 hours, compared with existing firing process, burning is greatly simplified Into step, firing time is saved.
To sum up, the firing process step of light-weight insulating brick produced by the present invention is simple, and firing time is short, saves the energy, system Insulating brick quality it is hard, proportion is small, the porosity is high, refractory temperature more than 1000 degree, conventional fire can be resisted easily, led Hot coefficient is small, compression strength is high, is highly suitable for the heat-insulation and heat-preservation of exterior wall and the heat-insulating sound-insulating insulation of interior.
Brief description of the drawings
Fig. 1 is a kind of flow chart of the firing process of light-weight insulating brick of the present invention.
Embodiment
To make the object, technical solutions and advantages of the present invention clearer, below in conjunction with the drawings and specific embodiments pair The present invention is described in further detail.
As shown in figure 1, the invention provides a kind of firing process of light-weight insulating brick, including:
S101, by following composition of raw materials be made base substrate:
Industrial cinder 50-76%
Pug 6-20%
Potassium feldspar 4-20%
Albite 4-20%
Quartzy 4-20%
Polish slag 0-15%;
The method of base substrate is made with reference to prior art, such as:By raw material by proportioning mixing, by ball milling, spraying, pressure Type, drying is made, obtains base substrate.And for example:By raw material by proportioning mixing, by ball milling, spraying, heap powder shaping, dry, obtain base Body.
Wherein, industrial cinder is formula main body, and addition is more than 50%.The industrial cinder includes power plant cinder, supplied Hot coal slag, coal turn bottle coal slag, and the characteristic of such cinder is all imperfect combustion, and the carbon that inside is contained can shape in warm sintering process Into bubble, therefore industrial cinder is the foaming agent in sintering process again, because production process can be carried out to the high temperature viscosity of base substrate Control, bubble is individually enclosed in inside base substrate caused by industrial cinder, forms the stomata of single hole closing, air is in base Internal portion can not form convection current, and heat can not form heat exchange inside base substrate, and have the function that insulation, sound insulation, heat-insulated.Together When due to the present invention raw material be in 1200 degree or so the ceramic materials burnt out, so more than 1000 degree can be reached Refractory temperature.
The present invention coordinates on the basis of industrial cinder adds potassium feldspar 4-20%, albite 4-20%, can adjust high temperature Shi Peifang surface tension, closed air bubbles, to ensure that caused micro-bubble will not penetrate spilling, it will not also assemble to be formed greatly Bubble;
Pug 6-20% is added, improves the plasticity of base substrate, ensures the hardness of formula powder, ensures powder in forming process In adhesive property, specifically, the pug can be black mud or sludge;
Quartzy 4-20% is added, glass item is formed in high temperature, adjusts the hardness and fragility of final products, ensures pressure resistance Degree;
Polishing slag 0-15% is added, for adjusting the porosity and pore opening, the polishing slag can add, can also not Add, its addition is determined by the performance requirement of product.The main foaming agent of the present invention is carbon contained in cinder, And foaming agent of the slag for auxiliary is polished, when needing a greater amount of foaming effects, finished product proportion more hour, suitably can add on demand Add polishing slag.It should be noted that polishing slag is waste residue caused by polishing process in polished bricks production process, main component For carborundum, resin and the adobe waste residue thrown.
It should be noted that the % in composition of raw materials of the present invention refers to percentage by weight.
Preferably, the light-weight brick is made up of following primary raw material:
Industrial cinder 60-76%
Pug 8-20%
Potassium feldspar 5-20%
Albite 5-20%
Quartzy 5-20%
Polish slag 0.1-15%.
More preferably, the raw material of the light-weight brick also includes:Auxiliary material 3-10%, the auxiliary material be carboxymethyl cellulose, One kind or combination in sodium tripolyphosphate, it is mainly used in adjusting slurry fluidity, suspension.
S102, refractory support is added below base substrate, at least one layer of high temperature powder is spread between the base substrate and refractory support End;
The high temperature powder is aluminum oxide or silica.The present invention needs to add refractory support below base substrate and in base At least one layer of high temperature powder is spread between body and refractory support, is in because the whole complete vitreous of base substrate and expansion, during high temperature The liquid of melting, it is impossible to directly enter roller kiln burning into, therefore need under base substrate plus refractory support carry out pad burning;Will between backing plate and base substrate The high temperature powders such as uniform cloth one layer of aluminum oxide, silica, to facilitate the separation between the product after burning till and backing plate.
S103, base substrate is warming up to 800 DEG C from normal temperature, heating-up time t1
Base substrate is warming up to 800 DEG C from normal temperature, this stage was the first temperature rise period, was required without special programming rate, As long as normal heating, the heating-up time is t1, t1About 20-60min.
S104, base substrate is to slowly warm up to 1000 DEG C from 800 DEG C, heating-up time t240-90min, and in temperature 1000 It is incubated under conditions of DEG C, soaking time t320-30min;
Heating-up time t2With soaking time t3Time overall length be 60-120min.This stage be the second temperature rise period, it is necessary to Slow heating, because this stage is process caused by gas, and the porcelain of base substrate needs the time, if gas has produced, and Base substrate does not complete porcelain also, then bubble will overflow base substrate, it is impossible to form loose structure.If heating is too fast, inside produces gas Body pressure is excessive, easily produces gas overflowing and penetrates, it is impossible to is formed and closes independent stomata, the material produced just does not reach Heat-insulated, insulation effect.
Preferably, base substrate is to slowly warm up to 1000 DEG C from 800 DEG C, heating-up time t2For 40-60min, and in temperature It is incubated under conditions of 1000 DEG C, soaking time t3For 20-30min.
S105, base substrate is warming up to temperature T, heating-up time t from 1000 DEG C4, wherein, the temperature T is 1150-1250 ℃;
Base substrate is warming up to temperature T, heating-up time t from 1000 DEG C4, this stage was the 3rd temperature rise period, without special Programming rate requirement, as long as normal heating, heating-up time t4For 40-80min.Wherein, temperature T burns till for the present invention Maximum temperature, the temperature T be 1150-1250 DEG C.
S106, normal temperature, temperature fall time t are naturally cooling to from temperature T5
Normal temperature, temperature fall time t are naturally cooling to from temperature T5, temperature fall time t5About 2-4 hours.
The overall firing period of the present invention is 4-7 hours, i.e., described t1 、t2 、t3、 t4 、t5Time overall length for 4-7 it is small When.Preferably, overall firing period of the invention is 4-6 hours, i.e., described t1 、t2 、t3、 t4 、t5Time overall length be 4-6 Hour.
In sintering process, soaking time of the invention is short(As long as 20-30 minutes), holding temperature point is low(Less than 1000 Degree Celsius), the energy is saved, simple the step of whole firing process, firing time is short, saves the energy.
The present invention uses above-mentioned special formulation, and by above-mentioned specific firing process, obtained light-weight insulating brick is burnt till The proportion of technique is 0.2-0.8, and 1000 DEG C of refractory temperature >, thermal conductivity factor is 0.04~0.10W/ (m.k), and compression strength is 1.0-6.5MPa。
The present invention is further elaborated with specific embodiment below
Embodiment 1
(1)Raw material is mixed by proportioning, is formulated and is:Industrial cinder 60%, pug 20%, potassium feldspar 4%, albite 4%, quartz 4%th, slag 8% is polished;Then by ball milling, spraying, compressing, dry, obtained base substrate;
(2)Refractory support is added below base substrate, it is high that at least one layer of aluminum oxide is spread between the base substrate and refractory support Warm powder;
(3)Base substrate is warming up to 800 DEG C from normal temperature, heating-up time t1=20min;
(4)Base substrate is to slowly warm up to 1000 DEG C from 800 DEG C, heating-up time t2=40min, and in 1000 DEG C of temperature Under the conditions of be incubated, soaking time t3=20min;
(5)Base substrate is warming up to temperature T from 1000 DEG C, wherein, the temperature T is 1150 DEG C, heating-up time t4= 40min;
(6)Normal temperature, temperature fall time t are naturally cooling to from temperature T5=2 hours;
Overall firing period is 4h.
Embodiment 2
(1)Raw material is mixed by proportioning, is formulated and is:Industrial cinder 65%, pug 10%, potassium feldspar 5%, albite 5%, quartz 5%th, slag 10% is polished;Then by ball milling, spraying, compressing, dry, obtained base substrate;
(2)Refractory support is added below base substrate, at least one layer of silica is spread between the base substrate and refractory support High temperature powder;
(3)Base substrate is warming up to 800 DEG C from normal temperature, heating-up time t1=30min;
(4)Base substrate is to slowly warm up to 1000 DEG C from 800 DEG C, heating-up time t2=50min, and in 1000 DEG C of temperature Under the conditions of be incubated, soaking time t3=25min;
(5)Base substrate is warming up to temperature T from 1000 DEG C, wherein, the temperature T is 1200 DEG C, heating-up time t4= 50min;
(6)Normal temperature, temperature fall time t are naturally cooling to from temperature T535 minutes=2 hours;
Overall firing period is 5h.
Embodiment 3
(1)Raw material is mixed by proportioning, is formulated and is:Industrial cinder 70%, pug 6%, potassium feldspar 6%, albite 6%, quartz 6%th, slag 6% is polished;Then by ball milling, spraying, compressing, dry, obtained base substrate;
(2)Refractory support is added below base substrate, it is high that at least one layer of aluminum oxide is spread between the base substrate and refractory support Warm powder;
(3)Base substrate is warming up to 800 DEG C from normal temperature, heating-up time t1=40min;
(4)Base substrate is to slowly warm up to 1000 DEG C from 800 DEG C, heating-up time t2=60min, and in 1000 DEG C of temperature Under the conditions of be incubated, soaking time t3=30min;
(5)Base substrate is warming up to temperature T from 1000 DEG C, wherein, the temperature T is 1180 DEG C, heating-up time t4= 50min;
(6)Normal temperature, temperature fall time t are naturally cooling to from temperature T5=3 hours;
Overall firing period is 6h.
Embodiment 4
(1)Raw material is mixed by proportioning, is formulated and is:Industrial cinder 76%, pug 6%, potassium feldspar 10%, albite 4%, quartz 4%;Then by ball milling, spraying, the shaping of heap powder, dry, obtained base substrate;
(2)Refractory support is added below base substrate, at least one layer of silica is spread between the base substrate and refractory support High temperature powder;
(3)Base substrate is warming up to 800 DEG C from normal temperature, heating-up time t1=50min;
(4)Base substrate is to slowly warm up to 1000 DEG C from 800 DEG C, heating-up time t2=40min, and in 1000 DEG C of temperature Under the conditions of be incubated, soaking time t3=30min;
(5)Base substrate is warming up to temperature T from 1000 DEG C, wherein, the temperature T is 1160 DEG C, heating-up time t4= 60min;
(6)Normal temperature, temperature fall time t are naturally cooling to from temperature T5=2 hours;
Overall firing period is 5 h.
Embodiment 5
(1)Raw material is mixed by proportioning, is formulated and is:Industrial cinder 50%, pug 10%, potassium feldspar 10%, albite 10%, stone English 10%, polishing slag 10%;;Then by ball milling, spraying, the shaping of heap powder, dry, obtained base substrate;
(2)Refractory support is added below base substrate, it is high that at least one layer of aluminum oxide is spread between the base substrate and refractory support Warm powder;
(3)Base substrate is warming up to 800 DEG C from normal temperature, heating-up time t1=60min;
(4)Base substrate is to slowly warm up to 1000 DEG C from 800 DEG C, heating-up time t2=50min, and in 1000 DEG C of temperature Under the conditions of be incubated, soaking time t3=20min;
(5)Base substrate is warming up to temperature T from 1000 DEG C, wherein, the temperature T is 1220 DEG C, heating-up time t4= 60min;
(6)Normal temperature, temperature fall time t are naturally cooling to from temperature T5=3 hours;
Overall firing period is 10 minutes 6 hours.
Embodiment 6
(1)Raw material is mixed by proportioning, is formulated and is:Industrial cinder 62%, pug 10%, potassium feldspar 10%, albite 10%, stone English 4%, polishing slag 1%, carboxymethyl cellulose 2%, sodium tripolyphosphate 1%;Then by ball milling, spraying, the shaping of heap powder, dry, system Obtain base substrate;
(2)Refractory support is added below base substrate, at least one layer of silica is spread between the base substrate and refractory support High temperature powder;
(3)Base substrate is warming up to 800 DEG C from normal temperature, heating-up time t1=25min;
(4)Base substrate is to slowly warm up to 1000 DEG C from 800 DEG C, heating-up time t2=45min, and in 1000 DEG C of temperature Under the conditions of be incubated, soaking time t3=25min;
(5)Base substrate is warming up to temperature T from 1000 DEG C, wherein, the temperature T is 1250 DEG C, heating-up time t4= 65min;
(6)Normal temperature, temperature fall time t are naturally cooling to from temperature T520 minutes=3 hours;
Overall firing period is 6 h.
Light-weight insulating brick made from embodiment 1-6 is done into technology for detection, it is as a result as follows:
Project Embodiment 1 Embodiment 2 Embodiment 3 Embodiment 4 Embodiment 5 Embodiment 6
Proportion 0.2 0.3 0.6 0.4 0.3 0.5
Refractory temperature 1050℃ 1180℃ 1120℃ 1070℃ 1020℃ 1153℃
Thermal conductivity factor 0.08W/(m.k) 0.06W/(m.k) 0.10W/(m.k) 0.07W/(m.k) 0.04W/(m.k) 0.05W/(m.k)
Compression strength 5.55MPa 5.60MPa 5.45MPa 5.70MPa 5.80MPa 5.85MPa
Overall firing period 4 hours 5 hours 6 hours 5 hours 10 minutes 6 hours 6 hours
To sum up, the firing process quality of light-weight insulating brick produced by the present invention is hard, proportion is small, the porosity is high, fire resisting temperature Degree more than 1000 degree, conventional fire can be resisted easily, thermal conductivity factor is small, compression strength is high, be highly suitable for exterior wall every Heat insulation and the heat-insulating sound-insulating insulation of interior.Moreover, the present invention recycles well using industrial cinder as formula main body Waste resource, firing process is simple, and firing time is short, saves the energy.
Described above is the preferred embodiment of the present invention, it is noted that for those skilled in the art For, under the premise without departing from the principles of the invention, some improvements and modifications can also be made, these improvements and modifications are also considered as Protection scope of the present invention.

Claims (5)

  1. A kind of 1. firing process of light-weight insulating brick, it is characterised in that including:
    (1)Base substrate is made by following composition of raw materials:
    Industrial cinder 60-76%
    Pug 6-20%
    Potassium feldspar 4-20%
    Albite 4-20%
    Quartzy 4-20%
    Polish slag 0.1-15%;
    (2)Refractory support is added below base substrate, at least one layer of high temperature powder is spread between the base substrate and refractory support;
    (3)Base substrate is warming up to 800 DEG C from normal temperature, heating-up time t1
    (4)Base substrate is to slowly warm up to 1000 DEG C from 800 DEG C, heating-up time t240-90min, and in the bar of 1000 DEG C of temperature It is incubated under part, soaking time t320-30min;
    (5)Base substrate is warming up to temperature T, heating-up time t from 1000 DEG C4, wherein, the temperature T is 1150-1250 DEG C;
    (6)Normal temperature, temperature fall time t are naturally cooling to from temperature T5
    The t1 、t2 、t3、 t4 、t5Time overall length be 4-7 h;
    The industrial cinder includes power plant cinder, heat supply cinder, coal and turns bottle coal slag;
    The t1For 20-60min;
    The t4For 40-80min;
    The t5For 2-4h;
    The pug is black mud or sludge;
    The high temperature powder is aluminum oxide or silica;
    % in the composition of raw materials refers to percentage by weight.
  2. 2. the firing process of light-weight insulating brick as claimed in claim 1, it is characterised in that the t1 、t2 、t3、 t4 、t5's Time overall length is 4-6 h.
  3. 3. the firing process of the light-weight insulating brick as described in claim any one of 1-2, it is characterised in that the base substrate is by following Raw material is made:
    Industrial cinder 60-76%
    Pug 8-20%
    Potassium feldspar 5-20%
    Albite 5-20%
    Quartzy 5-20%
    Polish slag 0.1-15%;
    % in the composition of raw materials refers to percentage by weight.
  4. 4. the firing process of light-weight insulating brick as claimed in claim 3, it is characterised in that the raw material of the base substrate also includes: Auxiliary material 3-10%,
    The auxiliary material is carboxymethyl cellulose, one kind in sodium tripolyphosphate or combination;% in the composition of raw materials refers to weight Measure percentage.
  5. 5. the firing process of light-weight insulating brick as claimed in claim 1, it is characterised in that be by the proportion of base substrate burnt till 1000 DEG C of 0.2-0.8, refractory temperature >, thermal conductivity factor are 0.04~0.10W/ (m.k).
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CN104860662A (en) * 2015-05-04 2015-08-26 安徽省亚欧陶瓷有限责任公司 Heat preservation and heat insulation ceramic tile and production method thereof

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* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP0165103B1 (en) * 1984-05-04 1988-10-19 SOCIETE GENERALE POUR LES TECHNIQUES NOUVELLES S.G.N. Société anonyme dite: Process for coating and storing dangerous, in particular radioactive materials in a monolithic container, device for carrying out said process and product obtained
CN1850682A (en) * 2006-05-31 2006-10-25 东北大学 Method for preparing porose glass composite material using iron ore tailings
CN101672083A (en) * 2009-08-14 2010-03-17 沈正 Method for producing self-insulation baked brick by using pure coal gangue
CN101948298A (en) * 2010-09-16 2011-01-19 华南理工大学 Method for producing ceramic glazed tile from coal slag by double sintering
CN104860662A (en) * 2015-05-04 2015-08-26 安徽省亚欧陶瓷有限责任公司 Heat preservation and heat insulation ceramic tile and production method thereof

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