CN106810222A - A kind of production method of fused quartz ceramic magnetic strength silicon steel furnace bottom roller high - Google Patents
A kind of production method of fused quartz ceramic magnetic strength silicon steel furnace bottom roller high Download PDFInfo
- Publication number
- CN106810222A CN106810222A CN201510842231.1A CN201510842231A CN106810222A CN 106810222 A CN106810222 A CN 106810222A CN 201510842231 A CN201510842231 A CN 201510842231A CN 106810222 A CN106810222 A CN 106810222A
- Authority
- CN
- China
- Prior art keywords
- fused quartz
- magnetic strength
- furnace bottom
- bottom roller
- quartz ceramic
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Pending
Links
Abstract
The invention discloses a kind of production method of fused quartz ceramic magnetic strength silicon steel furnace bottom roller high, the invention belongs to fused quartz ceramic field, composition of raw materials that the product uses is produced count by weight percentage:20-30 mesh vitreous silica silicon powder 35-40%, 60-70 mesh vitreous silica silicon powder 30-35%, 100-120 mesh vitreous silicas silicon powder 24%, boron carbide 4%, silicon nitride 1%, nanometre glue 0.40%, ammonium persulfate 0.20%, tetramethylethylenediamine 0.20%, polyethylene glycol 200 0.20%;The production method has the series of advantages such as few equipment of use, process is simple, pollution-free waste discharge, good product quality;Product fused quartz ceramic magnetic strength silicon steel furnace bottom roller high has excellent hot property, chemical stability and electrical insulation capability below 1200 DEG C, is used mainly as magnetic strength silicon steel stove transmission product high.
Description
Technical field
It is the invention belongs to fused quartz ceramic production field more particularly to a kind of to melt the method that silicon powder produces fused quartz ceramic magnetic strength silicon steel furnace bottom roller high as raw material.
Background technology
Fused quartz ceramic is a kind of with vitreous silica as raw material, and the fused silica material being made of ceramic production technology is characterized in:Thermal coefficient of expansion is small, heat endurance is good, electrical insulating property is good, chemerosiveness resistent is good;When quartz-ceramics biggest advantage is below l1O0 DEG C, its intensity increases with the rising of temperature, and during from room temperature to 1100 DEG C, its intensity can increase 30-33%, and at 1250 DEG C, product still can be used normally.The major product species of fused quartz ceramic is various, and the primary raw material that these products are used all is vitreous silica silicon powder, and difference is only granularity difference, auxiliary material difference, the shape of the product difference of silicon powder.The present invention is a kind of fused quartz ceramic magnetic strength silicon steel furnace bottom roller high, it is exclusively used in the transmission of magnetic strength silicon steel stove product high, the product requirement intensity is high, high temperature resistant, temperature in use are up to 1150 DEG C -1200 DEG C, must have have stable high-temperature performance that indeformable, thermal expansion is small, chemical stability is good, the smooth fine and smooth, wearability in surface it is good, the features such as not easy to wear by long-term use.The key technical problem that product of the present invention is intended to solve aborning has four, and one is the optimum proportioning of the granularity of fused quartz ceramic powder;Two is the influence of quartz-ceramics additives on sintering property of fused quartz ceramics, to improve the low-temperature sintering performance of fused silica ceramic material, tested from the plurality of raw materials of boric acid, boron carbide, silicon, carborundum, cerium oxide, yttria, silicon nitride etc. ten, as a result shown:Addition boric acid, boron carbide can increase the liquid phase growing amount in material at high temperature, accelerate the diffusion mass transfer of material, so as to be effectively facilitated the sintering of fused quartz ceramic, intensity of the silicon nitride to quartz-ceramics, bulk density and the sintering temperature for adding 0.75%-1.25% are improved;Three is the best of breed of auxiliary material, and the combination of auxiliary material will directly influence the conjugation of fused quartz ceramic powder particles, and to reducing space, the quality for improving product is most important, intends increasing boron carbide, the usage amount of silicon nitride in auxiliary material;Four is the determination of large-scale shuttle kiln sintering temperature and sintering time, current method is after sintering temperature slowly first is risen into 400 DEG C from 0 DEG C through the time of 2-3 hours, sintering temperature is quickly risen to 1150-1200 DEG C from 400 DEG C in 10 hours again, heating means are stopped after maintaining this temperature 6-10 hours.
The content of the invention
Present invention mainly solves problem be to provide a kind of production method of fused quartz ceramic magnetic strength silicon steel furnace bottom roller high, producing the raw material weight proportioning of soup processed that the product uses is:20-30 mesh vitreous silica silicon powder 35-40%, 60-70 mesh vitreous silica silicon powder 30-35%, 100-120 mesh vitreous silicas silicon powder 24%, boron carbide 4%, silicon nitride 1%, nanometre glue 0.40%, ammonium persulfate 0.20%, tetramethylethylenediamine 0.20%, polyethylene glycol 200 0.20%.
The present invention can be achieved through the following technical solutions:
A kind of production method of fused quartz ceramic magnetic strength silicon steel furnace bottom roller high, it is characterized in that being made up of following steps:
(1)During the nanometre glue of formula ratio, ammonium persulfate, tetramethylethylenediamine, polyethylene glycol 200 first are added into agitator tank in agitator tank, it is uniformly mixed under normal temperature, the 20-30 mesh vitreous silicas silicon powder of formula ratio, 60-70 mesh vitreous silicas silicon powder, 100-120 mesh vitreous silicas silicon powder, boron carbide, silicon nitride are sent into ball mill ball milling 2.2-2.4 hours again, ball mill is added after mixture in agitator tank is heated into 30-35 DEG C, blending is uniform.
(2)Material in ball mill is filled into fused quartz ceramic magnetic strength silicon steel furnace bottom roller mould high, using the method cast molding shaken in casting, then pressurization sloughs mould after placing 30-32 hours, then dries naturally 38-40 hours.
(3)The fused quartz ceramic magnetic strength silicon steel furnace bottom roller feeding kiln high that will be dried begins to warm up intensification, after sintering temperature slowly first is risen into 400 DEG C from 0 DEG C through the time of 2-3 hours, sintering temperature is risen to 1180-1200 DEG C from 400 DEG C in 6 hours again, maintain this temperature to stop heating after 28-30 hours, be progressively cooled to after normal temperature and obtain the blank material of fused quartz ceramic magnetic strength silicon steel furnace bottom roller high.
(4)By fused quartz ceramic magnetic strength silicon steel furnace bottom roller feeding cylindrical grinder high, the cylindrical given size that is milled to is got product.
Further technical scheme of the invention is:
Step(3)Described kiln is that coal gas occurs shuttle kiln.
Step(3)Sintering temperature in described kiln is 1190 DEG C, and the total time of sintering is 29 hours.
The beneficial effects of the invention are as follows:There is provided a kind of production method of fused quartz ceramic magnetic strength silicon steel furnace bottom roller high, the production method has the series of advantages such as few equipment of use, process is simple, pollution-free waste discharge, good product quality;Product fused quartz ceramic magnetic strength silicon steel furnace bottom roller high has excellent hot property, chemical stability and electrical insulation capability below 1200 DEG C, is used mainly as magnetic strength silicon steel stove transmission product high.
Specific embodiment
The present invention is further described by following examples.
Embodiment 1:
Total amount will be first accounted in agitator tank for nanometre glue 0.40%, ammonium persulfate 0.20%, tetramethylethylenediamine 0.20%, polyethylene glycol 200 0.20% is added in agitator tank, it is uniformly mixed under normal temperature, total amount will be accounted for again for 20-30 mesh vitreous silicas silicon powder 35%, 60-70 mesh vitreous silicas silicon powder 35%, 100-120 mesh vitreous silicas silicon powder 24%, boron carbide 4%, silicon nitride 1% send into ball mill ball milling 2.2 hours, mixture in agitator tank is heated to add ball mill after 30 DEG C, blending is uniform.Material in ball mill is filled into fused quartz ceramic magnetic strength silicon steel furnace bottom roller mould high, using the method cast molding shaken in casting, then pressurization sloughs mould after placing 30 hours, then dries naturally 38 hours.The fused quartz ceramic magnetic strength silicon steel furnace bottom roller feeding kiln high that will be dried begins to warm up intensification, after sintering temperature slowly first is risen into 400 DEG C from 0 DEG C through the time of 2-3 hours, sintering temperature is risen to 1180 DEG C from 400 DEG C in 6 hours again, maintain this temperature to stop heating after 30 hours, be progressively cooled to after normal temperature and obtain the blank material of fused quartz ceramic magnetic strength silicon steel furnace bottom roller high.By fused quartz ceramic magnetic strength silicon steel furnace bottom roller feeding cylindrical grinder high, the cylindrical given size that is milled to is got product.
Embodiment 2:
Total amount will be first accounted in agitator tank for nanometre glue 0.40%, ammonium persulfate 0.20%, tetramethylethylenediamine 0.20%, polyethylene glycol 200 0.20% is added in agitator tank, it is uniformly mixed under normal temperature, total amount will be accounted for again for 20-30 mesh vitreous silicas silicon powder 37.5%, 60-70 mesh vitreous silicas silicon powder 32.5%, 100-120 mesh vitreous silicas silicon powder 24%, boron carbide 4%, silicon nitride 1% send into ball mill ball milling 2.3 hours, mixture in agitator tank is heated to add ball mill after 32.5 DEG C, blending is uniform.Material in ball mill is filled into fused quartz ceramic magnetic strength silicon steel furnace bottom roller mould high, using the method cast molding shaken in casting, then pressurization sloughs mould after placing 31 hours, then dries naturally 39 hours.The fused quartz ceramic magnetic strength silicon steel furnace bottom roller feeding kiln high that will be dried begins to warm up intensification, after sintering temperature slowly first is risen into 400 DEG C from 0 DEG C through the time of 2-3 hours, sintering temperature is risen to 1190 DEG C from 400 DEG C in 6 hours again, maintain this temperature to stop heating after 29 hours, be progressively cooled to after normal temperature and obtain the blank material of fused quartz ceramic magnetic strength silicon steel furnace bottom roller high.By fused quartz ceramic magnetic strength silicon steel furnace bottom roller feeding cylindrical grinder high, the cylindrical given size that is milled to is got product.
Embodiment 3:
Total amount will be first accounted in agitator tank for nanometre glue 0.40%, ammonium persulfate 0.20%, tetramethylethylenediamine 0.20%, polyethylene glycol 200 0.20% is added in agitator tank, it is uniformly mixed under normal temperature, total amount will be accounted for again for 20-30 mesh vitreous silicas silicon powder 40%, 60-70 mesh vitreous silicas silicon powder 30%, 100-120 mesh vitreous silicas silicon powder 24%, boron carbide 4%, silicon nitride 1% send into ball mill ball milling 2.4 hours, mixture in agitator tank is heated to add ball mill after 35 DEG C, blending is uniform.Material in ball mill is filled into fused quartz ceramic magnetic strength silicon steel furnace bottom roller mould high, using the method cast molding shaken in casting, then pressurization sloughs mould after placing 32 hours, then dries naturally 40 hours.The fused quartz ceramic magnetic strength silicon steel furnace bottom roller feeding kiln high that will be dried begins to warm up intensification, after sintering temperature slowly first is risen into 400 DEG C from 0 DEG C through the time of 2-3 hours, sintering temperature is risen to 1200 DEG C from 400 DEG C in 6 hours again, maintain this temperature to stop heating after 28 hours, be progressively cooled to after normal temperature and obtain the blank material of fused quartz ceramic magnetic strength silicon steel furnace bottom roller high.By fused quartz ceramic magnetic strength silicon steel furnace bottom roller feeding cylindrical grinder high, the cylindrical given size that is milled to is got product.
Claims (3)
1. the production method of a kind of fused quartz ceramic magnetic strength silicon steel furnace bottom roller high, its composition of raw materials is count by weight percentage:20-30 mesh vitreous silica silicon powder 35-40%, 60-70 mesh vitreous silica silicon powder 30-35%, 100-120 mesh vitreous silicas silicon powder 24%, boron carbide 4%, silicon nitride 1%, nanometre glue 0.40%, ammonium persulfate 0.20%, tetramethylethylenediamine 0.20%, polyethylene glycol 200 0.20%;It is characterized in that:
(1)During the nanometre glue of formula ratio, ammonium persulfate, tetramethylethylenediamine, polyethylene glycol 200 first are added into agitator tank in agitator tank, it is uniformly mixed under normal temperature, the 20-30 mesh vitreous silicas silicon powder of formula ratio, 60-70 mesh vitreous silicas silicon powder, 100-120 mesh vitreous silicas silicon powder, boron carbide, silicon nitride are sent into ball mill ball milling 2.2-2.4 hours again, ball mill is added after mixture in agitator tank is heated into 30-35 DEG C, blending is uniform;
(2)Material in ball mill is filled into fused quartz ceramic magnetic strength silicon steel furnace bottom roller mould high, using the method cast molding shaken in casting, then pressurization sloughs mould after placing 30-32 hours, then dries naturally 38-40 hours;
(3)The fused quartz ceramic magnetic strength silicon steel furnace bottom roller feeding kiln high that will be dried begins to warm up intensification, after sintering temperature slowly first is risen into 400 DEG C from 0 DEG C through the time of 2-3 hours, sintering temperature is risen to 1180-1200 DEG C from 400 DEG C in 6 hours again, maintain this temperature to stop heating after 28-30 hours, be progressively cooled to after normal temperature and obtain the blank material of fused quartz ceramic magnetic strength silicon steel furnace bottom roller high;
(4)By fused quartz ceramic magnetic strength silicon steel furnace bottom roller feeding cylindrical grinder high, the cylindrical given size that is milled to is got product.
2. the production method of a kind of fused quartz ceramic according to claim 1 magnetic strength silicon steel furnace bottom roller high, it is characterized in that:Step(3)Described kiln is that coal gas occurs shuttle kiln.
3. the production method of a kind of fused quartz ceramic according to claim 1 magnetic strength silicon steel furnace bottom roller high, it is characterized in that:Step(3)Sintering temperature in described kiln is 1190 DEG C, and the total time of sintering is 29 hours.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201510842231.1A CN106810222A (en) | 2015-11-29 | 2015-11-29 | A kind of production method of fused quartz ceramic magnetic strength silicon steel furnace bottom roller high |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201510842231.1A CN106810222A (en) | 2015-11-29 | 2015-11-29 | A kind of production method of fused quartz ceramic magnetic strength silicon steel furnace bottom roller high |
Publications (1)
Publication Number | Publication Date |
---|---|
CN106810222A true CN106810222A (en) | 2017-06-09 |
Family
ID=59102250
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201510842231.1A Pending CN106810222A (en) | 2015-11-29 | 2015-11-29 | A kind of production method of fused quartz ceramic magnetic strength silicon steel furnace bottom roller high |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN106810222A (en) |
-
2015
- 2015-11-29 CN CN201510842231.1A patent/CN106810222A/en active Pending
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN105198440B (en) | Resistance to heat shocks silicon carbide crucible and its manufacture craft | |
CN100457681C (en) | High conductive high strength graphite brick for ultralarge blast furnace, its production technology and application | |
CN101935222B (en) | High-temperature corundum-porzite pushing plate and manufacture method thereof | |
CN107935575A (en) | High-purity low creep electric cast mullite brick and preparation method thereof | |
CN104973856A (en) | Production method of fused quartz ceramic roller | |
CN105130186A (en) | Gangue microcrystalline glass and preparation method thereof | |
CN102773906B (en) | Corundum sand mold for producing fused-cast alumina refractory materials and production technique thereof | |
CN104744051A (en) | Production method of silicon nitride crucible | |
CN108610029A (en) | A kind of production method of glass horizontal annealing furnace Quartz Ceramic Roller | |
CN104446459B (en) | Preparation method for the Bubble zirconia insulating product of tungsten sintering intermediate frequency furnace | |
CN106810223A (en) | A kind of production method of Float Glass Annealing stove silicon roller | |
CN106495676A (en) | A kind of preparation method of tempered glass heating furnace with quartz-ceramics hollow roll rod | |
CN103044037A (en) | Mullite aluminum nitride prefabricated brick formed by nitriding sintering | |
CN106810224A (en) | A kind of solar energy high temperature resistance and high strength radiates the production method of light roller | |
CN106810222A (en) | A kind of production method of fused quartz ceramic magnetic strength silicon steel furnace bottom roller high | |
CN106278205A (en) | A kind of production method of glass tempering furnace fused quartz ceramic roller | |
CN106810221A (en) | A kind of production method of fused quartz ceramic cast steel water nozzle | |
CN105272288B (en) | Microwave high-temperature special-purpose thermal insulation refractory material and preparation method thereof | |
CN106810225A (en) | A kind of production method of fused quartz ceramic body of heater | |
CN106810227A (en) | A kind of production method of fused quartz ceramic coke oven door | |
CN101315822B (en) | Production method of high temperature crystalline silicon carbide electrical heating element | |
CN108610032A (en) | A kind of production method of fused quartz ceramic coke oven door | |
CN106810220A (en) | A kind of solar energy continuous drying stove production method of high cleaning nogging | |
CN102718515A (en) | Nitridation firing corundum aluminium nitride precast brick | |
CN108610061A (en) | A kind of production method of fused quartz ceramic furnace body |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
PB01 | Publication | ||
PB01 | Publication | ||
WD01 | Invention patent application deemed withdrawn after publication |
Application publication date: 20170609 |
|
WD01 | Invention patent application deemed withdrawn after publication |