CN107287412B - A kind of preparation method of high vanadium high-chromic vanadium-titanium ferroferrite pelletizing - Google Patents
A kind of preparation method of high vanadium high-chromic vanadium-titanium ferroferrite pelletizing Download PDFInfo
- Publication number
- CN107287412B CN107287412B CN201710447611.4A CN201710447611A CN107287412B CN 107287412 B CN107287412 B CN 107287412B CN 201710447611 A CN201710447611 A CN 201710447611A CN 107287412 B CN107287412 B CN 107287412B
- Authority
- CN
- China
- Prior art keywords
- vanadium
- titanium ferroferrite
- chromic
- pelletizing
- chromic vanadium
- 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.)
- Active
Links
Classifications
-
- C—CHEMISTRY; METALLURGY
- C22—METALLURGY; FERROUS OR NON-FERROUS ALLOYS; TREATMENT OF ALLOYS OR NON-FERROUS METALS
- C22B—PRODUCTION AND REFINING OF METALS; PRETREATMENT OF RAW MATERIALS
- C22B1/00—Preliminary treatment of ores or scrap
- C22B1/02—Roasting processes
-
- C—CHEMISTRY; METALLURGY
- C22—METALLURGY; FERROUS OR NON-FERROUS ALLOYS; TREATMENT OF ALLOYS OR NON-FERROUS METALS
- C22B—PRODUCTION AND REFINING OF METALS; PRETREATMENT OF RAW MATERIALS
- C22B1/00—Preliminary treatment of ores or scrap
- C22B1/14—Agglomerating; Briquetting; Binding; Granulating
- C22B1/24—Binding; Briquetting ; Granulating
- C22B1/2406—Binding; Briquetting ; Granulating pelletizing
-
- C—CHEMISTRY; METALLURGY
- C22—METALLURGY; FERROUS OR NON-FERROUS ALLOYS; TREATMENT OF ALLOYS OR NON-FERROUS METALS
- C22B—PRODUCTION AND REFINING OF METALS; PRETREATMENT OF RAW MATERIALS
- C22B1/00—Preliminary treatment of ores or scrap
- C22B1/14—Agglomerating; Briquetting; Binding; Granulating
- C22B1/24—Binding; Briquetting ; Granulating
- C22B1/242—Binding; Briquetting ; Granulating with binders
- C22B1/243—Binding; Briquetting ; Granulating with binders inorganic
Landscapes
- Chemical & Material Sciences (AREA)
- Engineering & Computer Science (AREA)
- Materials Engineering (AREA)
- Mechanical Engineering (AREA)
- Geology (AREA)
- General Life Sciences & Earth Sciences (AREA)
- Manufacturing & Machinery (AREA)
- Environmental & Geological Engineering (AREA)
- Life Sciences & Earth Sciences (AREA)
- Geochemistry & Mineralogy (AREA)
- Metallurgy (AREA)
- Organic Chemistry (AREA)
- Inorganic Chemistry (AREA)
- Catalysts (AREA)
- Manufacture And Refinement Of Metals (AREA)
- Rolling Contact Bearings (AREA)
Abstract
A kind of preparation method of high vanadium high-chromic vanadium-titanium ferroferrite pelletizing, belongs to the technical field of blast furnace process in high vanadium high-chromic vanadium-titanium ferroferrite method of comprehensive utilization.The preparation method carries out dispensing, mixes plus bottom water batch mixing, stewing material, carry out pelletizing, sieve to obtain green-ball and then drying pre-oxidation, shaft roasting, the cooling of 8~16mm, obtained high vanadium high-chromic vanadium-titanium ferroferrite pelletizing to green-ball raw material stoving by being matched to import high vanadium high-chromic vanadium-titanium ferroferrite profit mill, according to pellet feed.This method solve pellets easily to superfuse, and to caking or dross, the problem of influencing finished ball yield and quality, efficiently and effectively improves quality of green pellets, ensure that pellet yield and quality.
Description
Technical field
The invention belongs to the technical field of blast furnace process in high vanadium high-chromic vanadium-titanium ferroferrite method of comprehensive utilization, especially relate to
And a kind of high vanadium high-chromic vanadium-titanium ferroferrite pelletizing.
Background technology
As domestic iron ore supply demand gap increasingly becomes larger, iron and steel enterprise is badly in need of expanding the source of iron ore deposit and exploitation is high
Added value vanadium chromium product, import Foreign iron ore resource become a kind of trend, and the high vanadium high-chromic vanadium-titanium ferroferrite of import is a kind of
More metal intergrowth minerals rich in a variety of valuable constituent elements such as iron, vanadium, titanium, chromium, application value is high, but its mineral composition complexity,
It is big to comprehensively utilize difficulty, in the prior art, heat supply duty should not determine when shaft roasting, be easy to cause the high vanadium Gao Ge of import
Type V-ti Bearing Magnetite Pellets are superfused, and caking or dross occurs, influences the production of the high vanadium high-chromic vanadium-titanium ferroferrite pelletizing of finished product import
Amount and quality.To influence the improvement of blast furnace process index and the raising of ironmaking technology.
Invention content
The present invention is to solve the existing technique for preparing the high vanadium high-chromic vanadium-titanium ferroferrite pelletizing of import, there are pellets
Easily superfuse, to caking or dross, the problem of influencing finished ball yield and quality, and a kind of high vanadium high-chromic vanadium titanium is provided
The preparation method of Magnetite Pellets.This method efficiently and effectively improves quality of green pellets, ensure that pellet yield and quality.
A kind of preparation method of high vanadium high-chromic vanadium-titanium ferroferrite pelletizing of the present invention, is realized by following steps:
Step 1, profit mill
High vanadium high-chromic vanadium-titanium ferroferrite is subjected to profit mill, profit time consuming is 5~15min, and the high vanadium being made after profit mill is high
Chromic vanadium-titanium ferroferrite powder, fineness are -200 mesh >=90%;
Wherein, the described profit mill uses damp mill, wherein the technological parameter of damp mill is:Cylinder number of moving part is 14.3
The material ball ratio of~21.95r/min, damp mill is:(3.4~11.3):(24~83);
Step 2, dispensing
According to the raw material composition and its weight part ratio of high vanadium high-chromic vanadium-titanium ferroferrite pelletizing, raw material is weighed, mixing is equal
It is even, obtain mixed material;
Wherein, high vanadium high-chromic vanadium-titanium ferroferrite pelletizing by profit grind after high vanadium high-chromic vanadium-titanium ferroferrite powder, iron charge and
Bentonite is prepared, wherein the weight part ratio of each ingredient is:
High vanadium high-chromic vanadium-titanium ferroferrite powder after profit mill:51~56 parts, iron charge:44~49 parts, bentonite:0.8~1.1
Part;
High vanadium high-chromic vanadium-titanium ferroferrite powder after the profit mill is that the high vanadium high-chromic vanadium-titanium ferroferrite of import is moistened
Grind the high vanadium high-chromic vanadium-titanium ferroferrite powder that obtained fineness is -200 mesh >=90%, it includes TFe be 61~63wt.%,
Including chemical composition and its mass percent be:FeO:26~28%, Fe3O4:54.06~58.97%, V2O5:0.9~
1.1%, TiO2:4.5~5.5%, Cr2O3:0.45~0.85%, CaO:0.16~0.26%, SiO2:2~3%, MgO:0.5
~1.0%, Al2O3:2.5~4.0%, surplus is inevitable impurity;
The ingredient and its parts by weight that the iron charge contains be:Common Iron Ore Powder:70~100 parts;Common superfine iron powder:
0~30 part;
Wherein, grain size≤0.5mm of common Iron Ore Powder accounts for 90%, and its maximum particle diameter≤3mm;
The fineness of common superfine iron powder is -325 mesh >=85% or -200 mesh >=95%;
The mesh of the bentonitic granularity≤200, the ingredient and its mass percent contained are:SiO2:66~69%,
Al2O3:13~16%, MgO:4~5%, CaO:2~3%, Na2O≤1.7%, K2O≤1.2%, surplus are inevitably miscellaneous
Matter.
Step 3, it dries
It is 6~8% that mixed material, which is dried to mixed material moisture content, the mixed material after being dried;
Step 4, add bottom water batch mixing, stewing material
Water is added in mixed material after drying, and is uniformly mixed, 30~50min of material is then boiled in a covered pot over a slow fire, obtains the material boiled in a covered pot over a slow fire;Its
In, the amount that water is added is 1.8~2.2% of the mixed material quality after drying;
Step 5, pelletizing and screening
The material boiled in a covered pot over a slow fire is placed in disc balling machine, water is added so that high vanadium high-chromic vanadium-titanium ferroferrite green-ball moisture content
Control carries out pelletizing 9~11%, by screening, obtains the high vanadium high-chromic vanadium-titanium ferroferrite green-ball that granularity is 8~16mm;
Step 6, drying pre-oxidation
The high vanadium high-chromic vanadium-titanium ferroferrite green-ball that granularity is 8~16mm is uniformly distributed into shaft furnace furnace roof by material distributing machine
In the drying bed at place, the pre- thermal oxide of drying and dewatering is passed through in drying bed, obtains the high vanadium high-chromic vanadium titanium magnetic of drying pre-oxidation
Iron ore pellets, wherein drying bed tempertaure control is 650~750 DEG C, the control of petticoat pipe temperature is 160~210 DEG C, thickness of feed layer control
It is made as 100~140mm, drying time is 5~9min;
Step 7, shaft roasting
The high vanadium high-chromic vanadium-titanium ferroferrite pelletizing of drying pre-oxidation is placed in shaft furnace and is roasted, after being roasted
High vanadium high-chromic vanadium-titanium ferroferrite pelletizing;Its roasting technique is:Chamber temperature is 1150~1250 DEG C, chamber pressure 7
~11kPa, gas pressure are 18~20kPa, combustion-supporting wind pressure is 16~18kPa, and roasting time is 10~18min;
Step 8, cooling
By the high vanadium high-chromic vanadium-titanium ferroferrite pelletizing after roasting, after furnace cooling, it is discharged from vertical furnace bottom, obtains high vanadium
High-chromic vanadium-titanium ferroferrite pelletizing.
Prepare high vanadium high-chromic vanadium-titanium ferroferrite pelletizing, it includes TFe be 61.88~64.22wt.%, including
Chemical composition and its mass percent are:Fe2O3:87.51~91.41%, FeO:0.3~0.8%, V2O5:0.45~
0.62%, TiO2:2.29~3.20%, Cr2O3:0.22~0.48%, CaO:0.11~0.63%, SiO2:3.18~
4.77%, MgO:0.32~0.89%, Al2O3:1.62~4.0%, surplus is inevitable impurity.
The green-ball granularity of the high vanadium high-chromic vanadium-titanium ferroferrite pelletizing prepared is 8~16mm, and shatter strength of green pellet is >=4
Secondary/, compression strength >=10N/, the compression strength for drying the high vanadium high-chromic vanadium-titanium ferroferrite pelletizing of pre-oxidation is >=
300N/, the compression strength of the high vanadium high-chromic vanadium-titanium ferroferrite pelletizing after roasting is >=2200N/, the reduction swellability of pelletizing
Rate≤16.4%.
In the step 3, the concrete operation method of the drying is:Mixed material is placed in drying box, 90
~110 DEG C are dried, until mixed material moisture content is 6~8%.
In the step 4, the mode of the addition water is using atomization plus water.
In the step 4, the stewing material refers to the mixed material that water is added with polybag or plastic paper covering, purpose
It is, moisture is made to be uniformly mixed.
In the step 5, the screening is specially roll screen, is specially by high vanadium Gao Ge made from disc balling machine
Type vanadium titano-magnetite green-ball is sieved by the gap between sieving roller, and granularity is the high vanadium chromium type high v-ti magnetite of 8~16mm
Mine green-ball enters next step, and high vanadium high-chromic vanadium-titanium ferroferrite green-ball of the granularity less than 8mm is back to the disk pelletizing of step 5
Machine continues pelletizing, and high vanadium high-chromic vanadium-titanium ferroferrite green-ball of the granularity more than 16mm by broken, make by the disk for being back to step 5
Ball machine continues pelletizing.
The yield of the high vanadium high-chromic vanadium-titanium ferroferrite pelletizing reaches 1500 ton days.
The high vanadium high-chromic vanadium-titanium ferroferrite pelletizing is for the high vanadium high-chromic vanadium-titanium ferroferrite of blast furnace process import
Furnace charge.
A kind of high vanadium high-chromic vanadium-titanium ferroferrite pelletizing of the present invention, compared with the prior art, advantage is:
1. a kind of high vanadium high-chromic vanadium-titanium ferroferrite pelletizing of the present invention grinds the high vanadium chromium type high v-ti magnetite of import by profit
Mine mixes common Iron Ore Powder and common superfine iron powder, adjustment bentonite ore ratio appropriate, solves the high vanadium Gao Ge of import well
Type vanadium titano-magnetite granularity is excessively thick, and balling-up is poor, consumption of bentonite amount is big when preparing high vanadium high-chromic vanadium-titanium ferroferrite pelletizing
Disadvantage;By moistening mill so that mixture grade averagely improves 8% or more, bentonite ore ratio reduces by 1% or more, and pellet grade obtains
To largely improving;Quality of green pellets is efficiently and effectively improved, ensure that pellet yield and quality;
2. by setting rational calcination temperature, V containing vanadium is reached in the case of realizing pellet stable components2O5:0.45
~0.62%, TiO2:2.29~3.20%, Cr2O3:0.22~0.48%, meet the high vanadium high-chromic vanadium titanium of blast furnace process import
The requirement of magnetic iron ore.
3. during preparing high vanadium high-chromic vanadium-titanium ferroferrite pelletizing in the present invention, it is advantageous to add bottom water and the benefit of stewing material
Preparation in pelletizing and yield and quality that is uniform, and then improving pelletizing, and bring prodigious side for subsequent shaft roasting
Just, furthermore be conducive to the more excellent pelletizing of processability.
4. by moistening the change of mill and raw material proportioning etc. in the present invention, in pelletizing mineral powder granular bonding state more closely,
Microstructure is more uniformly distributed densification, so that high vanadium high-chromic vanadium-titanium ferroferrite pellet characteristics are significantly improved,
Including higher shatter strength of green pellet, higher compression strength of green pel let, higher acid pellet compression strength, and acid pellet
The metallurgical performances such as reduction swellability, reproducibility and soft melting dropping characteristic are more excellent.
Specific implementation mode
With reference to embodiment, the present invention is described in further detail.
High vanadium high-chromic vanadium-titanium ferroferrite used in following embodiment comes from Russian Ural area.
High vanadium high-chromic vanadium-titanium ferroferrite used in following embodiment, it includes TFe be 61~63wt.%, including
Chemical composition and its mass percent are:FeO:26~28%, Fe3O4:54.06~58.97%, V2O5:0.9~1.1%,
TiO2:4.5~5.5%, Cr2O3:0.45~0.85%, CaO:0.16~0.26%, SiO2:2~3%, MgO:0.5~
1.0%, Al2O3:2.5~4.0%, surplus is inevitable impurity;
Common Iron Ore Powder used in following embodiment, it includes TFe be 63~65wt.%, including chemical composition and
Its mass percent is:FeO:22~28%, Fe3O4:56.82~66.03%, CaO:0.06~1.0%, SiO2:5~6%,
MgO:0.14~0.74%, Al2O3:1~4%, surplus is inevitable impurity.
Common superfine iron powder used in following embodiment, it includes TFe be 65~69wt.%, including chemical composition
And its mass percent is:FeO:23~27%, Fe3O4:60.66~70.48%, CaO:0.1~0.2%, SiO2:4~8%,
MgO:0.15~0.35%, Al2O3:0.05~0.35%, surplus is inevitable impurity.
Bentonite used in following embodiment is commercial products, and the ingredient and its mass percent contained is:SiO2:66
~69%, Al2O3:13~16%, MgO:4~5%, CaO:2~3%, Na2O≤1.7%, K2O≤1.2%, surplus is can not
The impurity avoided.
Technical solution of the present invention is not limited to act specific implementation mode set forth below, further includes between each specific implementation mode
Arbitrary combination.
Embodiment 1
A kind of preparation method of high vanadium high-chromic vanadium-titanium ferroferrite pelletizing, is realized by following steps:Moisten mill, dispensing, baking
Dry-mixing plus bottom water batch mixing, stewing material, pelletizing, green-ball screening, drying pre-oxidation, shaft roasting, cooling, the specific steps are:
Step 1, profit mill
High vanadium high-chromic vanadium-titanium ferroferrite is subjected to profit mill, profit time consuming is 15min, and the high vanadium chromium type high after profit mill is made
V-ti magnetite miberal powder, fineness are -200 mesh >=90%;
The described profit mill uses damp mill, wherein the technological parameter of damp mill is:The specification of damp mill is MR3254, outside
Shape size is 13.4m × 7.25m × 5.7m, cylinder internal diameter 3.2m, cylinder active length 5.4m, cylinder available capacity
39.5m3, cylinder number of moving part are 16.5r/min, and the maximum loading of damp mill is material 6t, steel ball 44t;
Step 2, dispensing
According to the raw material composition and its weight part ratio of high vanadium high-chromic vanadium-titanium ferroferrite pelletizing, raw material is weighed, mixing is equal
It is even, obtain mixed material;
High vanadium high-chromic vanadium-titanium ferroferrite pelletizing is by high vanadium high-chromic vanadium-titanium ferroferrite powder, iron charge and the bentonite after profit mill
It is prepared, wherein the weight part ratio of each ingredient is:
High vanadium high-chromic vanadium-titanium ferroferrite powder after profit mill:51 parts, iron charge:49 parts, bentonite:0.8 part;
High vanadium high-chromic vanadium-titanium ferroferrite powder after the profit mill is that the high vanadium high-chromic vanadium-titanium ferroferrite of import is moistened
Grind the high vanadium high-chromic vanadium-titanium ferroferrite powder that obtained fineness is -200 mesh >=90%;
The ingredient and its parts by weight that the iron charge contains be:Common Iron Ore Powder:70 parts;Common superfine iron powder:30 parts;
Wherein, grain size≤0.5mm of common Iron Ore Powder accounts for 90%, and its maximum particle diameter≤3mm;
The fineness of common superfine iron powder is -325 mesh >=85% or -200 mesh >=95%;
The mesh of the bentonitic granularity≤200;
Step 3, it dries
Mixed material is placed in drying box, is dried at 90 DEG C, until mixed material moisture content is 6%, is dried
Mixed material after dry;
Step 4, add bottom water batch mixing, stewing material
Water is added by the way of atomization plus water in mixed material after drying, and is uniformly mixed, is then covered with polybag
The mixed material of water is added in lid, boils in a covered pot over a slow fire material 30min, obtains the material boiled in a covered pot over a slow fire;Wherein, the amount that water is added is the mixed material matter after drying
The 2% of amount;
Step 5, pelletizing and screening
The material boiled in a covered pot over a slow fire is placed in disc balling machine, water is added so that high vanadium high-chromic vanadium-titanium ferroferrite green-ball moisture content
Control carries out pelletizing 11%, by screening, obtains the high vanadium high-chromic vanadium-titanium ferroferrite green-ball that granularity is 8~10mm;
The screening is specially roll screen, is specially to give birth to high vanadium high-chromic vanadium-titanium ferroferrite made from disc balling machine
Ball is sieved by the gap between sieving roller, and the high vanadium high-chromic vanadium-titanium ferroferrite green-ball that granularity is 8~10mm enters next
Step, the disc balling machine that high vanadium high-chromic vanadium-titanium ferroferrite green-ball of the granularity less than 8mm is back to step 5 continue pelletizing, grain
High vanadium high-chromic vanadium-titanium ferroferrite green-ball of the degree more than 10mm by being broken into miberal powder, make by the disc balling machine for being back to step 5
Ball.
Prepare high vanadium high-chromic vanadium-titanium ferroferrite pelletizing green-ball granularity be 8~10mm, shatter strength of green pellet be 6 times/
It is a, compression strength 15N/.
Step 6, drying pre-oxidation
By the high vanadium high-chromic vanadium-titanium ferroferrite green-ball that granularity is 8~10mm, vertical furnace is uniformly distributed by material distributing machine
In drying bed at top, the pre- thermal oxide of drying and dewatering is passed through in drying bed, obtains the high vanadium high-chromic vanadium titanium of drying pre-oxidation
Magnetite Pellets, wherein drying bed tempertaure control is 750 DEG C, the control of petticoat pipe temperature is 210 DEG C, thickness of feed layer control is
140mm, drying time 9min;
The compression strength for drying the high vanadium high-chromic vanadium-titanium ferroferrite pelletizing of pre-oxidation is 400N/.
Step 7, shaft roasting
The high vanadium high-chromic vanadium-titanium ferroferrite pelletizing of drying pre-oxidation is placed in shaft furnace and is roasted, after being roasted
High vanadium high-chromic vanadium-titanium ferroferrite pelletizing;Its roasting technique is:Chamber temperature is 1250 DEG C, chamber pressure 7kPa, coal
Atmospheric pressure is 20kPa, combustion-supporting wind pressure is 18kPa, roasting time 10min;
Step 8, cooling
By the high vanadium high-chromic vanadium-titanium ferroferrite pelletizing after roasting, after furnace cooling, it is discharged from vertical furnace bottom, obtains high vanadium
High-chromic vanadium-titanium ferroferrite pelletizing.
High vanadium high-chromic vanadium-titanium ferroferrite pelletizing manufactured in the present embodiment, it includes TFe be 64.22wt.%, including
Chemical composition and its mass percent are:Fe2O3:91.41%, FeO:0.3%, V2O5:0.45%, TiO2:2.29%, Cr2O3:
0.22%, CaO:0.11%, SiO2:3.18%, MgO:0.32%, Al2O3:1.62%, surplus is inevitable impurity.
The compression strength of high vanadium high-chromic vanadium-titanium ferroferrite pelletizing after roasting is 2500N/, and reduction swellability rate is
11.9%.
Embodiment 2
A kind of preparation method of high vanadium high-chromic vanadium-titanium ferroferrite pelletizing, is realized by following steps:Moisten mill, dispensing, baking
Dry-mixing plus bottom water batch mixing, stewing material, pelletizing, green-ball screening, drying pre-oxidation, shaft roasting, cooling, the specific steps are:
Step 1, profit mill
High vanadium high-chromic vanadium-titanium ferroferrite is subjected to profit mill, profit time consuming is 8min, and the high vanadium chromium type high after profit mill is made
V-ti magnetite miberal powder, fineness are -200 mesh >=90%;
The described profit mill uses damp mill, wherein the technological parameter of damp mill is:The specification of damp mill is MR3870, outside
Shape size is 16.4m × 8.74m × 7.59m, cylinder internal diameter 3.8m, cylinder active length 7.0m, cylinder available capacity
73.6m3, cylinder number of moving part is 14.3r/min, and the maximum loading of damp mill is material 11.3t, steel ball 83t;
Step 2, dispensing
According to the raw material composition and its weight part ratio of high vanadium high-chromic vanadium-titanium ferroferrite pelletizing, raw material is weighed, mixing is equal
It is even, obtain mixed material;
High vanadium high-chromic vanadium-titanium ferroferrite pelletizing is by high vanadium high-chromic vanadium-titanium ferroferrite powder, iron charge and the bentonite after profit mill
It is prepared, wherein the weight part ratio of each ingredient is:
High vanadium high-chromic vanadium-titanium ferroferrite powder after profit mill:54 parts, iron charge:46 parts, bentonite:1.0 part;
High vanadium high-chromic vanadium-titanium ferroferrite powder after the profit mill is that the high vanadium high-chromic vanadium-titanium ferroferrite of import is moistened
Grind the high vanadium high-chromic vanadium-titanium ferroferrite powder that obtained fineness is -200 mesh >=90%;
The ingredient and its parts by weight that the iron charge contains be:Common Iron Ore Powder:100 parts;Wherein, common Iron Ore Powder
Grain size≤0.5mm's accounts for 90%, and its maximum particle diameter≤3mm;
The mesh of the bentonitic granularity≤200;
Step 3, it dries
Mixed material is placed in drying box, is dried at 110 DEG C, until mixed material moisture content is 6%, is dried
Mixed material after dry;
Step 4, add bottom water batch mixing, stewing material
Water is added by the way of atomization plus water in mixed material after drying, and is uniformly mixed, is then covered with polybag
The mixed material of water is added in lid, boils in a covered pot over a slow fire material 30min, obtains the material boiled in a covered pot over a slow fire;Wherein, the amount that water is added is the mixed material matter after drying
The 2% of amount;
Step 5, pelletizing and screening
The material boiled in a covered pot over a slow fire is placed in disc balling machine, water is added so that high vanadium high-chromic vanadium-titanium ferroferrite green-ball moisture content
Control carries out pelletizing 9%, by screening, obtains the high vanadium high-chromic vanadium-titanium ferroferrite green-ball that granularity is 9~15mm;
The screening is specially roll screen, is specially to give birth to high vanadium high-chromic vanadium-titanium ferroferrite made from disc balling machine
Ball is sieved by the gap between sieving roller, and the high vanadium high-chromic vanadium-titanium ferroferrite green-ball that granularity is 9~15mm enters next
Step, the disc balling machine that high vanadium high-chromic vanadium-titanium ferroferrite green-ball of the granularity less than 9mm is back to step 5 continue pelletizing, grain
High vanadium high-chromic vanadium-titanium ferroferrite green-ball of the degree more than 15mm by being broken into miberal powder, make by the disc balling machine for being back to step 5
Ball.
Prepare high vanadium high-chromic vanadium-titanium ferroferrite pelletizing green-ball granularity be 9~15mm, shatter strength of green pellet be 4 times/
It is a, compression strength 11.6N/.
Step 6, drying pre-oxidation
By the high vanadium high-chromic vanadium-titanium ferroferrite green-ball that granularity is 9~15mm, vertical furnace is uniformly distributed by material distributing machine
In drying bed at top, the pre- thermal oxide of drying and dewatering is passed through in drying bed, obtains the high vanadium high-chromic vanadium titanium of drying pre-oxidation
Magnetite Pellets, wherein drying bed tempertaure control is 650 DEG C, the control of petticoat pipe temperature is 160 DEG C, thickness of feed layer control is
100mm, drying time 5min;
The compression strength for drying the high vanadium high-chromic vanadium-titanium ferroferrite pelletizing of pre-oxidation is 330N/.
Step 7, shaft roasting
The high vanadium high-chromic vanadium-titanium ferroferrite pelletizing of drying pre-oxidation is placed in shaft furnace and is roasted, after being roasted
High vanadium high-chromic vanadium-titanium ferroferrite pelletizing;Its roasting technique is:Chamber temperature is 1150 DEG C, chamber pressure 7kPa, coal
Atmospheric pressure is 18kPa, combustion-supporting wind pressure is 16kPa, roasting time 18min;
Step 8, cooling
By the high vanadium high-chromic vanadium-titanium ferroferrite pelletizing after roasting, after furnace cooling, it is discharged from vertical furnace bottom, obtains high vanadium
High-chromic vanadium-titanium ferroferrite pelletizing.
High vanadium high-chromic vanadium-titanium ferroferrite pelletizing obtained, it includes TFe be 62.42wt.%, including chemical composition
And its mass percent is:Fe2O3:88.84%, FeO:0.30%, V2O5:0.47%, TiO2:3.10%, Cr2O3:0.35%,
CaO:0.11%, SiO2:4.77%, MgO:0.32%, Al2O3:1.62%, surplus is inevitable impurity.
The compression strength of high vanadium high-chromic vanadium-titanium ferroferrite pelletizing after roasting is 2260N/, and reduction swellability rate is
13.8%.
Present embodiment uses disk blanking machine blanking, ensures each disk blanking accuracy, adheres to running disk system, ensures iron
Expect that every 15 minutes running disks detection is primary, fluctuation range is within ± 0.5kg/m;The every 25 minutes running disks detection of bentonite is primary, often
Secondary running disk five times, is averaged, and fluctuation range is within ± 0.02kg/m.
Embodiment 3
A kind of preparation method of high vanadium high-chromic vanadium-titanium ferroferrite pelletizing, is realized by following steps:Moisten mill, dispensing, baking
Dry-mixing plus bottom water batch mixing, stewing material, pelletizing, green-ball screening, drying pre-oxidation, shaft roasting, cooling, the specific steps are:
Step 1, profit mill
High vanadium high-chromic vanadium-titanium ferroferrite is subjected to profit mill, profit time consuming is 10min, and the high vanadium chromium type high after profit mill is made
V-ti magnetite miberal powder, fineness are -200 mesh >=90%;
The described profit mill uses damp mill, wherein the technological parameter of damp mill is:The specification of damp mill is MR2265, outside
Shape size is 10.97m × 5.62m × 4.05m, cylinder internal diameter 2.2m, cylinder active length 6.5m, cylinder available capacity
21.4m3, cylinder number of moving part are 21.95r/min, and the maximum loading of damp mill is material 3.4t, steel ball 24t;
Step 2, dispensing
According to the raw material composition and its weight part ratio of high vanadium high-chromic vanadium-titanium ferroferrite pelletizing, raw material is weighed, mixing is equal
It is even, obtain mixed material;
High vanadium high-chromic vanadium-titanium ferroferrite pelletizing is by high vanadium high-chromic vanadium-titanium ferroferrite powder, iron charge and the bentonite after profit mill
It is prepared, wherein the weight part ratio of each ingredient is:
High vanadium high-chromic vanadium-titanium ferroferrite powder after profit mill:52 parts, iron charge:48 parts, bentonite:0.9 part;
High vanadium high-chromic vanadium-titanium ferroferrite powder after the profit mill is that the high vanadium high-chromic vanadium-titanium ferroferrite of import is moistened
Grind the high vanadium high-chromic vanadium-titanium ferroferrite powder that obtained fineness is -200 mesh >=90%;
The ingredient and its parts by weight that the iron charge contains be:Common Iron Ore Powder:70 parts, common superfine iron powder:30 parts;
Wherein, grain size≤0.5mm of common Iron Ore Powder accounts for 90%, and its maximum particle diameter≤3mm;The fineness of common superfine iron powder is-
200 mesh >=95%;
The mesh of the bentonitic granularity≤200;
Step 3, it dries
Mixed material is placed in drying box, is dried at 110 DEG C, until mixed material moisture content is 7%, is dried
Mixed material after dry;
Step 4, add bottom water batch mixing, stewing material
Water is added by the way of atomization plus water in mixed material after drying, and is uniformly mixed, is then covered with polybag
The mixed material of water is added in lid, boils in a covered pot over a slow fire material 40min, obtains the material boiled in a covered pot over a slow fire;Wherein, the amount that water is added is the mixed material matter after drying
The 2.2% of amount;
Step 5, pelletizing and screening
The material boiled in a covered pot over a slow fire is placed in disc balling machine, water is added so that high vanadium high-chromic vanadium-titanium ferroferrite green-ball moisture content
Control carries out pelletizing 10%, by screening, obtains the high vanadium high-chromic vanadium-titanium ferroferrite green-ball that granularity is 9~16mm;
The screening is specially roll screen, is specially to give birth to high vanadium high-chromic vanadium-titanium ferroferrite made from disc balling machine
Ball is sieved by the gap between sieving roller, and the high vanadium high-chromic vanadium-titanium ferroferrite green-ball that granularity is 9~16mm enters next
Step, the disc balling machine that high vanadium high-chromic vanadium-titanium ferroferrite green-ball of the granularity less than 9mm is back to step 5 continue pelletizing, grain
High vanadium high-chromic vanadium-titanium ferroferrite green-ball of the degree more than 16mm by being broken into miberal powder, make by the disc balling machine for being back to step 5
Ball.
Prepare high vanadium high-chromic vanadium-titanium ferroferrite pelletizing green-ball granularity be 9~16mm, shatter strength of green pellet be 5 times/
It is a, compression strength 12N/.
Step 6, drying pre-oxidation
By granularity being uniformly distributed by material distributing machine in the drying bed at shaft furnace furnace roof for 9~16mm, in drying bed
By the pre- thermal oxide of drying and dewatering, the high vanadium high-chromic vanadium-titanium ferroferrite pelletizing of drying pre-oxidation is obtained, wherein drying bed tempertaure
Control is 750 DEG C, the control of petticoat pipe temperature is 210 DEG C, thickness of feed layer control is 140mm, drying time 9min;
The compression strength for drying the high vanadium high-chromic vanadium-titanium ferroferrite pelletizing of pre-oxidation is 360N/.
Step 7, shaft roasting
The high vanadium high-chromic vanadium-titanium ferroferrite pelletizing of drying pre-oxidation is placed in shaft furnace and is roasted, after being roasted
High vanadium high-chromic vanadium-titanium ferroferrite pelletizing;Its roasting technique is:Chamber temperature is 1250 DEG C, chamber pressure 11kPa, coal
Atmospheric pressure is 20kPa, combustion-supporting wind pressure is 18kPa, roasting time 10min;
Step 8, cooling
By the high vanadium high-chromic vanadium-titanium ferroferrite pelletizing after roasting, after furnace cooling, it is discharged from vertical furnace bottom, obtains high vanadium
High-chromic vanadium-titanium ferroferrite pelletizing.
Prepare high vanadium high-chromic vanadium-titanium ferroferrite pelletizing, it includes TFe be 63.18wt.%, including chemical composition
And its mass percent is:Fe2O3:89.79%, FeO:0.47%, V2O5:0.48%, TiO2:2.56%, Cr2O3:0.29%,
CaO:0.22%, SiO2:3.32%, MgO:0.89%, Al2O3:1.96%, surplus is inevitable impurity.
The compression strength of high vanadium high-chromic vanadium-titanium ferroferrite pelletizing after roasting is 2410N/, and reduction swellability rate is
12.8%.
Embodiment 4
A kind of preparation method of high vanadium high-chromic vanadium-titanium ferroferrite pelletizing, is realized by following steps:Moisten mill, dispensing, baking
Dry-mixing plus bottom water batch mixing, stewing material, pelletizing, green-ball screening, drying pre-oxidation, shaft roasting, cooling, the specific steps are:
Step 1, profit mill
High vanadium high-chromic vanadium-titanium ferroferrite is subjected to profit mill, profit time consuming is 5min, and the high vanadium chromium type high after profit mill is made
V-ti magnetite miberal powder, fineness are -200 mesh >=90%;
The described profit mill uses damp mill, wherein the technological parameter of damp mill is:The specification of damp mill is MR3254, outside
Shape size is 13.4m × 7.25m × 5.7m, cylinder internal diameter 3.2m, cylinder active length 5.4m, cylinder available capacity
39.5m3, cylinder number of moving part is 16.5r/min, and the maximum loading of damp mill is material 6t, steel ball 44t;
Step 2, dispensing
According to the raw material composition and its weight part ratio of high vanadium high-chromic vanadium-titanium ferroferrite pelletizing, raw material is weighed, mixing is equal
It is even, obtain mixed material;
High vanadium high-chromic vanadium-titanium ferroferrite pelletizing is by high vanadium high-chromic vanadium-titanium ferroferrite powder, iron charge and the bentonite after profit mill
It is prepared, wherein the weight part ratio of each ingredient is:
High vanadium high-chromic vanadium-titanium ferroferrite powder after profit mill:56 parts, iron charge:44 parts, bentonite:1.1 part;
High vanadium high-chromic vanadium-titanium ferroferrite powder after the profit mill is that the high vanadium high-chromic vanadium-titanium ferroferrite of import is moistened
Grind the high vanadium high-chromic vanadium-titanium ferroferrite powder that obtained fineness is -200 mesh >=90%;
The ingredient and its parts by weight that the iron charge contains be:Common Iron Ore Powder:85 parts, common superfine iron powder:15 parts;
Wherein, grain size≤0.5mm of common Iron Ore Powder accounts for 90%, and its maximum particle diameter≤3mm;The fineness of common superfine iron powder is-
200 mesh >=95%;
The mesh of the bentonitic granularity≤200;
Step 3, it dries
Mixed material is placed in drying box, is dried at 110 DEG C, until mixed material moisture content is 8%, is dried
Mixed material after dry;
Step 4, add bottom water batch mixing, stewing material
Water is added by the way of atomization plus water in mixed material after drying, and is uniformly mixed, is then covered with polybag
The mixed material of water is added in lid, boils in a covered pot over a slow fire material 50min, obtains the material boiled in a covered pot over a slow fire;Wherein, the amount that water is added is the mixed material matter after drying
The 1.8% of amount;
Step 5, pelletizing and screening
The material boiled in a covered pot over a slow fire is placed in disc balling machine, water is added so that high vanadium high-chromic vanadium-titanium ferroferrite green-ball moisture content
Control carries out pelletizing 11%, by screening, obtains the high vanadium high-chromic vanadium-titanium ferroferrite green-ball that granularity is 8~15mm;
The screening is specially roll screen, is specially to give birth to high vanadium high-chromic vanadium-titanium ferroferrite made from disc balling machine
Ball is sieved by the gap between sieving roller, and the high vanadium high-chromic vanadium-titanium ferroferrite green-ball that granularity is 8~15mm enters next
Step, the disc balling machine that high vanadium high-chromic vanadium-titanium ferroferrite green-ball of the granularity less than 8mm is back to step 5 continue pelletizing, grain
High vanadium high-chromic vanadium-titanium ferroferrite green-ball of the degree more than 15mm by being broken into miberal powder, make by the disc balling machine for being back to step 5
Ball.
Prepare high vanadium high-chromic vanadium-titanium ferroferrite pelletizing green-ball granularity be 8~15mm, shatter strength of green pellet be 4 times/
It is a, compression strength 10N/.
Step 6, drying pre-oxidation
By granularity being uniformly distributed by material distributing machine in the drying bed at shaft furnace furnace roof for 8~15mm, in drying bed
By the pre- thermal oxide of drying and dewatering, the high vanadium high-chromic vanadium-titanium ferroferrite pelletizing of drying pre-oxidation is obtained, wherein drying bed tempertaure
Control is 700 DEG C, the control of petticoat pipe temperature is 190 DEG C, thickness of feed layer control is 120mm, drying time 7min;
The compression strength for drying the high vanadium high-chromic vanadium-titanium ferroferrite pelletizing of pre-oxidation is 300N/.
Step 7, shaft roasting
The high vanadium high-chromic vanadium-titanium ferroferrite pelletizing of drying pre-oxidation is placed in shaft furnace and is roasted, after being roasted
High vanadium high-chromic vanadium-titanium ferroferrite pelletizing;Its roasting technique is:Chamber temperature is 1200 DEG C, chamber pressure 9kPa, coal
Atmospheric pressure is 19kPa, combustion-supporting wind pressure is 17kPa, roasting time 14min;
Step 8, cooling
By the high vanadium high-chromic vanadium-titanium ferroferrite pelletizing after roasting, after furnace cooling, it is discharged from vertical furnace bottom, obtains high vanadium
High-chromic vanadium-titanium ferroferrite pelletizing.
Prepare high vanadium high-chromic vanadium-titanium ferroferrite pelletizing, it includes TFe be 61.88wt.%, including chemical composition
And its mass percent is:Fe2O3:87.51%, FeO:0.8%, V2O5:0.62%, TiO2:3.20%, Cr2O3:0.48%,
TFe:61.88%, CaO:0.63%, SiO2:3.25%, MgO:0.34%, Al2O3:3.06%, surplus is inevitably miscellaneous
Matter.
The compression strength of high vanadium high-chromic vanadium-titanium ferroferrite pelletizing after roasting is 2200N/, and reduction swellability rate is
16.4%.
Comparative example
A kind of preparation method of high vanadium high-chromic vanadium-titanium ferroferrite pelletizing, is realized by following steps:Dispensing, drying are mixed
It closes plus bottom water batch mixing, stewing material, pelletizing, green-ball sieves, dries pre-oxidation, shaft roasting, cooling, the specific steps are:
Step 1, dispensing
According to the raw material composition and its weight part ratio of high vanadium high-chromic vanadium-titanium ferroferrite pelletizing, raw material is weighed, mixing is equal
It is even, obtain mixed material;
Step 2, it dries
Mixed material is placed in drying box, is dried at 110 DEG C, until mixed material moisture content is 7%, is dried
Mixed material after dry;
High vanadium high-chromic vanadium-titanium ferroferrite pelletizing is by untreated high vanadium high-chromic vanadium-titanium ferroferrite powder, iron charge and swollen
Profit soil is prepared, wherein the weight part ratio of each ingredient is:
Untreated high vanadium high-chromic vanadium-titanium ferroferrite powder:52 parts, iron charge:48 parts, bentonite:0.9 part;
The ingredient and its parts by weight that the iron charge contains be:Common Iron Ore Powder:70 parts, common superfine iron powder:30 parts;
Wherein, grain size≤0.5mm of common Iron Ore Powder accounts for 90%, and its maximum particle diameter≤3mm;The fineness of common superfine iron powder is-
200 mesh >=95%;
The mesh of the bentonitic granularity≤200;
Step 3, add bottom water batch mixing, stewing material
Water is added by the way of atomization plus water in mixed material after drying, and is uniformly mixed, is then covered with polybag
The mixed material of water is added in lid, boils in a covered pot over a slow fire material 40min, obtains the material boiled in a covered pot over a slow fire;Wherein, the amount that water is added is the mixed material matter after drying
The 2.2% of amount;
Step 4, pelletizing and screening
The material boiled in a covered pot over a slow fire is placed in disc balling machine, water is added so that high vanadium high-chromic vanadium-titanium ferroferrite green-ball moisture content
Control carries out pelletizing 10%, by screening, obtains the high vanadium high-chromic vanadium-titanium ferroferrite green-ball that granularity is 9~16mm;
The screening is specially roll screen, is specially to give birth to high vanadium high-chromic vanadium-titanium ferroferrite made from disc balling machine
Ball is sieved by the gap between sieving roller, and the high vanadium high-chromic vanadium-titanium ferroferrite green-ball that granularity is 9~16mm enters next
Step, the disc balling machine that high vanadium high-chromic vanadium-titanium ferroferrite green-ball of the granularity less than 9mm is back to step 5 continue pelletizing, grain
High vanadium high-chromic vanadium-titanium ferroferrite green-ball of the degree more than 16mm by being broken into miberal powder, make by the disc balling machine for being back to step 5
Ball.
Prepare high vanadium high-chromic vanadium-titanium ferroferrite pelletizing green-ball granularity be 6~12mm, shatter strength of green pellet be 2 times/
It is a, compression strength 7N/.
Step 5, drying pre-oxidation
By granularity being uniformly distributed by material distributing machine in the drying bed at shaft furnace furnace roof for 9~16mm, in drying bed
By the pre- thermal oxide of drying and dewatering, the high vanadium high-chromic vanadium-titanium ferroferrite pelletizing of drying pre-oxidation is obtained, wherein drying bed tempertaure
Control is 750 DEG C, the control of petticoat pipe temperature is 210 DEG C, thickness of feed layer control is 140mm, drying time 9min;
The compression strength for drying the high vanadium high-chromic vanadium-titanium ferroferrite pelletizing of pre-oxidation is 200N/.
Step 6, shaft roasting
The high vanadium high-chromic vanadium-titanium ferroferrite pelletizing of drying pre-oxidation is placed in shaft furnace and is roasted, after being roasted
High vanadium high-chromic vanadium-titanium ferroferrite pelletizing;Its roasting technique is:Chamber temperature is 1250 DEG C, chamber pressure 11kPa, coal
Atmospheric pressure is 20kPa, combustion-supporting wind pressure is 18kPa, roasting time 10min;
Step 7, cooling
By the high vanadium high-chromic vanadium-titanium ferroferrite pelletizing after roasting, after furnace cooling, it is discharged from vertical furnace bottom, obtains high vanadium
High-chromic vanadium-titanium ferroferrite pelletizing.
High vanadium high-chromic vanadium-titanium ferroferrite pelletizing obtained, it includes TFe be 63.28wt.%, including chemical composition
And its mass percent is:Fe2O3:89.79%, FeO:0.47%, V2O5:0.48%, TiO2:2.86%, Cr2O3:0.27%,
CaO:0.22%, SiO2:3.26%, MgO:0.53%, Al2O3:1.92%, surplus is inevitable impurity.
The compression strength of high vanadium high-chromic vanadium-titanium ferroferrite pelletizing after roasting is 1520N/, and reduction swellability rate is
25%.
Claims (7)
1. a kind of preparation method of high vanadium high-chromic vanadium-titanium ferroferrite pelletizing, which is characterized in that the high vanadium chromium type high v-ti magnetite
The preparation method of mine pelletizing, is realized by following steps:
Step 1, profit mill
High vanadium high-chromic vanadium-titanium ferroferrite is subjected to profit mill, profit time consuming is 5 ~ 15min, and the high vanadium high-chromic vanadium after profit mill is made
Titanomagnetite powder, fineness are -200 mesh >=90%;
Wherein, the described profit mill uses damp mill, wherein the technological parameter of damp mill is:Cylinder number of moving part be 14.3 ~
The material ball ratio of 21.95r/min, damp mill is:(3.4~11.3):(24~83);
Step 2, dispensing
According to the raw material composition and its weight part ratio of high vanadium high-chromic vanadium-titanium ferroferrite pelletizing, raw material is weighed, is uniformly mixed, obtains
To mixed material;
Wherein, high vanadium high-chromic vanadium-titanium ferroferrite powder, iron charge and swelling after high vanadium high-chromic vanadium-titanium ferroferrite pelletizing is ground by profit
Soil is prepared, wherein the weight part ratio of each ingredient is:
High vanadium high-chromic vanadium-titanium ferroferrite powder after profit mill:51 ~ 56 parts, iron charge:44 ~ 49 parts, bentonite:0.8 ~ 1.1 part;
High vanadium high-chromic vanadium-titanium ferroferrite powder after the described profit mill, including TFe be 61 ~ 63wt.%, including chemical composition
And its mass percent is:FeO:26 ~ 28%, Fe3O4:54.06 ~ 58.97%, V2O5:0.9 ~ 1.1%, TiO2:4.5 ~ 5.5%,
Cr2O3:0.45 ~ 0.85%, CaO:0.16 ~ 0.26%, SiO2:2 ~ 3%, MgO:0.5 ~ 1.0%, Al2O3:2.5 ~ 4.0%, surplus is not
Evitable impurity;
The ingredient and its parts by weight that the iron charge contains be:Common Iron Ore Powder:70 ~ 100 parts;Common superfine iron powder:0~30
Part;
Wherein, grain size≤0.5mm of common Iron Ore Powder accounts for 90%, and its maximum particle diameter≤3mm;
The fineness of common superfine iron powder is -325 mesh >=85% or -200 mesh >=95%;
The mesh of the bentonitic granularity≤200, the ingredient and its mass percent contained are:SiO2:66 ~ 69%, Al2O3:
13 ~ 16%, MgO:4 ~ 5%, CaO:2 ~ 3%, Na2O≤1.7%, K2O≤1.2%, surplus are inevitable impurity;
Step 3, it dries
It is 6 ~ 8% that mixed material, which is dried to mixed material moisture content, the mixed material after being dried;
Step 4, add bottom water batch mixing, stewing material
Water is added in mixed material after drying, and is uniformly mixed, 30 ~ 50min of material is then boiled in a covered pot over a slow fire, obtains the material boiled in a covered pot over a slow fire;Wherein, add
The amount for entering water is 1.8 ~ 2.2% of the mixed material quality after drying;
Step 5, pelletizing and screening
The material boiled in a covered pot over a slow fire is placed in disc balling machine, water is added so that high vanadium high-chromic vanadium-titanium ferroferrite green-ball moisture control
9 ~ 11%, pelletizing is carried out, by screening, obtains the high vanadium high-chromic vanadium-titanium ferroferrite green-ball that granularity is 8 ~ 16mm;
Step 6, drying pre-oxidation
The high vanadium high-chromic vanadium-titanium ferroferrite green-ball that granularity is 8 ~ 16mm is uniformly distributed by material distributing machine at shaft furnace furnace roof
In drying bed, the pre- thermal oxide of drying and dewatering is passed through in drying bed, obtains the high vanadium high-chromic vanadium-titanium ferroferrite of drying pre-oxidation
Pelletizing, wherein drying bed tempertaure control is 650 ~ 750 DEG C, the control of petticoat pipe temperature is 160 ~ 210 DEG C, thickness of feed layer control is 100
~ 140mm, drying time are 5 ~ 9min;
Step 7, shaft roasting
The high vanadium high-chromic vanadium-titanium ferroferrite pelletizing of drying pre-oxidation is placed in shaft furnace and is roasted, the high vanadium after being roasted
High-chromic vanadium-titanium ferroferrite pelletizing;Its roasting technique is:Chamber temperature is 1150 ~ 1250 DEG C, chamber pressure be 7 ~
11kPa, gas pressure are 18 ~ 20kPa, combustion-supporting wind pressure is 16 ~ 18kPa, and roasting time is 10 ~ 18min;
Step 8, cooling
By the high vanadium high-chromic vanadium-titanium ferroferrite pelletizing after roasting, after furnace cooling, it is discharged from vertical furnace bottom, obtains high vanadium Gao Ge
Type V-ti Bearing Magnetite Pellets.
2. the preparation method of high vanadium high-chromic vanadium-titanium ferroferrite pelletizing as described in claim 1, which is characterized in that the height of preparation
Vanadium high-chromic vanadium-titanium ferroferrite pelletizing, it includes TFe be 61.88 ~ 64.22wt.%, including chemical composition and its quality hundred
Point ratio is:Fe2O3:87.51 ~ 91.41%, FeO:0.3 ~ 0.8%, V2O5:0.45 ~ 0.62%, TiO2:2.29 ~ 3.20%, Cr2O3:
0.22 ~ 0.48%, CaO:0.11 ~ 0.63%, SiO2:3.18 ~ 4.77%, MgO:0.32 ~ 0.89%, Al2O3:1.62 ~ 4.0%, surplus
For inevitable impurity.
3. the preparation method of high vanadium high-chromic vanadium-titanium ferroferrite pelletizing as described in claim 1, which is characterized in that the height of preparation
The green-ball granularity of vanadium high-chromic vanadium-titanium ferroferrite pelletizing be 8 ~ 16mm, shatter strength of green pellet be >=4 times/, compression strength >=
10N/, the compression strength for drying the high vanadium high-chromic vanadium-titanium ferroferrite pelletizing of pre-oxidation is >=300N/, the high vanadium after roasting
The compression strength of high-chromic vanadium-titanium ferroferrite pelletizing is >=2200N/, reduction swellability rate≤16.4% of pelletizing.
4. the preparation method of high vanadium high-chromic vanadium-titanium ferroferrite pelletizing as described in claim 1, which is characterized in that the step
In rapid 3, the drying is:Mixed material is placed in drying box, is dried at 90 ~ 110 DEG C, until mixed material is aqueous
Rate is 6 ~ 8%.
5. the preparation method of high vanadium high-chromic vanadium-titanium ferroferrite pelletizing as described in claim 1, which is characterized in that the step
In rapid 4, the mode of the addition water is using atomization plus water.
6. the preparation method of high vanadium high-chromic vanadium-titanium ferroferrite pelletizing as described in claim 1, which is characterized in that the step
In rapid 4, the stewing material refers to the mixed material that water is added with polybag or plastic paper covering.
7. the preparation method of high vanadium high-chromic vanadium-titanium ferroferrite pelletizing as described in claim 1, which is characterized in that the step
In rapid 5, the screening is specially roll screen, is specially by high vanadium high-chromic vanadium-titanium ferroferrite green-ball made from disc balling machine
It is sieved by sieving the gap between roller, granularity is that the high vanadium high-chromic vanadium-titanium ferroferrite green-ball of 8 ~ 16mm enters in next step
Suddenly, high vanadium high-chromic vanadium-titanium ferroferrite green-ball of the granularity less than 8mm is back to the disc balling machine continuation pelletizing of step 5, granularity
For high vanadium high-chromic vanadium-titanium ferroferrite green-ball more than 16mm by broken, the disc balling machine for being back to step 5 continues pelletizing.
Priority Applications (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201710447611.4A CN107287412B (en) | 2017-06-14 | 2017-06-14 | A kind of preparation method of high vanadium high-chromic vanadium-titanium ferroferrite pelletizing |
PCT/CN2018/088042 WO2018228155A1 (en) | 2017-06-14 | 2018-05-23 | Preparation method for high-vanadium high-chromium type vanadium titanium magnetite pellets |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201710447611.4A CN107287412B (en) | 2017-06-14 | 2017-06-14 | A kind of preparation method of high vanadium high-chromic vanadium-titanium ferroferrite pelletizing |
Publications (2)
Publication Number | Publication Date |
---|---|
CN107287412A CN107287412A (en) | 2017-10-24 |
CN107287412B true CN107287412B (en) | 2018-10-23 |
Family
ID=60097800
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201710447611.4A Active CN107287412B (en) | 2017-06-14 | 2017-06-14 | A kind of preparation method of high vanadium high-chromic vanadium-titanium ferroferrite pelletizing |
Country Status (2)
Country | Link |
---|---|
CN (1) | CN107287412B (en) |
WO (1) | WO2018228155A1 (en) |
Families Citing this family (10)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107287412B (en) * | 2017-06-14 | 2018-10-23 | 东北大学 | A kind of preparation method of high vanadium high-chromic vanadium-titanium ferroferrite pelletizing |
CN107267748B (en) * | 2017-06-14 | 2018-08-28 | 东北大学 | A kind of high vanadium high-chromic vanadium-titanium ferroferrite pelletizing |
CN107881327A (en) * | 2017-11-19 | 2018-04-06 | 东北大学 | A kind of method that high-chromic vanadium-titanium ferroferrite prepares sintering deposit with addition of common iron ore |
CN107881331A (en) * | 2017-11-19 | 2018-04-06 | 东北大学 | A kind of method that low chromium type vanadium titano-magnetite prepares sintering deposit with addition of common iron ore |
CN111961842A (en) * | 2020-09-02 | 2020-11-20 | 攀钢集团攀枝花钢铁研究院有限公司 | Taihe vanadium-titanium pellet and production method thereof |
CN112899471B (en) * | 2021-01-19 | 2022-04-12 | 东北大学 | Method for preparing large-size composite vanadium-titanium pellet ore |
CN114574693B (en) * | 2022-01-19 | 2023-07-21 | 中南大学 | Sintering process of all-vanadium titano-magnetite pellets |
CN114807598A (en) * | 2022-04-12 | 2022-07-29 | 黑龙江建龙钢铁有限公司 | Method for preparing vanadium-titanium pellets by using sea sand coarse powder |
CN114774682B (en) * | 2022-05-09 | 2024-03-15 | 北京首钢自动化信息技术有限公司 | Pellet pelletizing equipment, pellet pelletizing control method and device |
CN117431397B (en) * | 2023-12-20 | 2024-03-15 | 东北大学 | Reduction method of vanadium titanium ore |
Citations (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102417977A (en) * | 2011-12-08 | 2012-04-18 | 黑龙江建龙钢铁有限公司 | High chromium-high vanadium type vanadium titanium ore pellet |
CN102517442A (en) * | 2011-12-08 | 2012-06-27 | 黑龙江建龙钢铁有限公司 | Preparation method of high-chromium high-vanadium type vanadium-titanium ore pellets |
CN104630449A (en) * | 2015-02-09 | 2015-05-20 | 东北大学 | Method for preparing sintered ore by using high-chromium-type vanadium-titanium mixture |
CN104630458A (en) * | 2015-02-09 | 2015-05-20 | 东北大学 | Preparation method of acidic chromium-containing vanadium-titanium sintered ore |
CN104862472A (en) * | 2015-05-12 | 2015-08-26 | 攀钢集团攀枝花钢铁研究院有限公司 | Vanadium-titanium pellet and preparing method thereof |
CN105907956A (en) * | 2016-06-27 | 2016-08-31 | 东北大学 | Low-grade chromium-containing vanadium titanium magnetite oxidized pellet and preparation method thereof |
CN106148731A (en) * | 2016-08-10 | 2016-11-23 | 攀钢集团攀枝花钢铁研究院有限公司 | The preparation method of ilmenite concentrate acid pellet |
Family Cites Families (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP4589875B2 (en) * | 2006-01-27 | 2010-12-01 | 新日本製鐵株式会社 | Reduction method of metal oxide in rotary hearth type reduction furnace |
JP5042586B2 (en) * | 2006-10-16 | 2012-10-03 | 新日本製鐵株式会社 | Powder granulation method using desulfurized slag |
CN107287412B (en) * | 2017-06-14 | 2018-10-23 | 东北大学 | A kind of preparation method of high vanadium high-chromic vanadium-titanium ferroferrite pelletizing |
CN107267748B (en) * | 2017-06-14 | 2018-08-28 | 东北大学 | A kind of high vanadium high-chromic vanadium-titanium ferroferrite pelletizing |
-
2017
- 2017-06-14 CN CN201710447611.4A patent/CN107287412B/en active Active
-
2018
- 2018-05-23 WO PCT/CN2018/088042 patent/WO2018228155A1/en active Application Filing
Patent Citations (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102417977A (en) * | 2011-12-08 | 2012-04-18 | 黑龙江建龙钢铁有限公司 | High chromium-high vanadium type vanadium titanium ore pellet |
CN102517442A (en) * | 2011-12-08 | 2012-06-27 | 黑龙江建龙钢铁有限公司 | Preparation method of high-chromium high-vanadium type vanadium-titanium ore pellets |
CN104630449A (en) * | 2015-02-09 | 2015-05-20 | 东北大学 | Method for preparing sintered ore by using high-chromium-type vanadium-titanium mixture |
CN104630458A (en) * | 2015-02-09 | 2015-05-20 | 东北大学 | Preparation method of acidic chromium-containing vanadium-titanium sintered ore |
CN104862472A (en) * | 2015-05-12 | 2015-08-26 | 攀钢集团攀枝花钢铁研究院有限公司 | Vanadium-titanium pellet and preparing method thereof |
CN105907956A (en) * | 2016-06-27 | 2016-08-31 | 东北大学 | Low-grade chromium-containing vanadium titanium magnetite oxidized pellet and preparation method thereof |
CN106148731A (en) * | 2016-08-10 | 2016-11-23 | 攀钢集团攀枝花钢铁研究院有限公司 | The preparation method of ilmenite concentrate acid pellet |
Non-Patent Citations (2)
Title |
---|
以高铬型钒钛磁铁矿制备氧化球团;唐珏等;《东北大学学报(自然科学版)》;20130430;第34卷(第4期);全文 * |
强化制粒对含铬型钒钛混合料烧结的影响;周密等;《钢铁》;20150331;第50卷(第3期);全文 * |
Also Published As
Publication number | Publication date |
---|---|
CN107287412A (en) | 2017-10-24 |
WO2018228155A1 (en) | 2018-12-20 |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN107287412B (en) | A kind of preparation method of high vanadium high-chromic vanadium-titanium ferroferrite pelletizing | |
CN107267748B (en) | A kind of high vanadium high-chromic vanadium-titanium ferroferrite pelletizing | |
CN104630449B (en) | Method for preparing sintered ore by using high-chromium-type vanadium-titanium mixture | |
CN104073627A (en) | Production method of fluxed composite pellet | |
CN102517442B (en) | Preparation method of high-chromium high-vanadium type vanadium-titanium ore pellets | |
CN105087907B (en) | A kind of ferrochrome powder mine sintering technique | |
CN108998659B (en) | Process for processing pellet ore by using siderite powder and vanadium-titanium magnetite powder | |
CN114574693B (en) | Sintering process of all-vanadium titano-magnetite pellets | |
CN108611487A (en) | A kind of resource utilization method of the solid waste containing magnesium | |
CN112410552A (en) | Preparation method of vanadium-titanium pellets | |
CN108754135A (en) | The processing method for improving the manufacturing process and iron ore concentrate of the production efficiency of vanadium-titanium pellet | |
CN109852790B (en) | Method for preparing chromium-containing full vanadium-titanium self-fluxing pellet with medium and low alkalinity | |
CN111996367A (en) | Method for utilizing superfine coal powder in sintering and sintering mixture | |
CN110205487A (en) | The production method of fluorine-containing vanadium-titanium pellet | |
CN110129499A (en) | A kind of method of blast furnace addition steel scrap production molten iron | |
CN107400773B (en) | A method of pretreatment high-titanium type vanadium-titanium magnetite prepares pelletizing | |
CN108866325A (en) | A method of improving magnesian flux bursting temperature of pellet ores | |
CN107881336A (en) | A kind of method that low chromium type vanadium titano-magnetite prepares pellet with addition of chromite | |
CN107937715A (en) | A kind of method that high-chromic vanadium-titanium ferroferrite prepares pellet with addition of chromite | |
CN109576490B (en) | Method for preparing high-alkalinity chromium-containing all-vanadium-titanium pellet ore by adding calcium carbonate | |
CN108004396B (en) | It is a kind of to produce acidic oxidation pellet method using nickel slag | |
CN108374084B (en) | Production process of high-strength carbon-containing titanium concentrate pellets | |
CN106222350B (en) | A kind of coating material and preparation method thereof for inhibiting iron ore pellets melting and reducing excessively to cohere | |
CN111074066A (en) | High-magnesium pellet ore and production method thereof | |
CN104451137A (en) | Production method of cold-solidified rusted pellet |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
PB01 | Publication | ||
PB01 | Publication | ||
SE01 | Entry into force of request for substantive examination | ||
SE01 | Entry into force of request for substantive examination | ||
GR01 | Patent grant | ||
GR01 | Patent grant |