CN102557454A - Method for producing microcrystalline foamed heat-insulation board with dolomite - Google Patents

Abstract

The invention relates to a method for producing a microcrystalline foamed heat-insulation board with dolomite. The method for producing the microcrystalline foamed heat-insulation board from rich dolomite in the earth, a proper amount of quartz sand as well as auxiliary raw materials, which mainly comprises industrial aluminum oxide, industrial sodium carbonate, industrial barium carbonate, calcium carbonate, a colorant, an oxidant and a clarifier. According to the invention, the microcrystalline foamed heat-insulation board has excellent physical and chemical performances, and is green and environment-friendly; and the production process is suitable for industrial production line process flow, and has the characteristics of wide and easily available raw materials, low cost, short crystallizing and foaming time, high production efficiency, energy saving , comprehensive and effective resource utilization and the like.

Description

A kind of method of utilizing rhombspar to produce the crystallite foam heat-insulating board

Technical field:

The crystallite foam heat-insulating board is a kind of silicate product among the present invention, belongs to the building materials industry product, particularly relates to a kind of method of utilizing rhombspar to produce the crystallite foam heat-insulating board.

Background technology:

1, the present situation of China's rhombspar

The rhombspar staple is the double salt of lime carbonate and magnesiumcarbonate, and molecular formula is CaCO ₃MgCO ₃, hexagonal system, proportion 2.80～2.99, Mohs' hardness 3.5～4.5, theory consist of CaO30.41%, MgO21.87%, CO ₂47.72%, the CaO/MgO ratio is 1.39, and general rhombspar contains quicklime 29 ~ 33%, Natural manganese dioxide 16 ~ 22%, also contains a spot of red stone (Fe ₂O ₃), silicon oxide (SiO ₂), aluminum oxide (Al ₂O ₃) etc.

Rhombspar is a kind of mineral that occurring in nature extensively distributes, and mainly contains deposition and two kinds of origin causes of formation of hydrothermal solution.It is present in crystalline limestone and other the rich magniferous metamorphosed rock usually; Part originates in the hole of hydrothermal solution mineral ore and carbonate rock; Occasionally as the cementing matter of various sedimentogeneous rocks; It is an essential mineral of forming scud, dolomitic limestone, also is one of main mineral composition of magmatogene carbonatite, is modal a kind of rock in the carbonatite.

Rhombspar characteristic, general use and Application Areas.Rhombspar has vitreous luster, and the rhombohedron cleavage is complete, Mohs' hardness 3.5～4, and proportion 2.85～3.2 slowly bubbles when meeting cold dilute hydrochloric acid, is to form dolomitic essential mineral.Rhombspar can be used as the flux, slag former, cement raw material, glass flux, ceramic industry, fertilizer, architecture and decoration of basic refractory and blast furnace ironmaking with various uses such as stone material, paint, sterilant and medicine; The part rhombspar can extract the raw material of magnesium, and the raw material of producing glass and pottery.Can be used for building materials, pottery, glass and refractory materials, chemical industry and agricultural, environmental protection, field such as energy-conservation.

Distributed in nature situation: distribute wide and be easy to obtain at occurring in nature.Chinese white marble aboundresources, best in quality, China is one of dolomite mineral resource-rich country in the world, mainly is distributed in Shandong, Henan, Hebei, Jiangsu, Jiangxi, Anhui, three provinces in the northeast of China or the like.

In sum, several kinds of main applications of China's rhombspar: (1) is modal to be flux slag former, cement raw material, the glass flux of basic refractory and blast furnace ironmaking.Such purposes obviously belongs to the low value-added product of high energy consumption, and value of exploiting and utilizing is very low.(2) the part rhombspar can extract the raw material of magnesium, and the raw material of producing traditional glass and pottery.(3) moreover be exactly to be applied on the agricultural, especially on the acid soil, replenish the absorption loss of plant calcium and magnesium, improve the soil and improve the attraction utilization of plant the soil acidity material.Though rhombspar is abundant in the occurring in nature standing stock, wide amount is rich, is Nonrenewable resources after all, when Application and Development, gets the shortest operation, and the simple method of most probable with low-cost, high quality, improves the market competitiveness.The rhombspar of horn of plenty of the present invention makes full use of its industrial value of lifting a practicable method is provided.

, multicellular glass and crystallite foam heat-insulating board

Multicellular glass is also claimed sintered glass; Be to be rich in the base-material of glassy phase material with cullet, mica, flyash, perlite etc.; Add an amount of whipping agent, properties-correcting agent and pulverize mixing, in particular mold, have a large amount of evenly porous materials of pores through a kind of inside that preheating, fusion, foaming, cooling, annealing etc. are processed.The multicellular glass production application; Part has solved domestic refuse such as cullet, flyash and industrial residue rationally utilizes problem; A kind of light material of excellent performance is provided for the construction work industry simultaneously; Slow down environmental pollution to a certain extent, played the effect of environmental protection, had the environmental protection building material of good social effect and economic benefit.

The development of China's multicellular glass is than later, and up to the 80's, more domestic scientific and technical personnel bring into use cullet Development and Production multicellular glass; And obtain certain achievement; In this 30 years development process, Chinese development with developed multiple foam glass product, but the multicellular glass ubiquity quality problems such as physical strength is low, thermal-shock resistance difference on the whole; Big limitations its widespread use on building decoration and heat insulating; Cause domestic Foam Glass Industry Development slow, strengthen the scientific research investment dynamics, further improve the physicochemical property of foam glass product; Expanding its range of application, is to demand urgently at present dealing with problems and the trend of researching and developing from now on.

Multicellular glass is widely used abroad already, and has brought into play positive effect in a lot of fields, especially on construction industry.In Europe, area such as U.S.A, day and national multicellular glass is by mass production and widespread use; Wherein glass industry developed countries such as the U.S., Russia, Britain, Hungary, France, Czech, Japan, Germany have become the main production of multicellular glass, consumption, big export country; These countries have accumulated many experiences and technological achievement in the multicellular glass research and development are produced, and production technique is also constantly being improved and development.In recent decades, countries in the world have been developed colored acoustic foams glass, lamination multicellular glass, heat resistanceheat resistant radiation multicellular glass, building heat preservation multicellular glass or the like again.Though domestic production multicellular glass is main raw material with industrial cullet generally; Cost is lower; Be beneficial to environment protection; But because the shortcoming of low, the thermal-shock resistance difference of physical strength is limited to it as multifunctional material and materials for wall popularization and application, simultaneously also for the scientific and technical personnel that will be correlated with from now on clear and definite direction.

Multicellular glass and sytull have premium properties separately; A kind of New Building Materials of both advantages are the crystallite foam heat-insulating boards, and the crystallite foam heat-insulating board is that a kind of its inside has glassy phase, crystal mutually and be uniformly distributed with complex phase solid material such as a large amount of micro-bubble bodies.

The crystallite foam heat-insulating board is a kind of new green environment protection type materials for wall; It is a kind of countless small even connections or sealing pore and have ad hoc structure shape crystal lightweight, HS complex phase solid material mutually of in vitreum, being covered with; Its characteristic density is little, intensity is high, thermal conductivity is little, fire prevention, nontoxic, do not have radioactivity, corrosion-resistant, can process etc., have premium propertiess such as insulation, heat insulation, sound absorption, protection against the tide, fire prevention.Relatively tradition has character such as in light weight, HS, heat-insulation and heat-preservation, sound-absorbing noise control with brick, belongs to the environmental protection and energy saving material, improves structural quality greatly, alleviates deadweight, reduces the building foundation cost, is a kind of present ideal equivalent material of knowing.

The crystallite foam heat-insulating board is a kind of insulation of superior performance, heat insulation, sound absorption, protection against the tide, fire prevention, the high-strength novel environmental-friendly construction material of light weight; Good physicochemical properties such as it has the physical strength height, thermal conductivity is little, thermal property is stable, anti-combustion, indeformable, durable, heatproof, anti-rotten, anti-oxidant, acid and alkali-resistance, nontoxic, "dead", easy processing; With its weather resistance, security, safety, good chemicalstability; In the fields such as, high temperature insulating moistureproof, heat-resisting, freeze proof, low temperature insulation, moistureproof engineering, sound-absorbing engineering at energy-saving heat preserving, sound absorption noise control, corrosion resistant in occupation of more and more important position; And it is as a kind of new construction material; With multi-functionals such as energy-saving and environmental protection, safety, decorations simultaneously and deposit; Belong to country and advocate the industry of encouraging and supporting, have the vast market development prospect.

The crystallite foam heat-insulating board adopts the production technology of cleaning, does not produce pollutent in the production process, and firing temperature is low; Energy consumption is low; Production efficiency is high, and can utilize the broken waste material of mineral products as producing desired raw material in a large number, turns waste into wealth; Save natural resources, believe that the crystallite foam glass plate will can be widely used in all respects in people's daily life with the ecological, environmental protective theory of its unique superior physicochemical property and " safety, healthy, health ".

Summary of the invention:

A kind of purpose of utilizing rhombspar to produce the method for crystallite foam heat-insulating board of the present invention; To the problems referred to above a kind of method of utilizing rhombspar to produce the crystallite foam heat-insulating board is provided exactly; Utilize domestic a large amount of rhombspar as main raw material; Be equipped with silica sand, add the part auxiliary material, utilize Al ₂O ₃-CaO-MgO-SiO ₂Crystalline phase figure according to specific prescription, mixes several kinds of raw material weighing; Drop into equably continuously after stirring in the fusing kiln, flow out the glass metal stock column from fusing kiln discharge port and directly become particle frit material with the cold water shrend, utilize drying line to dry particle frit material after; Be ground into the material powder of 30～200 order fineness with disintegrating apparatus; Add quantitative whipping agent then, in mixing machine, mix, utilize the compression moulding in mould of easy pressing device; Together put into the crystallization kiln together with mould and carry out the processing of rapid crystallization foaming heat by certain temperature schedule; The product that comes out after the demoulding is crystallite foam heat-insulating board blank flat, carries out the grinding and polishing cutting process then, is the crystallite foam heat-insulating board.It selects rhombspar for use is main raw material, can use no or little MOX, and its product colour can add tinting material adjustment as required; This kind suitability for industrialized production reduces temperature of fusion greatly; Reduce crystallization and blowing temperature, shorten crystallization and foamed heat insulating time, raise labour productivity; Save the energy, and then reduce product cost significantly.

A kind of method of utilizing rhombspar to produce the crystallite foam heat-insulating board of the present invention; Utilize resourceful rhombspar; After simple the pulverizing is main raw material; Be equipped with silica sand, auxiliary material mainly contains commercial alumina, Paris white, fusing assistant calcined soda for industry, industrial borax, industrial zinc oxide, tinting material, oxygenant, finings etc., these auxiliary materials reasonably arrange in pairs or groups use for producing the crystallite foam heat-insulating board very favourable; Especially the selection of tinting material is used with an amount of, can produce serial color crystallite foam heat-insulating boards such as white, beautiful cyan, green, blueness, grey, yellow, black.

A kind of method of utilizing rhombspar to produce the crystallite foam heat-insulating board of the present invention, its prescription and production technique comprise the following steps:

1. mixing raw material: the following granularity of raw material, weight percent are mixed by special formulation, puddle evenly:

Quartz sand size 0.1～0.7mm 40～55%

Rhombspar granularity 0.1～2.2mm 15～30%

Lime carbonate granularity 0.1～2.2mm 8～20%

Calcined soda for industry 3.5～10%

Commercial alumina 3.0～8%

Industrial borax 0～5.5%

Industrial potassium titanate 3.5～8.5%

Industry zinc oxide 0～6.5%

Finings 0～1%

Oxygenant 0～2.5%

Tinting material 0～10%

Wherein said tinting material comprises Cr ₂O ₃, CoO, CuO, nickel oxide, nickel protoxide, red stone, manganese oxide, cadmium red, cadmium yellow, selenium powder or the like have the raw material of coloring effect to micro-crystal board material;

2. high temperature melting: above-mentioned mixing raw material is put into glass furnace be fused into glass metal, 1420～1550 ℃ of temperature of fusion;

3. shrend: glass metal is flowed in the tank, and shrend becomes the particulate material of diameter 0～6 mm;

4. oven dry is pulverized: above-mentioned particulate material is dried with drying plant, be ground into fineness 30～200 powder materials with disintegrating apparatus then;

5. mix: above-mentioned powder is directly sent in the mixing equipment and added certain amount of foaming agent, mix, for use;

6. crystallization and foaming heat are handled: will the above-mentioned powder that mixes pack in the mould, put into crystallization foaming kiln and carry out crystallization and foaming heat processing, 750～1050 ℃ of crystallization and blowing temperatures, crystallization and foamed heat insulating time 10～60 minutes;

7. annealing kiln discharge: directly annealing in the crystallization foaming kiln is annealed to 150～200 ℃ of temperature, 3～10 hours time, kiln discharge cooling;

8. the demoulding: is the work in-process in the mould that crystallite foam heat-insulating board blank takes out, and places crystallite foam heat-insulating board blank zone, to be processed;

9. process and packing: crystallite foam heat-insulating board blank is cut mill, thrown and cut processing treatment, be packaged as finished product, for sale.

A kind of method of utilizing rhombspar to produce the crystallite foam heat-insulating board of the present invention, its production technique divide four to go on foot greatly: the first step is produced qualified crystallite frit material; Add quantitative whipping agent in the powder after the second step oven dry is pulverized and mix; The 3rd step crystallization foaming kiln is pressed the specified temp system, the controlled crystallization and the crystallite foam heat-insulating board that foams out; The 4th step was mill cutting process and packing.The first step is exactly after mixing the raw material stirring of specific composition, through handling equipment and feeding equipment, continuously evenly to drop in the melt tank furnace, and the glass metal stock column that comes out is quenched into particulate material with cold water; Second step was exactly to utilize disintegrating apparatus these particulate material oven dry and having dried the microcrystal grain material, processed fineness 30～200 purpose crystallite material powder, directly sent into then to add quantitative whipping agent in the mixing machine and mix; The 3rd step was put into mould and compacting evenly according to after producing the product thickness weighing, put into crystallization foaming kiln and handled by specified temp system crystallization foaming heat, and thermal treatment finishes, and the demoulding obtains crystallite foam heat-insulating board blank; The 4th step was carried out processing treatment such as mechanical grinding and polishing, cutting to crystallite foam heat-insulating board blank, through the product that is up to the standards, was crystallite foam heat-insulating board finished product after the packing.This production technology characteristic is: the one, and the production of crystallite frit; The 2nd, flouring technology; The 3rd, add whipping agent and mix and adorn mould, this step has determined quality product and specification, influences product percent of pass, requires the powder of dress mould necessarily even; The 4th, controlled crystallization and foaming heat are handled; Promptly through specific temperature schedule control microcrystal size, gas release and size thereof; And then determined crystallite foam heat-insulating board performance; Be a most key step, adopt rapid sintering technique, very different with common entire body micro-crystal board material and regular foam glass; The 5th, the grinding and polishing cutting process because product weight is low weight, is convenient to transportation, relatively is suitable for the robotization production-lines.

Description of drawings:

Fig. 1 utilizes rhombspar to produce the method flow diagram of crystallite foam heat-insulating board for the present invention is a kind of.By raw material 1, mix to carry 2, fusing 3, shrend 4, oven dry 5, grinding 6, whipping agent 7, mix 8, weighing goes into that mould 9, crystallization and foaming heat handle 10, annealing 11, demoulding blank 12, cut mill 13, check 14, packing 15, finished product 16 and form.

Crystallite foam heat-insulating board with the inventive method production; Its internal structure is made up of glassy phase, crystal and pore three parts, and the structure principal crystalline phase is mainly β-wollastonite, diopside, and principal crystalline phase content accounts for 15～50%; Glassy phase, crystal phase and a large amount of small pore weave in; Improved the physical strength of material greatly, expanded regular foam glass applications limitation, the physical and chemical index of this kind crystallite foam heat-insulating board:

Unit weight: 820～1350 kg/m ³Water-intake rate: 3～22 vol%

Ultimate compression strength: 7～42 MPa folding strengths: 5～38 MPa

Heat resisting temperature: 450～820 ℃ of thermal conductivitys: 0.1～0.5 W/mk

A kind of method of utilizing rhombspar to produce the crystallite foam heat-insulating board of the present invention is utilized resourceful rhombspar, after simple the pulverizing, is main raw material; Be equipped with silica sand, reduce raw materials cost greatly, micritization and foaming process carry out simultaneously; Directly get into annealing process then, but continuous production, thus enhance productivity; Output improves, and saves the energy, improves the business economic benefit.

Embodiment

are done below in conjunction with embodiment and are further described.

Embodiment one

Silica sand 48% rhombspar 20% commercial alumina 5.5%

Industrial potassium titanate 3.5% calcined soda for industry 5% industrial zinc oxide 1.4%

Industrial borax 2.6% oxygenant 0% finings 0.0%

Lime carbonate 14% tinting material 0%

Above-mentioned raw materials mixed puddle evenly, put into 1480 ℃ of temperature of smelting furnace warp and be fused into glass metal, become the particulate material below 6 mm through shrend again; After the drying plant oven dry, directly be ground into fineness 50 order crystallite powders, send in the mixing equipment then; And the adding certain amount of foaming agent, mix the dress mould of weighing; Put into crystallization foaming kiln internal heating to 960 and ℃ carry out controlled micritization and handle with foaming heat, 40 minutes crystallization foamed heat insulating time, directly annealing is slow then cools off; Be cooled to 150 ℃, 9.5 hours time, kiln discharge is after the demoulding, grinding and polishing, cutting obtain the white micro-crystals foam heat-insulating board.

Embodiment two

Silica sand 44% rhombspar 19.6% commercial alumina 5.0%

Industrial potassium titanate 7.1% calcined soda for industry 6.4% industrial zinc oxide 0%

Industrial borax 3.0% oxygenant 1.5% finings 0.4%

Lime carbonate 13% tinting material 0%

Above-mentioned raw materials mixed puddle evenly, put into 1500 ℃ of temperature of smelting furnace warp and be fused into glass metal, become the particulate material below 6 mm through shrend again; After the drying plant oven dry, directly be ground into fineness 100 order crystallite powders, send in the mixing equipment then; And the adding certain amount of foaming agent, mix the dress mould of weighing; Put into crystallization foaming kiln internal heating to 940 and ℃ carry out controlled micritization and handle with foaming heat, 30 minutes crystallization foamed heat insulating time, directly annealing is slow then cools off; Be cooled to 180 ℃, 9 hours time, kiln discharge is after the demoulding, grinding and polishing, cutting obtain beautiful white micro-crystals foam heat-insulating board.

Embodiment three

Silica sand 46% rhombspar 24.7% commercial alumina 4.0%

Industrial potassium titanate 4.6% calcined soda for industry 5.0% industrial zinc oxide 0%

Industrial borax 3.3% oxygenant 0% finings 0.4%

Lime carbonate 11.5% composite coloration agent 0.5%

Above-mentioned raw materials mixed puddle evenly, put into 1440 ℃ of temperature of smelting furnace warp and be fused into glass metal, become the particulate material below 6 mm through shrend again; After the drying plant oven dry, directly be ground into fineness 180 order crystallite powders, send in the mixing equipment then; And the adding certain amount of foaming agent, mix the dress mould of weighing; Put into crystallization foaming kiln internal heating to 850 and ℃ carry out controlled micritization and handle with foaming heat, 25 minutes crystallization foamed heat insulating time, directly annealing is slow then cools off; Be cooled to 160 ℃, 7.5 hours time, kiln discharge is after the demoulding, grinding and polishing, cutting obtain light grey crystallite foam heat-insulating board.

Claims (4)

1. a method of utilizing rhombspar to produce the crystallite foam heat-insulating board is characterized in that comprising the following steps:

Mixing raw material: the following granularity of raw material, weight percent are mixed by special formulation, puddle evenly:

Quartz sand size 0.1～0.7mm 40～55%

Rhombspar granularity 0.1～2.2mm 15～30%

Lime carbonate granularity 0.1～2.2mm 8～20%

Calcined soda for industry 3.5～10%

Commercial alumina 3.0～8%

Industrial borax 0～5.5%

Industrial potassium titanate 3.5～8.5%

Industry zinc oxide 0～6.5%

Finings 0～1%

Oxygenant 0～2.5%

Tinting material 0～10%

Wherein said tinting material comprises Cr ₂O ₃, CoO, CuO, nickel oxide, nickel protoxide, red stone, manganese oxide, cadmium red, cadmium yellow, selenium powder or the like have the raw material of coloring effect to micro-crystal board material;

(2). high temperature melting: above-mentioned mixing raw material is put into smelting furnace be fused into glass metal, 1420～1550 ℃ of temperature of fusion;

(3). shrend: glass metal is flowed in the tank, and shrend becomes the particulate material of diameter 0～6 mm;

Oven dry is pulverized: above-mentioned particulate material is dried with drying plant, be ground into fineness 30～200 powder materials with disintegrating apparatus then;

Mix: above-mentioned powder is directly sent in the mixing equipment and added certain amount of foaming agent, mix, for use;

(6). crystallization and foaming heat are handled: will the above-mentioned powder that mixes pack in the mould, put into crystallization foaming kiln and carry out crystallization and foaming heat processing, 750～1050 ℃ of crystallization and blowing temperatures, crystallization and foamed heat insulating time 10～60 minutes;

(7). the annealing kiln discharge: directly annealing in the crystallization foaming kiln is annealed to 150～200 ℃ of temperature, 3～10 hours time, kiln discharge cooling;

(8). the demoulding: is the work in-process in the mould that crystallite foam heat-insulating board blank takes out, and places crystallite foam heat-insulating board blank zone, to be processed;

(9). processing, check and packing: crystallite foam heat-insulating board blank is cut mill, thrown and cut processing treatment,, be packaged as finished product through after the assay was approved, for sale.

2. a kind of method of utilizing rhombspar to produce the crystallite foam heat-insulating board according to claim 1; It is characterized in that the selection of whipping agent; The blowing temperature of whipping agent is consistent with the micritization heat treatment process of crystallite powder with gas release, when forming a large amount of microcrystals, also is that whipping agent forms the ideal suitable condition that enriches small even bubble.

3. a kind of method of utilizing rhombspar to produce the crystallite foam heat-insulating board according to claim 1, it is characterized in that its production technique divided for four steps greatly: the first step is produced qualified crystallite frit material; Add quantitative whipping agent in the powder after the second step oven dry is pulverized and mix; The 3rd step crystallization foaming kiln is pressed the specified temp system, the controlled crystallization and the crystallite foam heat-insulating board that foams out; The 4th step was mill cutting process and packing; The first step is exactly after mixing the raw material stirring of specific composition, through handling equipment and feeding equipment, continuously evenly to drop in the melt tank furnace, and the glass metal stock column that comes out is quenched into particulate material with cold water; Second step was exactly to utilize disintegrating apparatus these particulate material oven dry and having dried the microcrystal grain material, processed fineness 30～200 purpose crystallite material powder, directly sent into then to add quantitative whipping agent in the mixing machine and mix; The 3rd step was put into mould and compacting evenly according to after producing the product thickness weighing, put into crystallization foaming kiln and handled by specified temp system crystallization foaming heat, and thermal treatment finishes, and the demoulding obtains crystallite foam heat-insulating board blank; The 4th step was carried out processing treatment such as mechanical grinding and polishing, cutting to crystallite foam heat-insulating board blank, through the product that is up to the standards, was crystallite foam heat-insulating board finished product after the packing; This production technology characteristic is: the one, and the production of crystallite frit; The 2nd, flouring technology; The 3rd, add whipping agent and mix and adorn mould, this step has determined quality product and specification, influences product percent of pass, requires the powder of dress mould necessarily even; The 4th, controlled crystallization and foaming heat are handled; Promptly through specific temperature schedule control microcrystal size, gas release and size thereof; And then determined crystallite foam heat-insulating board performance; Be a most key step, adopt rapid sintering technique, very different with common entire body micro-crystal board material and regular foam glass; The 5th, the grinding and polishing cutting process because product weight is low weight, is convenient to transportation, relatively is suitable for the robotization production-lines.

4. a kind of method of utilizing rhombspar to produce the crystallite foam heat-insulating board according to claim 1, it is characterized in that its Production Flow Chart by raw material 1, mix carry 2, fusing 3, shrend 4, oven dry 5, grinding 6, whipping agent 7, mix 8, weighing goes into that mould 9, crystallization and foaming heat handle 10, annealing 11, demoulding blank 12, cut mill 13, check 14, packing 15, finished product 16 and form; With the crystallite foam heat-insulating board that the inventive method is produced, its internal structure is made up of glassy phase, crystal and pore three parts, and the structure principal crystalline phase is mainly β-wollastonite, diopside, its physical and chemical index:

Unit weight: 820～1350 kg/m ³Water-intake rate: 3～22 vol%

Ultimate compression strength: 7～42 MPa folding strengths: 5～38 MPa

Heat resisting temperature: 450～820 ℃ of thermal conductivitys: 0.1～0.5 W/mk.