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Offline christinawang  
#1 Gönderildi : 8 Mart 2022 Salı 09:25:10(UTC)
christinawang


Sıralama: Üye

Madalyalar: Yeni üye: 10

Katılan: 8.3.2022(UTC)
Mesajlar: 60
China
Konum: Zhengzhou City, Henan Province, China

Granular Refining Flux America Aluminium purification is both environmentally friendly and economical, and meets the requirements of aluminum alloy precision casting production with high added value and high technical performance for aviation and transportation.
The refining agent is sprinkled on the liquid surface, and is quickly pressed into the aluminum liquid. After being fully stirred, it is allowed to stand and slag. If it is sprayed, the refining agent is sprayed into the aluminum liquid with an inert gas.
Refining Flux America Aluminium is applicable to commonly used aluminium alloys (alloys with high magnesium content and aluminum-magnesium alloys), scrap aluminum recycling and pure aluminium smelting, degassing refining, and slag removal.
Alcoa is the world's leading manufacturer of alumina, electrolytic aluminum, and aluminum processed products. Its products cover aerospace, automotive, packaging, construction, commercial transportation, consumer electronics and other markets.
In terms of scrap aluminum recycling, Alcoa’s casting operations are produced by recycling externally purchased scrap. Its EcoDura aluminum contains at least 50% of scrap aluminum, while the recyclable content of the aluminum strip produced by Warwick is 38.3% in 2020, compared to the same period last year. An increase of 9.9%. It is reported that in 2020, Alcoa consumed approximately 123,000 tons of scrap aluminum in its global operations.
In terms of product technology research and development, Alcoa’s global alumina plant investment portfolio has the lowest carbon footprint among global producers. It currently intends to reduce the greenhouse gas emission footprint of the aluminum smelting process through process improvement and portfolio evaluation, including the proportion of renewable energy in the energy consumption of smelters will increase from 78% in 2020 to over 85% in 2025. At the same time, Alcoa is studying the use of solar heat to provide heat to replace fossil fuels, and its refining business is also working to decarbonize the alumina refining process.
In terms of international cooperation, Alcoa is actively supporting and participating in the work of the International Aluminum Association (IAI) to identify ways and opportunities for industrial decarbonization.
Sponsor
Offline christinawang  
#2 Gönderildi : 8 Mart 2022 Salı 09:31:29(UTC)
christinawang


Sıralama: Üye

Madalyalar: Yeni üye: 10

Katılan: 8.3.2022(UTC)
Mesajlar: 60
China
Konum: Zhengzhou City, Henan Province, China

Refining Flux for Russia Aluminium is mainly used to remove the hydrogen inside the aluminum liquid and the floating oxidized slag, so that the aluminum liquid is more pure and has the function of clearing slag.
Refining Flux for Russia Aluminium is a white powder or granular flux, which is prepared by drying a plurality of inorganic salts and mixing them in a certain ratio, and is mainly used for removing hydrogen and floating oxidized slag inside the aluminum liquid.
Some components in the Aluminium Casting Flux are easily decomposed at high temperature, and the generated gas is easy to react with hydrogen, and has strong adsorption force with slag and quickly escapes from the melt. The other components have a slag-removing agent effect.
RUSAL is one of the large and thriving companies in Russia and one of the leading companies in the world's aluminum industry. The company unites the most powerful companies in the aluminum industry in Russia and abroad, forming a full production process company from raw material mining and processing to primary aluminum, semi-finished products, alloy aluminum and finished aluminum.
In terms of environmental protection, RUSAL's strategy to reduce greenhouse gas emissions includes effective treatment of production waste, development of carbon-free technology for aluminum production based on inert anodes, and a five-year large-scale afforestation project. At the same time, since 2007, the Krasnoyarsk Aluminum Smelter has been working hard to reduce greenhouse gas emissions, such as being equipped with modern two-stage gas purification equipment. In addition, RUSAL has also taken over the planting and care of 1 million pine trees on 250 hectares of land in the Krasnoyarsk region and Irkutsk Oblast, and has carried out atmospheric protection work in the forestry field of Kuradinsky. More than 600,000 hectares.
In terms of product technology research and development, in 2017, RUSAL launched its new low-carbon aluminum brand "ALLOW". The individual greenhouse gas emissions of this brand are far below the average carbon footprint of the industry, with an average carbon footprint of 2.4 tons of carbon dioxide per ton of aluminum. Equivalent, in line with the ever-changing market demand for low-carbon aluminum.
At the same time, RUSAL tested a pilot industrial electrolysis cell with an inert anode, which has an improved design and record low carbon emissions; RUSAL also started the electrolysis production line at the Poguhansky Aluminum Plant, relying on its advanced With its technology and the advantages of all hydropower, it can provide high-quality and low-carbon footprint aluminum ingots for remelting.
On January 18, 2021, Rusal proposed a goal of reducing greenhouse gas emissions by at least 35% by 2030, and a goal of achieving net zero emissions by 2050. These goals cover all emissions from all businesses, including aluminum production and thermal power production.
Offline christinawang  
#3 Gönderildi : 8 Mart 2022 Salı 09:33:14(UTC)
christinawang


Sıralama: Üye

Madalyalar: Yeni üye: 10

Katılan: 8.3.2022(UTC)
Mesajlar: 60
China
Konum: Zhengzhou City, Henan Province, China

AdTech slagging fluxes are white powdery fine particles, the main components are chloride salt and fluoride salt, and other compounds. After proper heating treatment and sieving, the particle size is uniform. It can be carried out with gas in a refining tank. It can also be sprayed directly into the surface of the molten metal by hand, and stir evenly to enter the impurity separation effect. It is environmentally friendly and economical, and can meet the production of high value-added, high-tech performance aluminum alloy precision castings such as aviation and transportation.
AdTech slagging fluxes can reduce smoke, reduce its burning loss, the effect is significant, and it greatly reduces the molten aluminum loss during slagging.
In the era of continuous innovation in casting technology, new casting equipment and casting processes are constantly being used. Aluminum alloy slagging agents and large-scale automatic casting molding lines have been quickly promoted and used in China. At the same time, the requirements for smelting efficiency, pouring time, etc., which affect casting grades, elongation and other indicators, have also been continuously adjusted, and technological progress has also put forward new requirements for traditional casting materials.
For foundries and primary aluminum industries, we also provide refining agents, covering agents, etc. The refining agent is designed to remove alkali metals, enhance degassing, remove non-metallic inclusions, and improve the cleanliness of the overall melt and furnace. The refining flux has two forms, granular and powder. Compared with powder flux, granular fluxes are dust-free and more efficient, with a small amount of addition.
Aluminum Casting Fluxes Features
1. Increases the extrusion speed and die life when extruding profiles;
2. Reduces the number of breaks in continuous casting;
3. Eliminates edge cracks when rolling aluminum alloys;
4. Non-hazardous compound;
5. Low melting point for rapid dispersion;
6. Helps in removal of Alkali metals like Na, Ca, and Mg.
Offline christinawang  
#4 Gönderildi : 11 Mart 2022 Cuma 05:49:57(UTC)
christinawang


Sıralama: Üye

Madalyalar: Yeni üye: 10

Katılan: 8.3.2022(UTC)
Mesajlar: 60
China
Konum: Zhengzhou City, Henan Province, China

Alumina ceramic foam filter for foundry is used to filter impurities in aluminum and aluminum alloy when molten metal enters the mold. Clean liquid metal can produce higher quality castings, less scrap and fewer inclusion defects.

In recent years, Al2O3 ceramic foam filter has been developed as a new type of molten metal filter to reduce casting flow. The alumina ceramic foam filter for foundry can effectively remove the inclusions, reduce the gas in the liquid metal, and provide laminar flow, and then the filtered metal becomes cleaner.

In this research, a bentonite ceramic filter containing Al2O3 was developed instead of a honeycomb ceramic filter in order to obtain laminar flow and control the rate of molten aluminum. Use replication technology to make reticulated ceramic foam from the sponge. Bentonite is used to bind alumina particles at room temperature and sintering temperature. The number of holes per inch and the hole diameter are optimized to obtain sufficient molten aluminum flow. The surface characteristics of the ceramic filter have also been improved to control the flow rate.

Filtration is one of the most typical refined casting processes to eliminate non-metallic and intermetallic inclusions in the aluminum alloy casting process. The refining of the melt can improve the uniformity of the metal, improve the mechanical properties, remove many metallurgical defects, improve the surface of the casting and significantly improve the machinability.

The main sources of inclusions are slag metal oxidation products, refractory materials, refining agent residues, casting materials and erosion, endogenous inclusions in the metal and undissolved inoculants or alloy addition residues.

The filtration process is a complex mechanism that is affected by fluid dynamics factors such as fluid flow, turbulence, surface and physical forces, as well as chemical and metallurgical interactions between inclusions, filter media and liquid metal.

The use of ceramic foam filter for metal filtration is an effective means to control the level of inclusions. The foam filter is believed to have a unique, twisted pipe passing through its body, which traps inclusions and allows a clean laminar melt flow into the mold cavity. The ceramic foam filter has an open-cell and window structure, has a very high porosity, and a very high surface area to trap inclusions.
Offline christinawang  
#5 Gönderildi : 11 Mart 2022 Cuma 07:27:14(UTC)
christinawang


Sıralama: Üye

Madalyalar: Yeni üye: 10

Katılan: 8.3.2022(UTC)
Mesajlar: 60
China
Konum: Zhengzhou City, Henan Province, China

Aluminium Foundry Foam Ceramic Filter can effectively remove large heterogeneous impurities in liquid aluminum, and can filter out small inclusions of several microns that cannot be removed by traditional processes.

Because hydrogen atoms and other harmful ions in liquid aluminum often adsorb on the inclusions, and the inclusions can form the core of bubbles, the content of these harmful elements and gases in liquid aluminum can be reduced when the inclusions are filtered out.

Aluminium Foundry Foam Ceramic Filter filters out many small inclusions, thus reducing the effective crystal nuclei required for the solidification of liquid aluminum, which can promote the core growth of liquid aluminum under large undercooling conditions, refine the structure, and improve the product performance.

There are generally three ways to remove particles suspended in a melt

Sedimentation - Accumulation of particles at the bottom of the melt.
Float up - Inclusions float up to the surface of the melt.
Filtration - Separation of particles from the melt through a porous medium.
The alumina ceramic foam filter is installed on the CFF Filter Box to filter the liquid impurities of the aluminum alloy to cope with the high added value and high technical performance of the aluminum alloy in the precision casting production of transportation and transportation.

The quality of aluminum melt is very important, it strongly affects the performance of the next processing and the quality of the final product. Therefore, all countries in the world have great desires for the refining of aluminum melt.

Nowadays, there are many ways to remove these harmful substances and purify molten aluminum.

According to the different methods, these methods can be divided into two categories: in-furnace purification and continuous out-of-furnace treatment (that is, online treatment).

According to different functions, it can be divided into main degassing or slag removal. The use of ceramic foam filter plates can continuously filter molten aluminum. External continuous treatment, the main purification operation is slag removal.

The ceramic filter for casting has a certain strength mesh structure, which can withstand the pressure difference of the metal liquid surface and the impact of the metal flow, but it is fragile and fragile. Because this material has a precise structure, uniform quality, wide surface, and excellent filtering effect.
Offline christinawang  
#6 Gönderildi : 11 Mart 2022 Cuma 07:47:12(UTC)
christinawang


Sıralama: Üye

Madalyalar: Yeni üye: 10

Katılan: 8.3.2022(UTC)
Mesajlar: 60
China
Konum: Zhengzhou City, Henan Province, China

AdTech ceramic filter for foundry adopts a three-dimensional network structure, which is superior to the honeycomb foam type.

AdTech ceramic foam filters for casting has the advantages of high opening rate, small filtration resistance, small static difference, high surface energy, strong adsorption of heterophase, excellent thermal shock resistance, high strength, and no slag.

AdTech foam ceramic filters are widely used in aluminum filtration and purification in the aluminum processing industry, so as to improve the quality of aluminum materials. AdTech foam ceramic filters apply for the environmental protection engineering and thermal energy utilization, catalytic carriers, and other fields.

Ceramic Filter for Foundry Purification Mechanism
The filtration efficiencyis proportional to the pore size of the ceramic filter for foundry. The smaller the mesh, the stronger the ability to intercept small particles.
Deposit layer or filter cake layer effect. With the deposition of particles in the melt and the intersecting and uneven grid support, the ability to capture heterogeneous particles has improved.
The rough surface formed by the gap of the scaffold body increases the interface between the aluminum liquid and the ceramic filter. It can promote the particles in the aluminum flow, and make them more disorder, which is conducive to the capture and deposition of solid particles.
Due to the micro-cracks and pinholes on the mesh support body, fluorides with a strong affinity for particles (Al2O3) are pre-deposited. It promotes a complete filter cake layer effect and strong chemical adsorption.
Furthermore, the temperature field effect of the smelting process and the transmission process will inevitably form a difference of the alloy solute. The metal melt is redistribution --- integration --- redistribution --- integration, this is also a very good alloying process. Some high-melting metal phases and compounds re-aggregate and grow, and the fine heterogeneous phases grow and conduce to filtration and capture. This can also be explained by the changes in the concentrations of H, Al2O3, Fe phase, and Ti phase. Especially two-stage filtration or pore gradient thick plate filtration is more obvious.
Therefore, under the same preconditions, the new foam ceramic filter for castinghas a high removal rate of aluminum melt heterophase. The change of static pressure difference before and after filtration is greater with time, and the change of H content in the aluminum melt is also obvious. Of course, the smaller the ceramic filter for foundry pores, the better the cleanliness of the aluminum melt.
Offline christinawang  
#7 Gönderildi : 11 Mart 2022 Cuma 08:04:08(UTC)
christinawang


Sıralama: Üye

Madalyalar: Yeni üye: 10

Katılan: 8.3.2022(UTC)
Mesajlar: 60
China
Konum: Zhengzhou City, Henan Province, China

Ceramic Foam Filter Aluminium Foundry is mainly made of impact force and chemical corrosion resistant materials, suitable for all aluminum alloy casting.

Ceramic foam filters can improve the quality of aluminum ingots and reduce the rejection rate. They can also be used in continuous casting and rolling processes and can be manufactured in all standard sizes and different thicknesses.

In the field of national defense technology such as aerospace, the application of large aluminum alloy components is more and more, and the requirements for components are higher and higher.

In addition to ensuring its chemical composition, mechanical properties and dimensional accuracy, the casting is not allowed to have shrinkage cavity, porosity, leakage, slag inclusion and other defects.

Melt purification of aluminum alloy is one of the basic guarantee measures to produce high quality aluminum castings, and also the main means to improve the comprehensive performance of aluminum alloy.

The refining effect of aluminum alloy melt has an important effect on the formation of porosity, porosity and inclusion, and directly affects the physical, energy, mechanical properties and serviceability of aluminum castings.

Effective Ceramic Foam Filter Aluminium Foundry purification is the first prerequisite to obtain high quality aluminum alloy components.

There is no high quality aluminum alloy molten liquid, even after the metamorphic grain refinement treatment again effective, processing and forming control again advanced, high quality castings is difficult to imagine.

And once the defects exist from the beginning, even if a reasonable casting process and heat treatment process is adopted later, the defects will still stubbornly exist and be difficult to remedy.

Therefore, people attach great importance to the gases and inclusions in casting aluminum alloy melt, and take various measures to remove them.

At present, the comprehensive treatment of pure purification and homogenization of aluminum alloy melt is considered as a common technical basic problem to be solved to obtain high quality aluminum alloy.

There are many related researches, such as: various purification methods (physical and chemical) for degasification and slag removal of aluminum melt, various electric and magnetic field treatment methods for melt, study on the structure of alloy melt and the influence of melt thermal history on solidification structure, rapid solidification/powder metallurgy of aluminum alloy and so on.

At the same time, smelting, metamorphism and purification are still the main links causing environmental pollution in the process of casting aluminum alloy production.
Offline christinawang  
#8 Gönderildi : 14 Mart 2022 Pazartesi 07:54:45(UTC)
christinawang


Sıralama: Üye

Madalyalar: Yeni üye: 10

Katılan: 8.3.2022(UTC)
Mesajlar: 60
China
Konum: Zhengzhou City, Henan Province, China

After the aluminum casting is finished, the ceramic fiber cone is used to close the flow orifice. This control system has the advantages of simple structure, low price, and convenient operation.

The basic requirements for the ceramic fiber cone are:

It can safely control high-speed, high-pressure flowing liquid metal.
It can conveniently and effectively adjust the flow of metal.
No gas or inclusions will pollute the melt.
Do not cause damage to the spout of the standing furnace.
The structure is simple, the price is low, and the use is convenient.

At present, aluminum factories widely use ceramic cones to control the metal outflow at the spout of the stationary furnace.

AdTech ceramic fiber plug (tap out cone) is made from high purity alumina silicate fibers mixing with inorganic binders by vacuum forming process. This kind of manufacturing method is high production efficiency, the rate of final products is up to 99%. It is featured material evenly distributed, harder than the ordinary cone, tight blockage, non-slagging and non-stick aluminum. It is widely used in aluminum alloy melting furnaces to control the production flow of molten aluminum.

The tap out cone is an excellent product used to control the production flow of molten aluminum in aluminum alloy melting furnaces. The ceramic fiber tap-out cone is very smooth and its dimensions are precise. The raw materials of the ceramic fiber tap-out cone are all imported from world-leading companies which makes it has good hardness and toughness.

Ceramic tap out cones are used to cover and protect taphole plugs used in furnaces for melting aluminum alloys. The cones are disposable and are recommended for one-time use.

AdTech Ceramic Tap Out Cones Advantage

Maintain strength throughout the application.
A textured exterior surface minimizes tearing during insertion.
Resilient composition ensures a tight fit between the tap hole plug and the tap block.
Do not burn, smoke, or degrade.
Offline christinawang  
#9 Gönderildi : 14 Mart 2022 Pazartesi 08:39:58(UTC)
christinawang


Sıralama: Üye

Madalyalar: Yeni üye: 10

Katılan: 8.3.2022(UTC)
Mesajlar: 60
China
Konum: Zhengzhou City, Henan Province, China

Ceramic Foam Filter Aluminium Foundry is mainly made of impact force and chemical corrosion resistant materials, suitable for all aluminum alloy casting.

Ceramic foam filters can improve the quality of aluminum ingots and reduce the rejection rate. They can also be used in continuous casting and rolling processes and can be manufactured in all standard sizes and different thicknesses.

In the field of national defense technology such as aerospace, the application of large aluminum alloy components is more and more, and the requirements for components are higher and higher.

In addition to ensuring its chemical composition, mechanical properties and dimensional accuracy, the casting is not allowed to have shrinkage cavity, porosity, leakage, slag inclusion and other defects.

Melt purification of aluminum alloy is one of the basic guarantee measures to produce high quality aluminum castings, and also the main means to improve the comprehensive performance of aluminum alloy.

The refining effect of aluminum alloy melt has an important effect on the formation of porosity, porosity and inclusion, and directly affects the physical, energy, mechanical properties and serviceability of aluminum castings.

Effective Ceramic Foam Filter Aluminium Foundry purification is the first prerequisite to obtain high quality aluminum alloy components.

There is no high quality aluminum alloy molten liquid, even after the metamorphic grain refinement treatment again effective, processing and forming control again advanced, high quality castings is difficult to imagine.

And once the defects exist from the beginning, even if a reasonable casting process and heat treatment process is adopted later, the defects will still stubbornly exist and be difficult to remedy.

Therefore, people attach great importance to the gases and inclusions in casting aluminum alloy melt, and take various measures to remove them.

At present, the comprehensive treatment of pure purification and homogenization of aluminum alloy melt is considered as a common technical basic problem to be solved to obtain high quality aluminum alloy.

There are many related researches, such as: various purification methods (physical and chemical) for degasification and slag removal of aluminum melt, various electric and magnetic field treatment methods for melt, study on the structure of alloy melt and the influence of melt thermal history on solidification structure, rapid solidification/powder metallurgy of aluminum alloy and so on.

At the same time, smelting, metamorphism and purification are still the main links causing environmental pollution in the process of casting aluminum alloy production.
Offline christinawang  
#10 Gönderildi : 14 Mart 2022 Pazartesi 09:38:16(UTC)
christinawang


Sıralama: Üye

Madalyalar: Yeni üye: 10

Katılan: 8.3.2022(UTC)
Mesajlar: 60
China
Konum: Zhengzhou City, Henan Province, China

The aluminum caster tip has a great influence on the quality of the cast-rolled strip, especially the uniformity of the velocity distribution and temperature distribution of the molten aluminum.

The aluminum slab in the casting process may have the following: defects such as the excessive thickness of defects, unqualified plate shape, hot zone, holes, cracks, coarse grain segregation, and other defects. Some of these defects are caused by the uneven distribution of aluminum melt velocity and temperature at the nozzle cavity.

The quality of the cast-rolled strip is not good, and it is shown as poor in the horizontal direction and unqualified. The main reason is that the aluminum melt at the exit of the casting nozzle has uneven speed along the width of the casting nozzle, which causes the uneven distribution of the melt along the axial direction of the casting roll. For example, if the flow velocity in the middle of the casting nozzle outlet is too large, the middle of the casting roll will expand locally, resulting in excessive convexity of the casting roll.

Hot strip is a defect in the aluminum melt casting-rolling zone, which is not completely solidified in some areas, it is brought out by the casting-rolling roller. The holes are generated in the upper half of the cross section of the cast billet, and extend along the longitudinal direction of the billet, forming a white channel on the billet surface where the holes are generated. Some of this white way is in a fixed position, continuous. Some move laterally on the surface of the strip, and sometimes two laterally moving white channels will merge into one, and a hole appears at the meeting point. There are many reasons for the occurrence of hot spots/holes, but the lateral distribution of the melt temperature at the exit of the nozzle is uneven, and the partial non-solidification of the cast billet is also one of the reasons for the defects.

As we all know, in the aluminum foil processing industry, the processing of ultra-thin aluminum foil is difficult. However, it is more difficult to produce ultra-thin aluminum foil with cast-rolled billets, which requires a very strict internal quality of cast-rolled billets. The structure of the aluminum caster tip nozzle directly affects the uniformity of the transverse mass distribution of the cast plate, so that local quality defects of the cast plate and strip are prone to occur during the production process, which affects the deep processing performance of the aluminum foil, and even directly causes the product to be scrapped.
Offline christinawang  
#11 Gönderildi : 14 Mart 2022 Pazartesi 10:55:04(UTC)
christinawang


Sıralama: Üye

Madalyalar: Yeni üye: 10

Katılan: 8.3.2022(UTC)
Mesajlar: 60
China
Konum: Zhengzhou City, Henan Province, China

Aluminium Rotary Degassing System has high degassing efficiency and good effect. It does not affect the production process. It can improve the purity of the aluminum liquid in a short time, reduce the waste rate, increase the production efficiency, improve the mechanical properties of the castings, and enhance the competitiveness of the products. It cannot be achieved by traditional degassing methods.

The amount of dissolved hydrogen present can affect the characteristics of the resulting metal product. During the casting process, the dissolved hydrogen will affect the castability and mechanical properties of the metal product (such as bending strength, toughness, fatigue strength, maximum elongation, crash resistance, surface quality, corrosion resistance and other properties). Dissolved hydrogen can affect solidification and cause porosity in cast metal products.

Aluminium degassing unit is subject to changes in the internal structure, size and position of the box, which has a great impact on the size, quantity and distribution of refined bubbles.

The degassing medium is recommended to use 99.996% nitrogen or high-purity argon that has been dehydrated and dried.

The Aluminium Rotary Degassing System stirs the aluminum liquid through a controlled rotating silicon nitride rotor, and at the same time presses a metered inert gas into the aluminum liquid through the rotor and breaks it into tiny bubbles, so that they are evenly dispersed in the molten metal. The partial pressure of gas is zero.

Due to the high partial pressure of hydrogen in the molten aluminum, the hydrogen in the molten aluminum continuously diffuses into the bubbles, and at the same time, some non-metallic inclusions in the molten aluminum are adsorbed on the surface of the bubbles, and the useless hydrogen and some non-metallic inclusions are inert. The gas bubbles float up to the liquid surface.

When there is a special degassing filter box, these slags are isolated before pouring, and then the slag skimmer is used to remove hydrogen and remove oxidized inclusions.
Offline christinawang  
#12 Gönderildi : 14 Mart 2022 Pazartesi 11:10:22(UTC)
christinawang


Sıralama: Üye

Madalyalar: Yeni üye: 10

Katılan: 8.3.2022(UTC)
Mesajlar: 60
China
Konum: Zhengzhou City, Henan Province, China

The Ceramic Fiber Cones are made of high-quality ceramic fiber cotton vacuum forming process, which has the rigidity and strength of high temperature performance, low thermal shrinkage, high heat insulation, light weight, and good impact resistance. Ceramic fiber plug cone meets the high temperature insulation requirements of certain industrial sectors.

Due to the uncertainty of the shape of the vacuum-formed special-shaped product, ceramic fiber plug cone must be produced according to the customer's drawings.

Ceramic Fiber Cones Technical Features:

Low thermal conductivity, low heat capacity
Tough texture, strong resistance to wind erosion
Excellent construction and installation performance
Excellent thermal shock resistance and thermal stability

Ceramic Fiber Cones Application:

Industrial kiln observation hole, thermometer insertion hole
Industrial furnaces, furnace doors
Water collection tanks and chutes in the aluminum product industry
Thermal radiation insulation of civil and industrial heating equipment
Non-ferrous metal grooves, groove linings, casting covers
Connection gasket for electromechanical equipment
Ceramic fiber plug cones also refer to Vacuum Formed Tap Out Cone, Refractory Fiber Cone, Furnace Tapout Cone, Ceramic Fiber Tap, etc.

Most aluminum smelting furnaces or holding furnaces in the aluminum casting industry have aluminum nozzles, which are sealed with high-temperature ceramic fiber plugs to control the flow of aluminum water. The ceramic fiber plug is made of 1260°C high-purity ceramic fiber cotton by vacuum forming with special equipment, advanced equipment and production technology. Each ceramic fiber plug has a flat surface, and has appropriate hardness and flexibility, suitable for mechanical or manual plugging.

The ceramic fiber shaped parts are all shaped products that meet the specific production steps of certain industrial sectors. Each type of tap-out cone product needs to be made into special mold according to its shape and size. According to the performance requirements of the products, the unused bonding agents and additives are selected to meet requirements.
Offline christinawang  
#13 Gönderildi : 15 Mart 2022 Salı 07:58:54(UTC)
christinawang


Sıralama: Üye

Madalyalar: Yeni üye: 10

Katılan: 8.3.2022(UTC)
Mesajlar: 60
China
Konum: Zhengzhou City, Henan Province, China

Foundry Foam Ceramic Filters are produced on the basis of a carrier with a solid network structure and combined organic foam pores. The production process is as follows, the carrier is put into the thixotropic alumina slurry, and the square centering automatic extrusion process is adopted to make the slurry evenly deposited in the foam skeleton of the carrier, and dry and solidify.
The carrier is then fired at a high temperature of 1180°C to form the final product.

Ceramic Filters for Foundry are used to filter the impurities in the molten aluminum alloy, which helps to meet the production requirements of high value-added and high-tech aluminum alloy precision casting such as computer hard disks, PS bottom plates for printing, and cans.

With the development of science and technology and the improvement of the cleanliness of casting metal alloys and the performance of castings, a new type of foamed ceramic filter has been applied in casting production in the past 10 years, bringing quality to the filtration of molten metal. leap. High-quality foam ceramic filter plays a very important role in improving the quality of castings. It can effectively filter out the primary and secondary liquid and solid non-metallic inclusions in the metal melt, thereby reducing slag holes, improving the mechanical properties of castings, and reducing mechanical properties, improve casting surface finish, prolong machining tool life.

The filtering effect of the alumina ceramic foam filter depends on the pore size grade of the filter plate, the size and type of inclusions (density, wetting characteristics) and the speed of the molten metal passing through the filter plate.

Advantages of Foundry Foam Ceramic Filters

The filter adopts the adsorption principle, which can effectively remove the large inclusions in the molten aluminum and effectively absorb the small inclusions.
No debris falls off, effectively reducing the pollution of molten aluminum.
Excellent thermal shock resistance, improve the erosion resistance of molten metal.
Automatic flow production, 3 calibration procedures, accurate size, and close fit to the filter bowl.
Improve surface appearance and performance, purify molten aluminum.
Offline christinawang  
#14 Gönderildi : 15 Mart 2022 Salı 09:44:57(UTC)
christinawang


Sıralama: Üye

Madalyalar: Yeni üye: 10

Katılan: 8.3.2022(UTC)
Mesajlar: 60
China
Konum: Zhengzhou City, Henan Province, China

The tap out cone for aluminium casting is made of high-quality ceramic fiber cotton and made by vacuum forming. The purpose of developing this product is to support rigid products with excellent high temperature performance and self-supporting strength, ceramic fiber special-shaped parts.

In order to meet the special production needs of certain industrial sectors, each tap out cone product needs to use a special mold according to its shape and size. According to different usage requirements, different ingredients are mixed and used to meet customer needs. The refractory cone has a low shrinkage rate in the applicable temperature range, and maintains its high thermal insulation, light weight, and impact resistance.

The tap out cones are sometimes referred to as Aluminum Silicate Fiber Plugs, Insulation Plugs, Ceramic Fiber Plug, Vacuum Formed Shaped Cone.

The tap out cone for aluminium casting is made of high-quality ceramic fiber cotton through a vacuum forming process to meet certain high-temperature production links or special-shaped products and aluminum plants required for throttling in the production process of steel plants.

Each Tap Out Cone For Molten Aluminium product needs to be made into a special mold according to its shape and size, and can be made into different sizes and specifications. Good flexibility allows for better compactness, regardless of order size and quantity control.

Tap Out Cone For Molten Aluminium Performance

Low shrinkage and low thermal conductivity over the entire temperature range
High heat insulation and light weight
Resistant to wind erosion, spalling and not corroded by most molten metals
The classification temperature, physical properties and thermal properties of various products are better than or similar to the corresponding grade of fiberboard.
Ceramic Fiber Cone

Low-temperature bending≤: 0.6
Elongation at break: 1.2
Bending strength: 80
Working temperature: 600
Form: Fiber
Shape: cone
Specification: can be customized (mm)
Offline christinawang  
#15 Gönderildi : 15 Mart 2022 Salı 10:09:03(UTC)
christinawang


Sıralama: Üye

Madalyalar: Yeni üye: 10

Katılan: 8.3.2022(UTC)
Mesajlar: 60
China
Konum: Zhengzhou City, Henan Province, China

The online molten aluminum degassing system is mainly used in the processing of molten metal, and it is expected to remove gases and other impurities from the molten aluminum before further processing and depending on the specific process.

If hydrogen remains in the aluminum during the casting process, the escape of hydrogen from the solution may cause any one or more casting problems, such as twisting, peeling, blistering, or even cracking. Generally, hydrogen is removed from molten aluminum by introducing an inert gas through the molten metal. The inert gases that can be used include argon or nitrogen.

In addition to removing hydrogen through the use of inert gases, it is often desirable to remove other impurities during the refining process, and this removal may also occur during this degassing process. For example, adding a smaller amount of chlorine to an inert gas can remove various inclusions and alkali metal impurities in a relatively effective manner.

The inclusions in the molten aluminum may come from anyone or more different sources during the smelting process, and the impurities in the molten metal furnace may also come from deliberately added materials. Failure to adequately remove inclusions may cause tearing and surface defects of the rolled aluminum sheet, pinholes, and increase die to wear during the extrusion process. The filtration of molten aluminum will generally be used to further reduce inclusions in the molten metal.

The online molten aluminum degassing system usually introduces inert gas into the molten metal through a large number of bubbles, and can shear and dispersed by rotor into the molten metal, so that the inert gas saturates the molten metal.

Generally, an inert gas is introduced into the molten metal near the bottom, and bubbles are dispersed and rise to the surface of the melt, thereby desorbing the dissolved hydrogen in the process. The addition of chlorine gas may help break the bond between the molten aluminum and any unwetted inclusions in the molten aluminum, making it easier for the inclusions to attach to the rising surface.

The bubbles are floated or lifted to the molten surface of molten aluminum. An additional amount of chlorine may be added to the inert gas to chemically react with the incoming alkali metal to form a chloride salt, which also floats on the surface of the molten aluminum or the molten surface.
Offline christinawang  
#16 Gönderildi : 15 Mart 2022 Salı 10:33:07(UTC)
christinawang


Sıralama: Üye

Madalyalar: Yeni üye: 10

Katılan: 8.3.2022(UTC)
Mesajlar: 60
China
Konum: Zhengzhou City, Henan Province, China

Firing of metal foundry ceramic foam filters generally occurs above the temperature at which the glass phase of the material can be formed and combined, resulting in the required strength and corrosion resistance characteristics in the final product. Firing is usually carried out in a continuous kiln at temperatures above 1100 ° C for 1-3 hours, and the peak temperature is maintained for 15 minutes to 1 hour. Lower temperatures and shorter durations improve production efficiency. However, sufficient time and temperature must be provided to achieve the required strength and corrosion resistance of the material.

The pore size of metal foundry ceramic filters is primarily determined by the initial pore size of the polymer foam used in the process. For efficient filtration of aluminum alloy, typical primary pore sizes are 10 to 70 pores per linear inch. However, each application requires a unique pore size, which depends on the required filtration efficiency and the required filtration permeability in the foundry. The pore size is often referred to as the number of holes in a linear dimension, such as the number of holes per inch. The higher the PPI value, the smaller the cell diameter.

The open cell ceramic foam filter used in aluminum smelters was developed in the early 1970s, and in 1974 this technology was first applied on an industrial scale for the production of rolled ingots for the production of wafers and wafers. Ceramic foam filters are integral, disposable or disposable filters used for single casting.

The CFF filter pore size is 4 to 28 holes per centimeter (10 to 70 holes per linear inch), and the corresponding pore size is approximately 0.036 to 0.26 cm. Ceramic foam filters usually have a square size of 22.86 cm × 22. 86 cm x 5.08 cm (9 "x 9" x 2 ") to 66.04 cm x 66.04 cm x 5.08 cm (26" x 26 "x 2") for filter box.

A fibrous paper pad is attached to the edge of the filter plate to create a lateral compressive load to hold the filter in place in the filter bowl and prevent metal from bypassing the edge of the filter. The fibrous backing material typically has a thickness of about 0.317 cm to 0.476 cm (1/8 to 3/16 inch) and is usually composed of silicate fibers. Vermiculite is usually added to the gasket material, which expands when heated, increasing the gasket pressure.
Offline christinawang  
#17 Gönderildi : 16 Mart 2022 Çarşamba 10:28:48(UTC)
christinawang


Sıralama: Üye

Madalyalar: Yeni üye: 10

Katılan: 8.3.2022(UTC)
Mesajlar: 60
China
Konum: Zhengzhou City, Henan Province, China

Compared with the powdery refining agent, the granular flux has an improved degassing effect in front of the furnace, and the slag removal effect has been improved more obviously.

By comparing the purification effect, the application of granular flux can better guarantee the quality of the melt before the high magnesium alloy furnace.

The residual slag content after aluminum melt refining is a key indicator of the intuitive reaction flux removal ability. The slag content is determined by the PODFA method, which is the most recognized by the domestic and foreign aluminum industry.

A method for determining the content of aluminum melt slag. After treatment with powdered refining agent and granular refining agent (other conditions and parameter control ranges are the same), 6 batches of PoDFA test slag samples were taken respectively, and the residual slag content of the melt after the two flux refining treatments was compared through testing.

The oxides formed by the reaction of aluminum and aluminum alloy melts with gases in the air are mainly A1203 inclusions, and the reactions are complex. The structure of the product is also diverse, and the aluminum liquid and various gases can react to produce aluminum oxide, aluminum nitride, aluminum carbide, etc. Alumina has high chemical stability. Does not decompose in molten aluminum.

In addition to the above-mentioned inclusions, the aluminum melt may also contain inclusions such as refractory bricks, aluminium casting fluxes, and other forms of intermediate compounds in the melting furnace and ladle. In addition, during the refining process and transportation of the aluminum alloy melt, inclusions such as oxides and hearth fragments are easily brought into the aluminum melt and form inclusions. In addition, some non-oxide inclusions, such as A14C3, MgAl204, etc., will be generated during the production of electrolytic aluminum, and some undesirable primary intermetallic compounds will also appear during the aluminum alloy smelting process.

In the samples after the pretreatment of the high-magnesium aluminum alloy furnace, through the analysis of the inclusion phase database, the samples before the furnace are mainly oxides, MgAl204 and MgO, and the oxide inclusions account for more than 80%. Through the comparison of the analysis results, the impurity removal effect of the solid flux is obviously better than that of the powdered refining agent. The main reason is that the granular flux has a low melting point and reacts quickly, which is beneficial to the floating of the slag.
Offline christinawang  
#18 Gönderildi : 16 Mart 2022 Çarşamba 10:41:33(UTC)
christinawang


Sıralama: Üye

Madalyalar: Yeni üye: 10

Katılan: 8.3.2022(UTC)
Mesajlar: 60
China
Konum: Zhengzhou City, Henan Province, China

Granular aluminum flux is a new, efficient, and environmentally friendly additive. It is used in the secondary refining process of aluminum alloy smelting and aluminum alloy casting. Its main function is to remove slag (miscellaneous) in the aluminum melt, and reduce the hydrogen content and aluminum loss.

Different from the traditional powdery flux, the granular flux has obvious technical advantages and economic benefits. At the same time, in the process of reacting with the aluminum melt, the gas released by the granular flux is non-toxic and has a small amount of exhaust gas, which greatly improves the production environment.

Based on the above advantages, granular aluminum alloy flux has attracted more and more attention in the industry, and there is a tendency to gradually replace traditional powdered fluxes.

Granulated Flux is an environmentally friendly range of fluxes used for the molten metal treatment of aluminum and aluminum alloys. Powder fluxes possess certain disadvantages such as dusting during the application, toxic fume emissions. This causes health hazards to the workers and environmental problems. The powder fluxes also pose a problem of inconsistent efficiency due to the morphology of the powder. To overcome these disadvantages, dust-free granulated fluxes have been developed.

Compared with powder flux, granular flux products are dust-free and more efficient, has a small amount of addition. AdTech granular aluminum flux has two specifications: PM02 and PM06. It is white (slightly gray) granular. Using unique technology, it effectively improves the effect of metal aluminum liquid degassing, slagging and alkali metal removal, smokeless refining, and low dosage.

Granular Aluminum Flux Advantage
Increases the extrusion speed and die life when extruding profiles
2. Reduces the number of breaks in continuous casting
3. Eliminates edge cracks when rolling aluminium alloys
4. Non-hazardous compound
5. Low melting point for rapid dispersion
6. Helps in removal of Alkali metals like Na, Ca and Mg.
Offline christinawang  
#19 Gönderildi : 16 Mart 2022 Çarşamba 10:52:08(UTC)
christinawang


Sıralama: Üye

Madalyalar: Yeni üye: 10

Katılan: 8.3.2022(UTC)
Mesajlar: 60
China
Konum: Zhengzhou City, Henan Province, China

Through the application in the production of smelting aluminum alloy, the AdTech granular refining flux for smelter refining performance is better than power refining flux.

Comparing with the traditional powder refining agent in removing alkali metal, removing slag, aluminum burning loss, smoke exhaust, etc., the performance of the granular refining flux for smelter is comprehensively analyzed, the granular flux has a good slag removal (oxide, boride, and carbide) and impurity removal (alkali metal elements Na, Ca and Li) in the aluminum melt. This provides a reference for aluminum processing enterprises to choose refining process and refining agent when smelting aluminum alloy.

The principle of slag removal: when the solid particle flux is sprayed into the aluminum melt by an inert gas, the solid particles can quickly melt into droplets. Because the density of these droplets is less than that of the aluminum melt, the surface tension of the slag inclusions is smaller. It has a strong ability to wet and adsorb slag inclusions. When the slag inclusions are absorbed by the flux droplets, they float up and are expelled from the melt. At the same time, after the flux droplets float up, a liquid layer is formed to cover the surface of the aluminum melt, thereby reducing the oxidative burning loss of the aluminum melt.

The principle of impurity removal: after the magnesium ion-containing compound in the refining agent enters the aluminum melt, it will react with the alkali metal elements Na, Ca, and Li to release magnesium atoms into the aluminum alloy melt, and at the same time absorb the alkali metal elements Na, Ca, and Li are brought to the surface of the aluminum melt, thereby playing the role of removing the alkali metal.

The refining process usually uses a flux injection mechanism that is configured to introduce flux into the molten aluminum. Generally, the aluminium flux contains chlorine or a mixture of chlorine and an inert gas such as argon, and it is known that when they are combined, they help remove impurities from molten aluminum.
Offline christinawang  
#20 Gönderildi : 16 Mart 2022 Çarşamba 11:03:08(UTC)
christinawang


Sıralama: Üye

Madalyalar: Yeni üye: 10

Katılan: 8.3.2022(UTC)
Mesajlar: 60
China
Konum: Zhengzhou City, Henan Province, China

Granular refining fluxes have been used in research at home and abroad with good results. Due to the boiling effect of the N2 and CO2 generated by the reaction, the hydrogen and non-metallic inclusions will be taken out of the aluminum liquid when the bubbles float up, so the degassing effect of this mixture is good.

When refining, use a bell jar to press the Granular Refining Fluxes into the molten aluminum, and the operation is the same as when refining with chloride salt. The refining temperature is 740~750℃, and the amount is about 0.6%~0.8% of the mass of molten aluminum.

The actual amount of Granular Fluxes depends on the quality of the molten aluminum, the type of alloy, and the coverage of the molten aluminum.

The principle of the floatation method is to pass an inert gas (usually nitrogen, argon, or the gas produced by adding salts) into the aluminum liquid to produce a large number of bubbles. Since the partial pressure of hydrogen in the bubbles is zero, the difference in the partial pressure of hydrogen will continue to diffuse into the bubbles and float up out of the liquid surface. At the same time, due to the difference in wettability, the inclusions in the molten aluminum can be adsorbed on the bubbles in contact with it, and then float up and eliminated, so as to achieve the purpose of removing hydrogen and removing inclusions. According to different refining agents, the floating method is divided into nitrogen method, argon method, chlorine method and chloride salt refining method.

Nitrogen refining: Nitrogen is cheap and often used for refining aluminum alloys. But its disadvantage is: in order to prevent the formation of a large number of nitride inclusions (such as AN, Mg3N2, etc.), the treatment temperature is low (700~730℃), which limits the hydrogen diffusion ability. The experimental results show that nitrogen has high purity requirements, and the presence of trace oxygen and moisture will greatly reduce the refining effect. Some data show that 0.5% oxygen content can reduce the degassing effect by 40%.

Refining with argon: The refining temperature can be increased to 760℃, which is beneficial to enhance the hydrogen diffusion ability. In addition, the oxygen content in industrial argon cylinders is low (0.005%~0.05%), and the density of argon is 1.78kg/m3, which is higher than the density of oxygen at 1.25kg/m3. During argon refining, argon is enriched on the surface of the aluminum molten pool, which can prevent the reaction between the molten aluminum and the furnace gas, so the refining effect is better.

Chlorine refining: Although chlorine is insoluble in molten aluminum, chlorine, as an active gas, can react violently with molten aluminum and hydrogen dissolved in molten aluminum to produce gaseous HCl and AlCl3, which are insoluble in molten aluminum, and not participate. The reacted chlorine samples have a refining effect, so the refining effect is much better than nitrogen. However, chlorine is a highly toxic gas, harmful to human health, corrosive to plant and equipment, and the chlorine venting device is more complicated. Therefore, it is generally not used alone, but used in combination with Ar or N2. The refining effect is good, and it is suitable for castings with extremely strict pinhole requirements.
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