CN1424280A - Light refractory bricks - Google Patents

Light refractory bricks Download PDF

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CN1424280A
CN1424280A CN 03100439 CN03100439A CN1424280A CN 1424280 A CN1424280 A CN 1424280A CN 03100439 CN03100439 CN 03100439 CN 03100439 A CN03100439 A CN 03100439A CN 1424280 A CN1424280 A CN 1424280A
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CN1208279C (en
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倪文
李建平
陈德平
刘凤梅
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University of Science and Technology Beijing USTB
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University of Science and Technology Beijing USTB
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Abstract

A light-weight refractory brick used for liner of high-temp furnace is prepared from mullite as primary crystal phase, huronite as binding phase, disthene and coal gangue. Its main chemical components are Al2O3 (54-57 wt.%), SiO2 (40-43), CaO (1-2), Fe2O3 (0.1-1) and impurities (0.1-0.7). Its advantages are light weight, low heat conductivity and volume density, and high strength.

Description

A kind of light fire brick
Technical field:
The invention belongs to fire resisting material field, the high-quality refractory material that particularly a kind of low thermal conductivity, long-life high temperature furnace lining are used.
Background technology:
Because energy-conservation needs, the lighting of various inner lining of kiln is more and more paid attention to by industry member.Though the aluminosilicate-type refractory fibre of large usage quantity is confirmed aspect saving energy in kiln fully at present, has the deadly defect of three aspects.At first be that price is too expensive, up to 5~60,000 yuan, contain the zirconium fiber and contain chromium fiber 2~3 power units per ton as polycrystalline mullite fibre price per ton; The secondth, the heat-resistant limit of refractory fibre life-time service is many below 1200 ℃.Though polycrystalline mullite fibre can be 1300~1400 ℃ of uses, too Ang Gui cost is hung back most of users.When refractory fibre uses under ultimate temperature in addition work-ing life very short, generally have only 1/2~1/5 of refractory brick; The 3rd, the aluminosilicate-type refractory fibre has carcinogenic possibility to respiratory system, and the European Community has classified aluminosilicate refractory fiber as two class carcinogenic substances.Therefore be that more external big refractory materials manufacturers and domestic many refractory factories of representative have all been developed the refractory lining of various light fire bricks as kiln with Britain J. P. Morgan ﹠ Co..The light fire brick of Britain J. P. Morgan ﹠ Co. can be divided into three series by the composition of principal crystalline phase:
(1) corundum-mullite light fire brick
Principal crystalline phase is a mullite, and paracrystalline phase is a corundum, and maximum operation (service) temperature is from 1650 ℃ to 1760 ℃, and volume density is minimum to be 1.02g/cm 3~1.25g/cm 3, thermal conductivity (800 ℃) is 0.44~0.51W/mK.
(2) mullite light fire brick
Principal crystalline phase is a mullite, and other crystalline phase almost can not detect with instrument.Maximum operation (service) temperature is from 1430 ℃ to 1540 ℃, and volume density is minimum to be 0.78g/cm 3~0.88g/cm 3, thermal conductivity (800 ℃) is 0.31~0.36W/mK.
(3) lime feldspar series light fire brick
Principal crystalline phase is a lime feldspar, and other crystalline phase almost can not detect with instrument.Maximum operation (service) temperature is from 1100 ℃ to 1260 ℃, and volume density is minimum to be 0.45g/cm 3~0.48g/cm 3, thermal conductivity (800 ℃) is 0.17~0.18W/mK.
Wherein (1), (2) though two serial light fire bricks have higher use temperature, thermal conductivity is higher than aluminum silicate fiber liner (0.14~0.16W/mK, 800 ℃) far away.Though the 3rd serial light fire brick thermal conductivity be near aluminum silicate fiber, because intensity is lower, use temperature is lower, is 1200 ℃~1350 ℃ inner lining of kiln and can not be used for the long term operation temperature.And its use temperature of most of kilns of using in industry is all in this scope.In fact low volume density, low thermal conductivity, low cost and the eco-friendly kiln refractory lining material that therefore can be applied to this temperature are in the vacancy state.
Summary of the invention:
The present invention seeks to keep the refractory fibre thermal conductivity to hang down and the two-fold advantage of light fire brick long service life, overcome the harmful shortcoming of refractory fibre, overcome the shortcoming that the lime feldspar fire brick series can not directly use as inner lining of kiln simultaneously.
A kind of light fire brick is characterized in that the present invention adopts mullite as principal crystalline phase, and the lime feldspar conduct is in conjunction with phase, and its main chemical compositions is: Al 2O 354.0~57.0wt.%, SiO 240.0~43.0wt.%, CaO1.0~2.0wt.%, Fe 2O 30.1~1.0wt.%, other foreign matter content are 0.1~0.7wt.%.Core concept:
Lime feldspar has that thermal conductivity is low, thermal expansivity is little, density is little and the characteristics of easy-sintering, but its fusing point lower (1550 ℃).When foreign ion existed, the fusing point of lime feldspar goods was just lower, therefore was that the light fire brick of principal crystalline phase has that volume density is little, thermal conductivity is low, specific heat capacity is low and the good thermal shock characteristics with the lime feldspar.But because the lime feldspar non-refractory, thereby its maximum operation (service) temperature has only 1260 ℃.All there is this product output in the Britain BNZ company that root (Morgen) company, German Gauss rein in (Gossler) company and the U.S. that rubs.This product is because use temperature and intensity are all lower, can only be as the thermofin of kiln, and can not use as direct refractory lining.
The fusing point of mullite is 1850 ℃~1910 ℃, therefore is that the refractory materials of principal crystalline phase all has higher use temperature with the mullite.But owing to be subjected to the restriction of existing material choice collocation and traditional processing technology, be that the light fire brick of principal crystalline phase all can not be made the very low product of volume density with the mullite, its thermal conductivity is also higher.Its lowest volume density of JM26 product as domestic and international large usage quantity is 0.78g/cm 3, minimum thermal conductivity (800 ℃) is 0.31W/mK.Be applied to inner lining of kiln and can not obtain the ideal energy-saving effect, can not replace the carcinogenic refractory fibre of possibility fully.
Being of core concept of the present invention combines the two premium properties of lime feldspar and mullite, promptly keep the low thermal conductivity of lime feldspar light fire brick and the advantage of low volume density, its intensity and use temperature are significantly improved, thereby can be used for the direct refractory lining that contacts with flame, reach the purpose of the carcinogenic aluminosilicate refractory fiber class refractory lining of replacement possibility.
Lime feldspar in conjunction with mullite light fire brick production technique as shown in Figure 1.
In raw material shown in Figure 1, the fineness of all raw materials all will conform to the requirement of 0.088mm square hole sieve surplus≤5.0%.The add-on of each raw material and specification of quality are as follows during batching: the calcining coal gangue add-on is 1~40wt.%, requires Al 2O 3Content is 43.0~48.0wt.%, Fe 2O 3Content is 0.1~1.0wt.%; Remove bauxite add-on 1~30wt.%, require Al 2O 3Content is 70.0~80.0wt.%, Fe 2O 3Content is 0.1~1.0wt.%; Kyanite add-on 20~80wt.% requires Al 2O 3Content is 52.0~57.0wt.%, Fe 2O 3Content is 0.1~0.8wt.%; Kaolinite clay add-on 3.0~7.0wt.% requires Al 2O 3Content is 35.0~38.0wt.%, Fe 2O 3Content is 0.1~1.0wt.%, and CaO+MgO content is 0.1~0.4wt.%, Na 2O+K 2O content is 0.1~0.8wt.%; Montmorillonitic clay add-on 3.0~7.0wt.% requires Al 2O 3Content is 18.0~24.0wt.%, Fe 2O 3Content is 0.1~1.0wt.%, and CaO+MgO content is 0.1~2.5wt.%, Na 2O+K 2O content is 0.1~1.5wt.%; Pure calcium aluminate cement add-on 5.0~15.0wt.% requires Al 2O 3Content is 68.0~76.0wt.%, Fe 2O 3Content is 0.1~0.7wt.%, and CaO content is 23.0~33.0wt.%; White cement can replace pure calcium aluminate cement, but the two can not use with, and white cement add-on 5.0~10.0wt.% requires SiO 2Content is 18.0~25.0wt.%, Fe 2O 3Content is 0.1~0.7wt.%, and CaO content is 72.0~77.0wt.%.
Maintaining process shown in Figure 1 is to leave standstill 12~24 hours in 10 ℃~40 ℃ air.The temperature of oven dry is controlled at below 150 ℃, and wherein preceding 10 hours temperature is controlled at below 100 ℃, and at the uniform velocity heats up.It is 5~15 hours that base substrate remains on time of 100 ℃~150 ℃.Temperature-fall period can be lowered the temperature naturally with the structure and the operating method of drying kiln, does not need to carry out cooling rate control.Hong Gan base substrate water ratio is controlled at below the 3.0wt.% at last.Calcining process can adopt any combustion gas, fuel oil kiln or electric heating kiln.The time that is raised to 1400 ℃ from room temperature is 8~20 hours, can at the uniform velocity heat up, and adobe needs 1400 ℃ of insulations 5~15 hours, and the large size adobe should be adopted the lower limit of heat-up rate and the upper limit of soaking time.Temperature-fall period can be lowered the temperature naturally with kiln, but should not be less than 10 hours, and the local temperature difference of piling up adobe in the kiln should be less than ± 10 ℃.
The preparation of rosined soap shown in Fig. 1 should be according to the discrepancy adjustment NaOH/ rosiny ratio of the different places of production and different batches rosin character.Optimum value should be 0.12~0.14 generally speaking.Use water rinse after the made rosin liquid drying, remove unnecessary NaOH.
After rosined soap after the rinsing dried again, add in the entry and be heated to 20~80 ℃ with gelatine, it is standby to be prepared into dense whipping agent.Wherein the weight ratio of gelatine/rosined soap is 1.00~1.05.Institute's water consumption is 5~10 times of rosined soap+gelatine weight.Zhi Bei dense whipping agent also needs the water with 5~10 times to dilute before the whisking machine of packing into is got blisters as stated above.Prepared dense whipping agent is no more than 24 hours in the shelf-time in summer, in winter, spring, be no more than 48 hours when deposit autumn.Beneficial effect of the present invention:
Product of the present invention is with close product J M20 in world market and JM23 performance comparison are as shown in table 1 at present.
Two kinds of product performance contrasts of table 1 product of the present invention (AM) and JM series
Product Maximum operation (service) temperature (℃) Volume density (g/cm 3) Strength at normal temperature (MPa) Normal temperature ultimate compression strength (MPa) Reheating linear change rate on reheating (%) (maximum operation (service) temperature-30 ℃ insulation 24 hours)
?AM24A ????1350 ??≤0.40 ????≥1.20 ????≥0.90 ????≤0.20
?AM24B ????1350 ??≤0.50 ????≥1.50 ????≥1.10 ????≤0.20
?JM20 ????1100 ??≤0.45 ????≥0.80 ????≥0.70 ????≤0.20
?JM23 ????1260 ??≤0.48 ????≥1.10 ????≥0.90 ????≤0.20
From the correlation data of table 1 as can be seen, the use temperature of product of the present invention exceeds 250 ℃ and 90 ℃ respectively than JM20 and JM23, and intensity improves about 30%.From principal crystalline phase, JM20 and JM23 are to be principal crystalline phase with the lime feldspar, and the present invention then is to be principal crystalline phase with the mullite, so use temperature and intensity all increases, thereby can be directly used in the liner of kiln.The present invention can also prepare more high-intensity goods.As the volume density when goods is 1.0g/cm 3The time its ultimate compression strength can reach 10.0~15.0Mpa, folding strength can reach 3.5~5.0Mpa, the thermal conductivity during 800 ℃ in this goods is 0.30W/mK, maximum operation (service) temperature is 1400 ℃.
Beneficial effect of the present invention also is to use in a large number the abundant kyanite of China's reserves.Generally speaking, the kyanite volume in the refractory materials is not more than 20wt.%, and the present invention can use the kyanite up to 70wt.%, thereby opens up a new way for the high value added utilization of these mineral products.
In addition, the present invention can also use the calcining coal gangue (low iron) up to 40wt.%, and comprehensive utilization and Sustainable development are had certain meaning.
Starting material of the present invention can have bigger alternative according to the practical situation of China different areas, therefore help reducing production costs.
Description of drawings: Fig. 1 is that lime feldspar is in conjunction with mullite light fire brick technological process of production figure
Embodiment:
Embodiment 1
By shown in Figure 1, get calcining and levigate after colliery powder 31wt.%, kyanite 30wt.%, pure calcium aluminate cement 10wt.% removes red bauxite 19wt.%, kaolinite clay 5wt.%, montmorillonitic clay 5wt.%, the back that is mixed in mixer adds the sodium citrate aqueous solution that accounts for amount of solid 35%.The concentration of sodium citrate aqueous solution is 0.5wt.%.And blend together uniform mud.Be that to prepare rosined soap and rosined soap/gelatine be that 1.2 ratio prepares foaming liquid for 0.13 ratio in NaOH/ rosin before this.In stirred slurry, foaming liquid packed into and get blisters in the whisking machine.Need to grasp when mud stirs, whisking machine can be supplied the foam of capacity.Then mud is mixed with foam.How many lime feldspars is in conjunction with volume density the controlling by the adding foam volume of mullite light fire brick.The volume density of goods is 0.48g/cm in the present embodiment 3, the foamy add-on is 18 times of mud volume.
Above-mentioned mud and foams mix evenly after maintenance, oven dry, the calcining, are obtained finished product through cutting mill processing by the goods desired shape corresponding mould of packing in the back.The main performance index of resulting product is as follows:
Maximum operation (service) temperature (℃) 1350
Volume density (g/cm 3) 0.48
Cold conditions ultimate compression strength (MPa) 2.6
Cold conditions folding strength (MPa) 1.3
Heavily burn line and change 1320 ℃ * 24hrs (%)-0.14
Thermal conductivity (W/mK)
400℃???????????????????????????????????0.135
600℃???????????????????????????????????0.146
800℃???????????????????????????????????0.168
1000℃??????????????????????????????????0.192
Embodiment 2
By shown in Figure 1, get kyanite 70wt.%, pure calcium aluminate cement 12wt.% removes red bauxite 3wt.%, kaolinite clay 4wt.%, montmorillonitic clay 6wt.%, the back that is mixed in mixer adds the sodium citrate aqueous solution that accounts for amount of solid 37wt.%.The concentration of sodium citrate aqueous solution is 0.5wt.%.Then solution is become uniform mud with the solid powder mixed together.Be that to prepare rosined soap and rosined soap/gelatine be that 1.2 ratio prepares foaming liquid for 0.13 ratio in NaOH/ rosin before this.In stirred slurry, foaming liquid packed into and get blisters in the whisking machine.Need to grasp when mud stirs, whisking machine can be supplied the foam of capacity.Then mud is mixed with foam.How many lime feldspars is in conjunction with volume density the controlling by the adding foam volume of mullite light fire brick.The volume density of goods is 0.4g/cm in the present embodiment 3, the foamy add-on is 23 times of mud volume.
Above-mentioned mud and foams mix evenly after maintenance, oven dry and the calcining, are obtained finished product through cutting mill processing by the goods desired shape corresponding mould of packing in the back.The main performance index of resulting product is as follows: maximum operation (service) temperature (℃) 1350 volume density (g/cm 3) 0.40 cold conditions ultimate compression strength (MPa), 1.25 cold conditions folding strengths (MPa) 0.90 heavily burn line and change 1320 ℃ * 24hrs (%)-0.18 thermal conductivity (W/mK)
400℃?????????????????????????????0.092
600℃?????????????????????????????0.128
800℃?????????????????????????????0.165
1000℃????????????????????????????0.193

Claims (4)

1, a kind of light fire brick is characterized in that the present invention adopts mullite as principal crystalline phase, and the lime feldspar conduct is in conjunction with phase, and its main chemical compositions is: Al 2O 354.0~57.0wt.%, SiO 240.0~43.0wt.%, CaO1.0~2.0wt.%, Fe 2O 30.1~1.0wt.%, other foreign matter content are 0.1~0.7wt.%.
2, light fire brick as claimed in claim 1, it is characterized in that the fineness of all raw materials all will conform to the requirement of 0.088mm square hole sieve surplus≤5.0%, the add-on of each raw material and specification of quality are as follows during batching: the calcining coal gangue add-on is 1~40wt.%, requires Al 2O 3Content is 43.0~48.0wt.%, Fe 2O 3Content is 0.1~1.0wt.%; Remove bauxite add-on 1~30wt.%, require Al 2O 3Content is 70.0~80.0wt.%, Fe 2O 3Content is 0.1~1.0wt.%; Kyanite add-on 20~80wt.% requires Al 2O 3Content is 52.0~57.0wt.%, Fe 2O 3Content is 0.1~0.8wt.%; Kaolinite clay add-on 3.0~7.0wt.% requires Al 2O 3Content is 35.0~38.0wt.%, Fe 2O 3Content is 0.1~1.0wt.%, and CaO+MgO content is 0.1~0.4wt.%, Na 2O+K 2O content is 0.1~0.8wt.%; Montmorillonitic clay add-on 3.0~7.0wt.% requires Al 2O 3Content is 18.0~24.0wt.%, Fe 2O 3Content is 0.1~1.0wt.%, and CaO+MgO content is 0.1~2.5wt.%, Na 2O+K 2O content is 0.1~1.5wt.%; Pure calcium aluminate cement add-on 5.0~15.0wt.% requires Al 2O 3Content is 68.0~76.0wt.%, Fe 2O 3Content is 0.1~0.7wt.%, and CaO content is 23.0~33.0wt.%; White cement can replace pure calcium aluminate cement, but the two can not use with, and white cement add-on 5.0~10.0wt.% requires SiO 2Content is 18.0~25.0wt.%, Fe 2O 3Content is 0.1~0.7wt.%, and CaO content is 72.0~77.0wt.%.
3, light fire brick as claimed in claim 1 or 2 is characterized in that maintaining process is to leave standstill 12~24 hours in 10 ℃~40 ℃ air; The temperature of oven dry is controlled at below 150 ℃, and wherein preceding 10 hours temperature is controlled at below 100 ℃, and at the uniform velocity heats up; It is 5~15 hours that base substrate remains on time of 100 ℃~150 ℃, Hong Gan base substrate water ratio is controlled at below the 3.0wt.% at last, the time that is raised to 1400 ℃ from room temperature is 8~20 hours, can at the uniform velocity heat up, adobe needs 1400 ℃ of insulations 5~15 hours, and the large size adobe should be adopted the lower limit of heat-up rate and the upper limit of soaking time, and temperature-fall period can be lowered the temperature naturally with kiln, but should not be less than 10 hours, the local temperature difference of piling up adobe in the kiln should be less than ± 10 ℃.
4, as claim 1 or 2 or 3 described light fire bricks, it is characterized in that NaOH/ rosiny ratio in the preparation process of rosined soap, optimum value should be 0.12~0.14, uses water rinse after the made rosin liquid drying, removes unnecessary NaOH;
After rosined soap after the rinsing is dried again, add in the entry and be heated to 20~80 ℃ with gelatine, be prepared into dense whipping agent, wherein the weight ratio of gelatine/rosined soap is 1.00~1.05, institute's water consumption is 5~10 times of rosined soap+gelatine weight, and the dense whipping agent of preparation also needs the water with 5~10 times to dilute before the whisking machine of packing into is got blisters.
CN 03100439 2003-01-14 2003-01-14 Light refractory bricks Expired - Fee Related CN1208279C (en)

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Cited By (25)

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CN100546712C (en) * 2004-08-31 2009-10-07 奥图泰有限公司 The fluidized-bed reactor of thermal treatment of fluidizable substances in the fluid bed of heating using microwave
US7651547B2 (en) 2002-12-23 2010-01-26 Outotec Oyj Fluidized bed method and plant for the heat treatment of solids containing titanium
US7662351B2 (en) 2002-12-23 2010-02-16 Outotec Oyj Process and plant for producing metal oxide from metal compounds
US7854608B2 (en) 2002-12-23 2010-12-21 Outotec Oyj Method and apparatus for heat treatment in a fluidized bed
US7878156B2 (en) 2002-12-23 2011-02-01 Outotec Oyj Method and plant for the conveyance of fine-grained solids
CN102276242A (en) * 2011-07-05 2011-12-14 武汉科技大学 Mullite light bricks and preparation method thereof
CN102329144A (en) * 2011-09-29 2012-01-25 武汉科技大学 Preparation method of high-strength wear-resistant pouring material combined with ceramics
CN101544502B (en) * 2009-04-24 2012-03-21 武汉科技大学 Anorthite light weight refractory and preparation method thereof
CN101781120B (en) * 2010-01-25 2012-07-04 莱州明发隔热材料有限公司 Anorthite light-weight and heat insulation refractory material and preparation method thereof
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US8048380B2 (en) 2002-12-23 2011-11-01 Outotec Oyj Process and plant for producing metal oxide from metal compounds
US7662351B2 (en) 2002-12-23 2010-02-16 Outotec Oyj Process and plant for producing metal oxide from metal compounds
US7854608B2 (en) 2002-12-23 2010-12-21 Outotec Oyj Method and apparatus for heat treatment in a fluidized bed
US7878156B2 (en) 2002-12-23 2011-02-01 Outotec Oyj Method and plant for the conveyance of fine-grained solids
US8021601B2 (en) 2002-12-23 2011-09-20 Outotec Oyj Plant for the heat treatment of solids containing titanium
US7651547B2 (en) 2002-12-23 2010-01-26 Outotec Oyj Fluidized bed method and plant for the heat treatment of solids containing titanium
CN100546712C (en) * 2004-08-31 2009-10-07 奥图泰有限公司 The fluidized-bed reactor of thermal treatment of fluidizable substances in the fluid bed of heating using microwave
CN101417888B (en) * 2008-11-10 2012-09-05 中国地质大学(北京) Porous light heat insulating refractory materials and preparation method thereof
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CN101544502B (en) * 2009-04-24 2012-03-21 武汉科技大学 Anorthite light weight refractory and preparation method thereof
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CN101781120B (en) * 2010-01-25 2012-07-04 莱州明发隔热材料有限公司 Anorthite light-weight and heat insulation refractory material and preparation method thereof
CN102276242A (en) * 2011-07-05 2011-12-14 武汉科技大学 Mullite light bricks and preparation method thereof
CN102329144A (en) * 2011-09-29 2012-01-25 武汉科技大学 Preparation method of high-strength wear-resistant pouring material combined with ceramics
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CN102826869A (en) * 2012-08-28 2012-12-19 东台市港泰耐火材料有限公司 Preparation method of foaming agent for use in burning of refractory brick
CN103951452A (en) * 2014-05-06 2014-07-30 郑州大学 Preparation method of microporous kyanite-based lightweight insulating refractory material
CN104086196A (en) * 2014-07-12 2014-10-08 瑞泰科技股份有限公司 Foam light-weight waste-reutilization refractory castable and manufacturing technique thereof
CN108002816A (en) * 2016-10-28 2018-05-08 河南智联寰宇知识产权运营有限公司 Anticorrosive refractory brick and preparation method thereof
CN107954691A (en) * 2017-10-30 2018-04-24 林龙 A kind of low cost heat-preserving sintered brick preparation method
CN108002811A (en) * 2017-10-30 2018-05-08 林龙 A kind of preparation method of light thermal-insulation compressed concrete building block brick
CN108002845A (en) * 2017-10-30 2018-05-08 林龙 A kind of preparation method of light thermal-insulation fired brick
CN108276022A (en) * 2018-01-11 2018-07-13 东台市港泰耐火材料有限公司 A kind of high-strength GM-28 grades of insulating fire bricks and preparation method thereof
CN108276022B (en) * 2018-01-11 2021-07-23 东台市港泰耐火材料有限公司 High-strength GM-28-grade heat-insulating refractory brick and preparation method thereof
CN112028610A (en) * 2020-09-18 2020-12-04 山东鲁阳浩特高技术纤维有限公司 Anorthite light refractory material not prone to cracking and preparation method thereof
CN112028609A (en) * 2020-09-18 2020-12-04 山东鲁阳浩特高技术纤维有限公司 Anorthite light refractory material prepared from waste materials and preparation method thereof
CN114195550A (en) * 2020-09-18 2022-03-18 山东鲁阳浩特高技术纤维有限公司 Anorthite refractory material with closed pore structure and preparation method thereof
CN113264751A (en) * 2021-05-24 2021-08-17 北京科技大学 Porous material using magnesium solid carbon product as raw material and preparation method thereof

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