CN86100805A - The heat preservation agent on surface, deposite metal - Google Patents
The heat preservation agent on surface, deposite metal Download PDFInfo
- Publication number
- CN86100805A CN86100805A CN86100805.7A CN86100805A CN86100805A CN 86100805 A CN86100805 A CN 86100805A CN 86100805 A CN86100805 A CN 86100805A CN 86100805 A CN86100805 A CN 86100805A
- Authority
- CN
- China
- Prior art keywords
- ore powder
- rice husk
- metal
- exothermic mixture
- heat preservation
- 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.)
- Withdrawn
Links
Images
Landscapes
- Continuous Casting (AREA)
Abstract
The present invention is the fever type heat preserving agent, can be applicable to the metallurgical casting field.It is primary raw material that the present invention adopts carbonization rice husk, allocates a certain proportion of oxidant into, replaces the original expensive metal exothermic mixture such as aluminium that contains; It is short to have overcome virgin metal exothermic mixture fever time, and temperature fluctuation range is big, the shortcoming that heat-insulating property is bad; Price is cheap more than the metal exothermic mixture, has the heating equilibrium, longer duration, characteristics such as no dust and pernicious gas pollution.This novel heat preservation agent is used for steel ingot and metal casting casting cycle, can significantly reduce the steel ingot shrinkage cavity, improves steel ingot recovery rate and casting qualified rate.
Description
The invention belongs to metallurgical field of metal casting technology, be used to cover molten iron or molten steel surface, in teeming or mechanical foundry goods process, play heating and insulation effect.
For improving steel quality and improving recovery rate of iron, when casting finishes, need to add exothermic mixture or heat preserving agent at steel ingot or foundry goods cap mouth.Since the beginning of the eighties, domestic steel mill extensive use metal mold exothermic mixture (clear 59-153549, su1072-992-A), mainly be made up of following three kinds of raw materials: combustion heating element, oxidant and insulation material by this exothermic mixture.The combustion heating element is metallic aluminium, Antaciron and calcium-silicon.Oxidant generally uses sodium nitrate, manganese ore powder and Iron Ore Powder.What the insulation material use was more is expanded perlite, vermiculite and acid treatment graphite.Preparation method is respectively to get one or more (with powder shapes) to mix by a certain percentage from these three kinds of raw materials.The consumption and the price of used metal and acidifying graphite are listed in table 1.
Table 1. exothermic mixture primary raw material consumption and price list
The name of an article | Price * | Content in the exothermic mixture (wt) % |
Aluminium | 5300~6000 | 8~27 |
Antaciron | 1760 | 10~70 |
Calcium-silicon | 3200 | 5~15 |
Acidifying graphite | 2700~3600 | 5~9 |
*Market price in 1985
As can be seen from Table 1, the combustion heating element in the exothermic mixture is expensive metal or alloy.The Antaciron exothermic mixture that price is relatively cheap can cause ingot head to increase silicon during use, seriously influence steel product quality.So general steel mill adopts the aluminum metal exothermic mixture of higher calorific value.Metallic aluminium not only costs an arm and a leg but also is national goods and materials in short supply.An enterprise that produces 3000000 tons of steel per year, the aluminium that only is used for exothermic mixture in 1 year can reach 540 tons to 900 tons (with 15%Al in the exothermic mixture, consumption is 1.2Kg~2.0Kg/ ton steel meter).This shows that the iron and steel enterprise in the whole nation only is used to generate heat and will burns the metallic aluminium of considerable quantity.
In addition, the moment burning of being heated during the use of metal exothermic mixture, process is difficult to control.Insulation material vermiculite and expanded perlite etc. are because fusing point is low, vitreous clinker when metal burning, and lose the effect of insulation.The best expanded graphite of heat-insulating property is that acidifying graphite is that graphite cleans behind sulfuric acid and nitric acid mixed liquid dipping, dries and make.This raw material complex manufacturing technology, environmental pollution is serious, and price is expensive.
The steel plant that have in the industrial production are at ladle and ladle or ingot head opening interpolation heat preserving agent.This heat preserving agent mainly is made up of following raw material: expanded vermiculite, coke, graphite, carbonization rice husk etc. (according to 53-100919).This class heat preserving agent only plays insulation effect basically on the liquid metals surface.Though wherein Main Ingredients and Appearance such as coke and carbonization rice husk is a combustible element carbon, owing to there is not oxidant combustion-supporting, calorific capacity is very low, and result of use is not good, especially when being used for middle-size and small-size steel ingot casting.
The objective of the invention is under the prerequisite that guarantees to satisfy to liquid metals surface heat supply and insulation, to reduce the cost of exothermic mixture, reduce metallurgical consumption with aluminium and other alloy materials.Use aboundresources, process simple and easyly, the honest and clean work of cheap carbonization rice husk generates heat and insulation material, thus the substituted metal exothermic mixture.
The present invention is base stock with the carbonization rice husk, allocate a certain amount of oxidant (as potassium nitrate, sodium nitrate, manganese oxide, manganese ore powder, Iron Ore Powder or iron oxide dust etc.) and plant binding agent into, dry after drying or make any needed shape after adding suitable quantity of water (wetting state) is mixed, bake out temperature is 120~160 ℃, places the liquid metals surface can play heating and insulation effect the present invention during use.
The base stock carbonization rice husk is that rice husk is put into specific simple mechanism, gets by self-heating destructive distillation carbonization.Its preparation method is simple, the source of not consuming energy.China abounds with rice, and the rice husk source is abundant, cheap.The composition of about 600 yuan/ton carbonization rice husk is as shown in table 2.
Table 2. carbonization rice husk composition
Composition | Total carbon | SiO 2 | S | Volatility |
Content (wt) % | 33.40 | 60.58 | 0.092 | 5.38 |
The used binding agent of the present invention selects for use the source abundant, low price, and the plant binding agent that nontoxic nothing is smelt during use is as ground rice, flour and starch etc.
The preparation method of heat preservation agent of the present invention is: add one or two or more kinds oxidant (wt%): NaNO in carbonization rice husk
3(or KNO
3) 0.1~30, manganese ore powder (or oxidation manganese powder) 0~35, Iron Ore Powder (or iron oxide dust) 0~40.With plant binding agent 0.1~20%, add suitable quantity of water (wetting state) again and in batch mixer, mix, make oxidant be wrapped in the carbonization rice husk outside equably, if product requirement is the shape form of loosing, material comes out just can directly dry from batch mixer.If product requirement is tabular or other forms, then the carbonization rice husk of mixed oxidant and binding agent is sent in the make-up machine, (as certain ingot head opening size dimension) makes the tabular of 5~400mm or its shape that needs on request.Discharge for ease of metal bath surface gas, some pores are arranged on the large-area plate.Carbonization rice husk goods after the moulding are drying again.Bake out temperature is 120~160 ℃.
During use the present invention is placed the surface, deposite metal, binding agent is burnt under the high temperature, and carbonization rice husk covers the molten metal surface just fluffyly.Permeate sodium nitrate in the carbonization rice husk inner pore etc. attached to the oxidant of carbonization rice husk outside and owing to being dissolved in water, decomposes discharge oxygen as
Make the carbon burning in the carbonization rice husk, perhaps take place redox reaction as
And emit heat.The calorific capacity that records the pure carbon rice husk with bomb method is 2575 kilocalories/kilogram, and table 3 is listed the calorific capacity of carbonization rice husk and some metal exothermic mixtures.
Table 3. metal exothermic mixture and pure carbon rice husk calorific capacity
The heating composition, % | Calorific capacity (kilocalorie (bomb method measured value) | ||
Si | Al | The C powder | |
25 | 5 | 15 | 1874 |
20 | 10 | 15 | 1748 |
20 | 10 | / | 1591 |
The pure carbon rice husk | 2575 |
As seen had under the situation of sufficient oxygen by table, the calorific capacity of carbonization rice husk can match in excellence or beauty with the metal exothermic mixture fully, to satisfy the needs to deposite metal surface heat supply.Keep loose SiO after the carbon burning
2Play insulation effect.Because the carbonization rice husk hole is many, thermal conductivity is little, and when the carbonization rice husk of contact melting metal burnt, the unburned carbonization rice husk in top had good heat-insulating property, has stoped the heat of burning and deposite metal outwards to be distributed.Because oxidant is bonded on the carbonization rice husk equably, thereby has guaranteed that oxygen supply is even in the combustion process, makes the carbonization rice husk layering to the top smoulder.So just can be according to the addition that increases or reduce oxidant, and the proportioning of regulating different oxidants, heating of the present invention and heat-insulating property controlled effectively.
Metal exothermic mixture with heat preservation agent of the present invention and pure carbon rice husk and different heat element has carried out the contrast experiment in induction furnace.When different exothermic mixtures or heat preserving agent are placed in the molten iron surface, the variation of 3-5mm depths, measuring distance molten iron surface molten iron temperature, as shown in drawings.Curve 1 is heat preservation agent of the present invention among the figure, experiment consumption 25 grams, and curve 2 is the pure carbon rice husk, experiment consumption 25 grams.Curve 3 is containing metal aluminium 13-16(wt) the metal exothermic mixture of %, the experiment consumption is 50 grams.Curve 4 is for containing ferrosilicon powder 60(wt) the metal exothermic mixture of %, the experiment consumption also is 50 grams.Testing 1290 ℃ begins exothermic mixture (or heat preserving agent) is dropped into the molten iron surface, under the situation of heat of stopping power supply, observe molten iron surface cooling process, experiment finishes during to 1190 ℃, and be recorded in these 100 ℃ of various heatings of temperature descending section (insulation) required time of agent, time is long more, illustrates that its heat insulation effect is good more.By accompanying drawing as seen, comprehensive heat preservation effect of the present invention is best.Behind heat preservation agent contact molten iron, both do not resembled the absorbing and cooling temperature peak value that occurs being harmful to the ingot casting process the aluminum metal exothermic mixture, no-good high thermal peak does not appear yet, and process is the smoulder heating.This heat preservation agent is than the high insulating effect of metal exothermic mixture ( curve 3 and 4).Compare with the pure carbon rice husk (curve 2),, cause the molten iron surface temperature higher 50~70 ℃ than the molten iron temperature under the pure carbon rice husk thermal insulation because the present invention has heating functioin.
Therefore, fully can the substituted metal exothermic mixture with the carbonization rice husk of oxidant, thus can save a large amount of metallic aluminiums and other alloys, reduce the cost (can reach 50%) of exothermic mixture significantly.And heating effect of the present invention obviously is better than the pure carbon rice husk thermal insulation agent, enlarged the scope of application of carbonization rice husk.
Use heat preservation agent of the present invention, can satisfy on the surface, deposite metal and play the heat preservation effect.The phenomenon of not smoldering in the use, combustion process is stable, no dust and pernicious gas pollution.Can the same remarkable minimizing steel ingot with the metal exothermic mixture and foundry goods shrinkage cavity, improve steel ingot recovery rate and casting qualified rate.
The present invention can be used for covering ladle, ladle, continuous casting tundish, the heat preservation effect is played on the ingot head opening and the surface, mechanical foundry goods cap mouth deposite metal of cast steel down.
Example 1(wt%)
Carbonization rice husk 75
NaNO
33
Manganese ore powder 8
Iron Ore Powder 12
Plant binding agent (as potato starch) 2
After adding suitable quantity of water mix in batch mixer in the aforementioned proportion mixture, place 120~160 ℃ of oven dry beds to go up baking half an hour, the weighing pack of cooling back drops into the surface, deposite metal during use.Use amount is 40~70% of a virgin metal exothermic mixture.
Example 2(wt%)
Carbonization rice husk 80
NaNO
35
Plant binding agent (ground rice 2, starch 3) 5
The aforementioned proportion mixture adds water in batch mixer, mix after, according to needed shape and size, in make-up machine, make the thick grain slice of 5~400mm or tabular, also can be made into the tabular of ingot head opening size dimension, have pore some on the plate.Drop into during use or give and hang over the cap mouth earlier.
Claims (3)
1, the heat preservation agent on surface, a kind of deposite metal, it is characterized in that with the carbonization rice husk being Main Ingredients and Appearance, oxidant (as potassium nitrate, sodium nitrate, manganese oxide, manganese ore powder, Iron Ore Powder, iron oxide dust etc.) and the plant binding agent (as ground rice, flour, starch etc.) of allocating one or more into add water and are mixed and made into.
2, by the described heat preservation agent of claim 1, it is characterized in that the oxidant consumption of allocating into is: sodium nitrate (or potassium nitrate) is 0.1~30%(weight), manganese ore powder (or manganese oxide) is 0~35%(weight), Iron Ore Powder (or iron oxide dust) is 0~40%(weight).
3, a kind of method for preparing heat preservation agent, it is characterized in that adopting carbonization rice husk is Main Ingredients and Appearance, allocate one or more oxidants into (as sodium nitrate, potassium nitrate, the manganese ore powder, manganese oxide, Iron Ore Powder, iron oxide dust) its amount is: sodium nitrate (or potassium nitrate) is 0.1~30%(weight), manganese ore powder (or manganese oxide) is 0~35%(weight), Iron Ore Powder, or iron oxide dust) is 0~40%(weight), adding suitable quantity of water mixes in batch mixer, or make different shape and size on demand after mixing, under 120~160 ℃ of conditions, dry then.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN 86100805 CN1007044B (en) | 1986-02-03 | 1986-02-03 | Melted metal surface heat-generating isolation agent |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN 86100805 CN1007044B (en) | 1986-02-03 | 1986-02-03 | Melted metal surface heat-generating isolation agent |
Publications (2)
Publication Number | Publication Date |
---|---|
CN86100805A true CN86100805A (en) | 1987-01-31 |
CN1007044B CN1007044B (en) | 1990-03-07 |
Family
ID=4801208
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN 86100805 Expired CN1007044B (en) | 1986-02-03 | 1986-02-03 | Melted metal surface heat-generating isolation agent |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN1007044B (en) |
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102757240A (en) * | 2011-04-25 | 2012-10-31 | 宝山钢铁股份有限公司 | Heating panel used in steel ingot head heat insulation |
CN102825224A (en) * | 2012-07-31 | 2012-12-19 | 马鞍山科润冶金材料有限公司 | Composite heat generating agent for weathering steel |
CN107685140A (en) * | 2017-09-08 | 2018-02-13 | 河钢股份有限公司承德分公司 | A kind of method for reducing tundish covering flux consumption |
-
1986
- 1986-02-03 CN CN 86100805 patent/CN1007044B/en not_active Expired
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102757240A (en) * | 2011-04-25 | 2012-10-31 | 宝山钢铁股份有限公司 | Heating panel used in steel ingot head heat insulation |
CN102825224A (en) * | 2012-07-31 | 2012-12-19 | 马鞍山科润冶金材料有限公司 | Composite heat generating agent for weathering steel |
CN107685140A (en) * | 2017-09-08 | 2018-02-13 | 河钢股份有限公司承德分公司 | A kind of method for reducing tundish covering flux consumption |
Also Published As
Publication number | Publication date |
---|---|
CN1007044B (en) | 1990-03-07 |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN104308085B (en) | Heat preservation riser buss | |
CN100431738C (en) | Boron nitride composite paint for precise invested mold casting of titanium and titanium alloy | |
US2568157A (en) | Process of making refractory bodies | |
CN101597700A (en) | The additive and the methods for making and using same thereof that are used for smelting aluminium alloy | |
CN110541101B (en) | Aluminum-vanadium-tungsten intermediate alloy and preparation method thereof | |
US2599185A (en) | Refractory body | |
CN86100805A (en) | The heat preservation agent on surface, deposite metal | |
CN1302704A (en) | Granular insulating agent for covering cover ladle | |
GB1489600A (en) | Smokeless exothermic hot topping compositions | |
US3079266A (en) | Process for the manufacture of refractory materials and resultant product | |
CN103121099B (en) | Amorphous boron contained sliding nozzle refractory brick made by combing unfired metal with aluminum, carbon and zirconium materials and production method thereof | |
CN110306093A (en) | A kind of high-performance heat retaining and exothermal material and preparation method thereof | |
JPS6119597B2 (en) | ||
CN102784905B (en) | Al-Ti-C-Er refiner and preparation method | |
CN1032754A (en) | High-strength insulation rising head class material and manufacturing process | |
SU593818A1 (en) | Exothermal sand for raising the temperature of the riser portion, particularly, of large steel castings | |
CA1046249A (en) | Method for constructing a runner for metal melting furnace | |
SU590301A1 (en) | Lining compound | |
CN102962445B (en) | Baking-free long water gap for large-plate-blank continuous casing low-carbon and low-silicon steel and preparation process of baking-free long water gap | |
CN102757240B (en) | Heating panel used in steel ingot head heat insulation | |
CN113732273B (en) | Environment-friendly riser heat-insulating agent and preparation method thereof | |
SU607822A1 (en) | Charge for manufacturing refractories | |
CN114380581A (en) | Silicon nitride iron mullite silicon carbide brick for silicon-manganese alloy bag and preparation method thereof | |
SU804200A1 (en) | Exothermic mixture for heating casting heads | |
SU742032A1 (en) | Heat-isolating sand for making briquettes |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
C10 | Entry into substantive examination | ||
SE01 | Entry into force of request for substantive examination | ||
C06 | Publication | ||
PB01 | Publication | ||
C13 | Decision | ||
C14 | Grant of patent or utility model | ||
C19 | Lapse of patent right due to non-payment of the annual fee |