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Laman Utama >> Proses menghasilkan besi Molybdenum
Proses menghasilkan besi Molybdenum |
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I. Pengenalan Hartanah Logam Molybdenum
Sifat fizikal dan kimia utama molibdenum seperti berikut:
Relative atomic mass |
95.95 |
Density/(g/cm3) |
10.2 |
Melting point/K |
2883 |
Boiling point/K |
5833 |
Melting heat/(kJ/mol) |
7.37 |
Evaporation heat/(kJ/mol) |
536.3 |
Entropy(298K时)/(J/(mol.K)) |
28.61 |
High melting point of molybdenum, molybdenum at high temperatures the evaporation rate is very low vapor pressure is small, the most important feature is the electrical conductivity of molybdenum strong. Mo capability inorganic acid corrosion, but can quickly dissolved in nitric acid and sulfuric acid mixed solution.
Molybdenum and iron can be soluble in any ratio. In the 1453-1813K range, compounds MoFe (including Mo63.29%) solid-state stability. 1753K even in the following solid phase will crystallize Mo2Fe3. Greater than 50% of molybdenum, the alloy was significantly higher melting point, such as molybdenum alloy melting point of 60% of 2073K, a high molybdenum containing molybdenum can not flow from the furnace.
Formation of molybdenum carbide and carbon Mo2C and MoC. Mo2C the melting point of 2653K, MoC's melting point is 2843K, and may generate complex carbides Fe3Mo3C and Fe3CMo3C. Molybdenum and silicon generated Mo3Si, Mo5Si3, MoSi2. Molybdenum and aluminum generate MoAl. Generate a series of molybdenum sulfide and sulfur, MoS2, Mo2S3, MoS3, which is the main sulfide MoS2. The molybdenum containing MoS2 as molybdenite. When the temperature is higher than 673K easily oxidized when MoS2 MoO3 and MoO2.
Molybdenum oxide and oxygen to generate a series of MoO3, MoO2, Mo2O3, Mo4O11, among which is the most stable MoO3 and MoO2. MoO3 has obvious acid anhydride as molybdate, is light green powder; heating was bright yellow. Melting point of 978K, the boiling point of 1428K, the heat of formation 746kJ/mo, density 4.4g/cm3, the time when the temperature is higher than 873K for a significant sublimation of MoO3. MoO3 slightly soluble in water, soluble in caustic soda, ammonia generated molybdate solution. MoO2 is a purple-brown powder, and a metallic luster. When the temperature is significantly greater than 1273K sublimation MoO2 when its heat of formation for the 588.2kJ/mol, density 6.34g/cm3. MoO2 insoluble in water and alkaline solution, not soluble in sulfuric acid, hydrochloric acid.
Ⅱ.The oxidation of molybdenum concentrate roasting
MoS molybdenum containing about 75% because of high sulfur content can not be used to direct smelting of iron and molybdenum production of molybdenum oxide blocks, so the removal of sulfur oxidizing roasting must be used. Molybdenum concentrate roasting habits as raw material in front of molybdenum concentrate, molybdenum concentrate roasting is called after the molybdenum or molybdenum cooked baked sand. Add concentrate to the roaster before the content and impurity content of molybdenum should be the ingredients, and to be fully mixed, with a good compound error of 0.2% molybdenum content within, Mo ≥ 45%, Pb ≤ 0.8%, Cu ≤ 0.6%, SiO2 ≤ 12%, CaO ≤ 3%, H2O ≤ 4%.
1. Single oven roasted molybdenum concentrate
Only a layer of hearth furnace, said reflective layer between the furnace. General parameters for single-furnace: furnace bed height 850mm, length hearth 6000mm, hearth width 1500mm, high furnace 500mm, 4 door.s.
Refractory clay brick masonry stoves. Coal in the stove's combustion chamber and combustion chamber with the ash pit below the middle height of about 850mm, width 1500mm, 6000mm length bed furnace, stove and a roof to prevent falling into the combustion chamber and the level of concentrate blocked flue wall, retaining wall furnace end slightly higher. Generally have four door, it is customary to close the rear door as the first door, close to the combustion chamber door called the fourth door, the first door and put into the molybdenum concentrate, the fourth door is the material used, all the door can be used as material mixing and allocation purposes. The end of a partition wall in the furnace pit, where a large collection of dust particles of molybdenum, and then the flue gas into the vertical section, and then to the main horizontal portion of the flue, the main stack has been collecting through the room, the general level of tobacco single furnace long road to recovery of dust, and finally into the chimney flue.
Installed furnace used to have to concentrate through the 2mm sieve, in order to increase the contact area concentrates the gas to increase the speed of response.
A charge of about 300kg, tiled stove door in the first region of the furnace bed thickness of 65mm, approximately 120 minutes Continuous baking furnace to move income into the second entrance area. Appropriated about 120 minutes and then move the third furnace door area. Charge from each door, to the fourth door baked, take 8 hours or less, the first call is completed, materials move door zone, it will be prepared the first oven door concentrate added to the area, continuously for roasting .
In front of the first furnace gas temperature is 503-573K, concentrate temperature of 453-503K. The first door is the main area of oil and water removal, stirring once every 30 minutes. In front of the second furnace gas temperature is 673-723K, concentrate temperature of 683-733K. The second area is mainly heated door concentrate, and desulfurization reaction, stirring once every 20 minutes. In front of the third furnace gas temperature is 813-853K, concentrate temperature of 823-873K. The third furnace door area of total sulfur removal of about 75%, every 10 minutes stirring once. In front of the fourth furnace gas temperature is 873-953K, concentrate temperature of 883-973K. The fourth furnace door area near the combustion chamber, high temperature furnace, where the burn had to concentrate to 0.07% sulfur released every 7-8 minutes, stirring once. Curing occurs when the large door to open stirring constantly, until the concentrate is dispersed desulfurization qualified, should be immediately released at this time.
The door of the furnace temperature control by adjusting the tail of the flapper and the combustion chamber for the heat to achieve. Try to control the temperature of 923K less concentrate in order to reduce evaporation. Single-furnace roasting molybdenum recovery was 94%.
2. The rotary kiln roasting molybdenum
With external heating in the domestic molybdenum concentrate roasting kiln, rotary kiln technical parameters: Length 18000mm; diameter 1100mm; speed 0.5-1r/min; dip 1%. Hour feeding 190-200kg, each kiln Nissan molybdenum sand 3.8-4.5t.
Material in the kiln kiln rotation and tilt under the effect of movement from the kiln to kiln. Meanwhile, the oxidation of molybdenite started. MoS2 in the kiln based on thermo-chemical reaction occurs and the furnace thermal effect, the kiln can be broadly divided into three segments, with the location of feeding rate and concentrates and chemical composition of the physical properties vary:
(1)Preheating dry zone. Paragraph 6-7m in the kiln at the Department of the temperature between 773-923K, the material in this in the warm dry, remove the oil and water.
(2) Reaction zone. This paragraph in middle of 4-5m at the kiln, the temperature in the 923-1073K, MoS2 to light in this, mainly by the chemical reaction itself, the reaction of thermal oxidation of molybdenum oxides. When the material of the residual sulfur to 3.5% or less, can not rely on thermal desulfurization reaction, this time by the supply of high-temperature furnace, the residual sulfur to take off.
(3) Cooling zone. 7-8m in the kiln at the temperature between 923-1023K, well cooked roasted molybdenum ore in the cooling during this period of cooling baked.
Molybdenum concentrate roasting kiln, the material in the furnace to stay for about 4h. Of gravity and the cyclone dust collection. Rotary kiln calcination rate was 96.6% -97.5% molybdenum, molybdenum cooked to less than 0.08% sulfur content below 90% pass rate. Rotary kiln heated parts of the body likely to be burned, usually changed every 3 months.
3. Multi-furnace roasting molybdenum concentrates
Multi-furnace use more common at home and abroad, is a good roasting equipment. Refractory clay brick oven is the cylindrical shell lined with iron shell composed of a central furnace equipped with a gear driven by the motor through the central axis of rotation, the fixed tooth harrow rake arm fixed to the center axis, the rake teeth on the furnace bed for the circular motion around the central axis. From the central axis with a rake arm into the air cooling.
Storey furnace diameter 6034mm, diameter 5034mm, total height of 12970mm, center speed 0.75,0.98 r / min.
With a good charge, with the screw feeder hopper to join under the furnace, according to need to adjust the feed rate to the first layer of concentrate added to the outer hearth, with a fixed arm with the rake angle of the harrow tooth material allocation mixing, charge from the outer edge of the stove hearth center movement, and finally from the central axis of the furnace near the blanking hole, the second layer furnace stove fell within the edge of the bed area. Pull the rake of the mixing materials, charge movement to the outer edge of the hearth, fell on the third hole by blanking the outer layer of hearth area, which concentrates all of the furnace through the bed of cooked roasted molybdenum concentrate by passing the eighth layer of hearth into the following material storage tank.
Molybdenum sulfide oxidation of the heat released when the larger, so the fuel consumption is not. Baking furnace gas through underground pipes and configuration of the nozzle into the stove around the furnace sixth, seventh, eighth floor. 1-7 layers were outlet pipes, gas discharged by the Explorer. Each floor has a door for the observation conditions and adjust the temperature with the furnace.
We can see from the production practice, two, three gas temperature slightly at the end, charge dark red, furnace gas flow helps to feed grains were loose state, the maintenance of normal furnace operation will play a good role. The temperature is allowed to slightly different, but the temperature is too low, will slow down and not sweet baking the baking sand; temperature is too high due to volatilization of molybdenum trioxide, molybdenum losses to increase, and will charge sintered into pieces, not through roasting, sintering ore hearth would lead to long layers, the accelerated wear of tooth harrow, so special attention should be layers of molybdenum concentrate roasting temperature control.
Layers into the furnace temperature can increase or decrease the amount of gas, change Choudao, opening and closing layers and layers of gas pipeline valve door approach to regulation. To increase the temperature of layers 3-7 layers, need to open a small door and the eighth floor to increase gas supply or related body center, seven of the exhaust valve; to raise six, seven temperature, need to increase gas consumption volume. If the above methods fail to achieve results, want to increase the temperature must be reduced Choudao layers. To lower the temperature must be increased Choudao. 2-5 layers in order to reduce the high temperature, should be added to return goods, if necessary, open the small door 3,4 layer.
1-2 layer is preheated oven, 3-5-layer region is a major regional ,6-8 desulfurization is the removal of residual sulfur level the area. The solidified layer control in the sixth layer is conducive to oxidation to sulfur, so when the solidified layer moved to the fifth floor or the seventh layer, should be reduced or increased suction suction method adjustment.
As for roasting, ore characteristics also change the appearance, a good roasting in the heat when cooked molybdenum yellow and shiny. When molybdenite roasting oven in the multi-layer, approximately 10% -15% of dust escape, usually by the cyclone dust collection system and electrostatic precipitator components, dust removal efficiency of 99% and collected dust to return to the oven for roasting . Each eight-furnace stove day and night output of about 14t.
4. Molybdenum roaster roasting
This method is widely used for roasting sulphide concentrates. Roasting process flow of air from the bottom up, upward flow of air to charge particles in a boiling state, this state is characterized by a flow of particles and intense ground motion, it looks like a boiling liquid, so called roasting.
Roasting has obvious advantages, such as:
(1)Multi-furnace productivity increased 15-20 times over;
(2) roasting process can be carried out automatically;
(3) is not easy to generate roasting and calcine molybdate molybdenum oxide does not contain the second;
(4) roasting the escape rate of rhenium 92%.
Ⅲ. The production of molybdenum-iron furnace process Introduction
- Raw materials
Molybdenum is cooked main raw material for production of molybdenum is molybdenum in the molybdenum source of iron, in addition to other requirements of high grade, the impurities have strict requirements. General components: Mo48%-52%,S≤0.065%,P≤0.023%,Cu≤0.30%,SiO28%-14%,Pb0.2%-0.5%。Size no larger than 20mm ,10-20mm size not greater than 20% of the total.
75% ferrosilicon ferrosilicon powder by crushing, milling the powder raw material used to restore the mature molybdenum, iron scale and other oxides. Ferrosilicon powder before use must be accurate silicon, aluminum content analysis, silicon content of 75% -77% requirements, size requirements are :1.0-1 .8 mm less than 1% ,0.5-1 .0 mm particle size of not more than 10%, the rest is 0.5mm or less. Too much size increase caused by molybdenum silicon, the use of high silicon content results of ferrosilicon powder silicon content lower than the good.
Aluminum aluminum particles have the exact amount of ingredients as the basis for calculation, the size requirements in the 3mm or less. Particle size is too small, the production of unsafe; too large, the adverse reaction of smelting. The amount of aluminum particles with addition of molybdenum according to the temperature of cooked, containing molybdenum content, the production scale, the temperature conditions, and generally with each batch of material into the 5-8kg.
Iron scale is rolling, forging the iron oxide skin, and the smelting of the oxidant flux. Smelting reaction in about 30% into the alloy, is one of the sources of iron alloys; about 70% of the iron scale in the form of FeO into the slag, slag from the dilution effect. The requirements of the iron scale: Fe ≥ 68%, S ≤ 0.05%, P ≤ 0.035%, C ≤ 0.30%, Cu ≤ 0.1%.Iron scale heat and dry before use to remove moisture and oil, can also be used in the production of iron ore, but the high sulfur iron ore, now China has been rarely used.
Steel scrap is the main source of iron alloy, requiring more than 98% iron, steel scrap carbon steel for general use. Fluorite particle size should be 20mm below the heat and dry before use, remove the water, fluorite CaF ≥ 90%, S ≤ 0.05%, P ≤ 0.05%, before use. With addition of fluorspar in the charge depends on the actual situation and the maturity of slag in the SiO2 content of molybdenum, generally with the amount of each batch of material into 2-3kg.
Saltpeter is sodium nitrate, when cooked with a low molybdenum molybdenum, often because lack of oxygen, reducing agent can not pay more, which leads to charge low heat, heat can make saltpeter for the agent, each batch of material with addition of 1-3kg .
Charge ratio
Charge ratio: cooked molybdenum 100kg; saltpeter 3kg; aluminum particles 6kg; iron scale 20kg; ferrosilicon powder 28.28kg; steel scrap 23.06kg; fluorite 2kg; Total 182.34kg.
The total heat release in each batch of charge to:
102195.6+266662+17170+8716.9+25288.3=420032.8(kJ)
2.The melting operation
Charge to
Be processed into a suitable size, and then to be dried, by ingredients than the ingredients. Charge is to ensure the accuracy of weighing a prerequisite for normal smelting. Weighing the order is cooked molybdenum, nitrate, aluminum particles, iron scales, ferrosilicon, steel scrap, fluorite. Weighed into the mixer in charge of mixing and mixing time of about 8min, mixed together into the hopper of Charge.Charge for
Ingredients is a very careful work, does not allow the slightest mistake the work of staff to focus on ingredients, strong sense of responsibility. As much as possible electronically controlled devices.
Ingredients should be strictly fire, due to charge characteristics of flammable and explosive dust, requiring strict fire safety measures. Mixing process must be tightly closed to smoke dust removal facilities.
3.Furnace
Molybdenum iron smelting furnace is the main equipment. Furnace shell is welded with 10mm round steel tube, lined with refractory brick, the lower edge away from the furnace shell at the opening of a diameter of 100mm 120mm to put on the furnace slag prepared based on the sand, made in the sand base in the hemisphere shaped pits to accommodate the molten alloy. Said the sand pit to accommodate the alloy nest.
Dried river sand with a nest made of sand, put right after the furnace tube nest tamping sand, particularly the lower edge of the furnace tube and the junction between sand nests, to which trace high 150-200mm, 400mm high to pound out smelting slag to prevent leakage from the seam binding. Sand nest by natural drying, non-nest with wet sand, or splashing phenomenon will cause serious, even splashing wounding.
4.The melting process
Mixed good charge into the furnace. After the first hopper plus returns should be added finishing materials, debris, paved circle ring hollow, not near the furnace wall to prevent the adhesive does not melt in the furnace wall, can not leave no response pathway in the center, cut off response . Ring paved, and then add a second fight charge, installed after the material surface charge from the edge of the stove should not be less than 500mm, to prevent splash spill response.
Centre in charge to make a pit surface, add the mixture and then firing into the ignition material in the rock drill rod, so that material with the lower part of the ignition charge connected. Fire after ignition mall agent magnesium shavings add 100g, put right after the exhaust hood with a fire lit, the reaction automatically.
Change reaction is started by the Centre down and spread to the surrounding. Normal response time of less than 10 minutes. The first 1 / 4 time, moderate reaction; strong response in the middle of a period of time, emit large amounts of brown smoke, there is a slight boil and splash phenomenon; in the post 1 / 4 time reaction is slowed down, bright flame, smoke slowed, the reaction at the end of there was light.
Smelting process is the normal signs:
(1) reacted strongly to a strong gas discharge, the reaction in the non-stop, no splash, the end of reaction was, no prolonged phenomenon, the reaction after the gas light up refreshed;
(2) put scum slag flow is better, a little bonding phenomenon. After cooling, residue tank scum surface projections, shiny, dark green slag.
(3) pulled up tube furnace slag when pulling wire phenomenon, molybdenum iron ingots to the concave top Java Micro cap.
(4) response time within 2-10 minutes.
Smelting process is not normal, causes, consequences and treatment methods are:
- Other phenomena normally, but a lot of splashing. This is due to charge excessive humidity or heat units, or wet sand caused by litter. This phenomenon is likely to cause leakage of furnace or splash assault charge, so that the high silicon alloys. If the heat is too high, we must reduce the aluminum particles to increase the amount of ferrosilicon powder blended with; charge or sand nest if it is wet, it is necessary to solve the dry charge and sand litter problem.
- reaction is too intense, a lot of splash, the reaction time is very short end of the fast; the end of bright smoke, slag viscosity, color blue and green, remove the kind of small molybdenum easily broken after cooling, was the section of bright stars silver. This is a reducing agent over the performance of high silicon molybdenum alloy often leads to the end, then blended with the need to reduce the amount of reducing agent, usually each batch of material to reduce 0.3-0.7kg.
- reaction smoothly, the reaction stopped, and dark brown smoke rose slowly. Long reaction time and prolong the obvious conclusion. After pulling furnace, molybdenum iron ingot surface slag surface bubbles, and a flaming phenomenon. Molybdenum is not cold in the remove small pieces of iron ingots molybdenum sample is cooled, then hung dark brown surface scum, hard like a small molybdenum, section irregular, grayish black. This is a reducing agent enough. This will lead to higher molybdenum alloys, silicon is low (less than 0.05%), molybdenum iron ingots layered, cooling easily rust, finishing problems, high molybdenum slag, metal particles and more time must be increased reducing agent, usually each batch of material to increase 0.2-0.5kg.
- the slow reaction, no obvious normal gas, the reaction time is long. This is the charge of insufficient heat. This often leads to high molybdenum alloys, silicon is high, iron ingots, or segregation of reaction layer 30 minutes after sedation metal particles settling time to ensure that the residue at 0.35% molybdenum. Mouth open slag, slag into the slag pot, sampling and analysis of molybdenum content. 0.35% higher than the rich to return smelting slag. Residue can be discarded or poor utilization. After discharge residue, pull tube furnace, with iron scoop from the sand on the base metal ingot iron samples taken. Alloy surface is smooth, the microstructure green residue, the fracture was dense silver, crystal fine, no bright stars, marking the molybdenum iron of good quality. Normal alloy, slag composition range is as follows. , Then to check the charge particle size, composition and oxygen content, and then adjust the ingredients according to specific ratio.
Reaction for 30 minutes after the end of the metal particles calm settling time to ensure that the slag at 0.35% molybdenum. Mouth open slag, slag into the slag pot, sampling and analysis of molybdenum content. 0.35% higher than the rich to return smelting slag. Residue can be discarded or poor utilization. After discharge residue, pull tube furnace, with iron scoop from the sand on the base metal ingot iron samples taken. Alloy surface is smooth, the microstructure green residue, the fracture was dense silver, crystal fine, no bright stars, marking the molybdenum iron of good quality. Normal alloy, slag composition range is as follows.
5.the alloy and slag composition
Molybdenum iron content |
Mo |
Si |
C |
S |
P |
Cu |
Su |
Sb |
As |
Pb |
% |
59-61 |
0.5-1.0 |
0.05-0.10 |
0.05-0.08 |
0.03-0.04 |
0.1-0.5 |
0.01-0.04 |
0.01-0.04 |
0.01-0.02 |
0.0001-0.005 |
Slag composition |
Mo |
SiO2 |
MgO |
Al2O3 |
FeO |
CaO |
S |
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% |
0.01-0.35 |
58-63 |
1.0-2.0 |
11-15 |
16-24 |
3-5 |
0.01-0.03 |
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Alloy ingots nest in the sand to cool 7-8h, with a special fixture from iron. Sintering in the sand to scrape the bottom of the ingot, ingots to use a rake turned down the upper residue cover, residue cover the upper part of ingots to use a rake turned down, and then compressed air to slag Chuijin. Cooling water in the tank 30min, water-cooled alloy easy natural burst finish. To prevent rust alloy water-cooled, water-cooled hard time too long, the center has to be terminated when the red hot water, natural cooling, the alloy by its own heat drying the residual moisture.
Finishing before the alloy samples taken for analysis, because the alloy ingots with segregation, so the method of sampling should be the following: the metal ingots were divided into three equal portions, taken in three equal portions of metal line column, and then in the metal column , since the center column to the edge of the column in the order 4,3,2, respectively, even taking a sample, a total of nine samples, and then mixing, each sample weight of approximately 200g, iron ingots containing molybdenum segregation may not exceed ± 3%. Segregation of alloy composition, carbon and sulfur segregation is not only the center of a little high. Greater segregation of molybdenum with silicon and molybdenum content in the ingot bottom 2% higher than the upper, while the center of a slightly higher silicon content in the upper and middle parts of the maximum difference of about 0.7%. These instructions segregation is extremely serious. In addition to finishing when the residue on the fight to the alloy and slag inside, the alloy ingots but also to the 40-50mm broken only after packaging.
1t55% Mo standard smelting iron unit consumption of molybdenum: molybdenum (translated by 45% Mo, molybdenum recovery is 98.33%) 1213kg; 75% ferrosilicon 339-350kg; iron scale 250kg; steel scrap 260-270kg; aluminum tablets 45-60kg; fluorite 30kg; saltpeter 40kg.
Improve the recovery of molybdenum is to improve the economic efficiency of the fundamental measures of iron molybdenum. Molybdenum production losses caused by smoke is the main way away loss and slag losses. Molybdenum in the flue gas mainly in the form of molybdenum oxide dust; slag mainly of molybdenum in the form of metal particles. At present, some manufacturers use a large bag filter to recover the molybdenum metallurgical dust, with good results. Molybdenum slag can be used in the method of re-election or magnetic separation to recover. To maximize the production of the molybdenum metal particles settling down from the slag, which requires a low melting point slag, not sticky. Therefore, if the FeO content of slag remain at 16% or more, and to a slight excess of reducing agent in charge, with enough heat.
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