hesheng chemical
PRODUCTS
Industrial Grade Potassium Carbonate
hesheng chemical
|
HS Code |
692510 |
| Chemical Formula | K2CO3 |
| Molar Mass | 138.205 g/mol |
| Appearance | white powder or granular solid |
| Density | 2.428 g/cm³ |
| Melting Point | 891 °C |
| Solubility In Water | 112 g/100 mL (20 °C) |
| Ph Of Aqueous Solution | alkaline (around 11) |
| Odor | odorless |
| Hygroscopicity | hygroscopic |
| Stability | stable under normal conditions |
As an accredited Industrial Grade Potassium Carbonate factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | 50 - kg bags for industrial - grade potassium carbonate, well - sealed for storage. |
| Storage | Industrial grade potassium carbonate should be stored in a cool, dry, and well - ventilated warehouse. Keep it away from sources of heat and ignition. Avoid storing it near acids as they can react violently. Ensure containers are tightly sealed to prevent moisture absorption, which could affect its quality. Stack the packages neatly to facilitate handling and inventory management. |
| Shipping | Industrial Grade Potassium Carbonate is shipped in well - sealed, corrosion - resistant containers. Packaging safeguards against moisture and damage. Shipment adheres to strict chemical transport regulations to ensure safe transit. |
Competitive Industrial Grade Potassium Carbonate prices that fit your budget—flexible terms and customized quotes for every order.
For samples, pricing, or more information, please call us at +8618136850665 or mail to sales6@alchemist-chem.com.
We will respond to you as soon as possible.
Tel: +8618136850665
Email: sales6@alchemist-chem.com
Historical Development
"Examining the Historical Development of Industrial Grade Potassium Carbonate"
The ancient chemistry has not yet developed, and few people know about potassium carbonate. However, the wisdom of China has not been exhausted.
And in recent times, Western learning has gradually advanced eastward, and science and technology have changed day by day. With the rise of industry, the demand for potassium carbonate has gradually increased. Craftsmen study hard, and the process has been completed. At first, the production method was simple, and the output was limited.
Over the years, it has been continuously improved. The selection of raw materials is more refined, and the process is also becoming more complete. It is used in glass, printing and dyeing and other industries, and its effect is remarkable. Therefore, industrial grade potassium carbonate has gradually occupied a place in the forest of industry, and it has promoted the development of all things
The ancient chemistry has not yet developed, and few people know about potassium carbonate. However, the wisdom of China has not been exhausted.
And in recent times, Western learning has gradually advanced eastward, and science and technology have changed day by day. With the rise of industry, the demand for potassium carbonate has gradually increased. Craftsmen study hard, and the process has been completed. At first, the production method was simple, and the output was limited.
Over the years, it has been continuously improved. The selection of raw materials is more refined, and the process is also becoming more complete. It is used in glass, printing and dyeing and other industries, and its effect is remarkable. Therefore, industrial grade potassium carbonate has gradually occupied a place in the forest of industry, and it has promoted the development of all things
Product Overview
"Overview of Industrial Grade Potassium Carbonate Products"
Industrial grade potassium carbonate is an important product in the chemical industry. Its appearance is often white powder or granular, and the texture is pure. This product is stable in nature and is widely used in many industries.
In the glass manufacturing industry, industrial grade potassium carbonate plays a key role, which can effectively improve the transparency and strength of glass. In the printing and dyeing industry, it helps the uniform adhesion of dyes and improves the printing and dyeing effect. Its production process is rigorous, and it selects high-quality raw materials. It goes through multiple fine processes to strictly control the quality. The product has high purity, few impurities, and meets strict industrial standards. With exquisite craftsmanship and excellent quality, it meets the needs of various industries for industrial grade potassium carbonate and contributes to industrial development.
Industrial grade potassium carbonate is an important product in the chemical industry. Its appearance is often white powder or granular, and the texture is pure. This product is stable in nature and is widely used in many industries.
In the glass manufacturing industry, industrial grade potassium carbonate plays a key role, which can effectively improve the transparency and strength of glass. In the printing and dyeing industry, it helps the uniform adhesion of dyes and improves the printing and dyeing effect. Its production process is rigorous, and it selects high-quality raw materials. It goes through multiple fine processes to strictly control the quality. The product has high purity, few impurities, and meets strict industrial standards. With exquisite craftsmanship and excellent quality, it meets the needs of various industries for industrial grade potassium carbonate and contributes to industrial development.
Physical & Chemical Properties
"Kaogong Ji" says: "Things have their own properties, but workmanship has its own tricks." In this word, Industrial Grade Potassium Carbonate, its physical and chemical properties are particularly important. This product is white in color and powder or granular in shape. Its density is moderate and the texture is uniform. In terms of chemistry, it is alkaline and can neutralize with acids. In many industrial processes, it is often a key material because of its balance of stability and reactivity. Its solubility in water also varies to a specific degree. Temperature and other conditions change, and the dissolution varies accordingly. Such various physical and chemical properties are the cornerstones of its wide application in industry. Only by making good use of its properties can we make the best use of things and work skillfully.
Technical Specifications & Labeling
"Technical Specifications and Marking of Industrial Grade Potassium Carbonate (Commodity Parameters) "
Industrial grade potassium carbonate, its quality should be pure, and its color should be pure. It is better to use heavy quality, and its particles are uniform.
Look at its logo, when the content of the label and the number of purity. The content should be high, and there should be few impurities. The standard of its purity is related to the quality.
As for the specification, the amount of moisture should not exceed a certain value; the pH also has a fixed number, which is in line with the regulation. The particle size should be used as needed.
On the logo, the factory name, origin and batch are listed in detail for traceability. Therefore, it is an industrial-grade potassium carbonate product that can meet the needs of various industries.
Industrial grade potassium carbonate, its quality should be pure, and its color should be pure. It is better to use heavy quality, and its particles are uniform.
Look at its logo, when the content of the label and the number of purity. The content should be high, and there should be few impurities. The standard of its purity is related to the quality.
As for the specification, the amount of moisture should not exceed a certain value; the pH also has a fixed number, which is in line with the regulation. The particle size should be used as needed.
On the logo, the factory name, origin and batch are listed in detail for traceability. Therefore, it is an industrial-grade potassium carbonate product that can meet the needs of various industries.
Preparation Method
"The Method of Making Industrial Grade Potassium Carbonate"
Where industrial grade potassium carbonate is made, its raw materials and process are the key. Take high-quality plant ash, which is the base material. Drizzle it with water to get lye, this is the first step.
Then, put the lye into the kettle and simmer it over slow heat. In the meantime, observe its changes and adjust the fire in a timely manner. When the liquid thickens, it looks like crystallization, then stop the fire.
Its reaction step, the various substances in the lye are boiled and combined to precipitate potassium carbonate. As for the purification mechanism, by crystallizing many times, its impurities are removed to obtain pure potassium carbonate. In this way, industrial grade potassium carbonate is formed.
Where industrial grade potassium carbonate is made, its raw materials and process are the key. Take high-quality plant ash, which is the base material. Drizzle it with water to get lye, this is the first step.
Then, put the lye into the kettle and simmer it over slow heat. In the meantime, observe its changes and adjust the fire in a timely manner. When the liquid thickens, it looks like crystallization, then stop the fire.
Its reaction step, the various substances in the lye are boiled and combined to precipitate potassium carbonate. As for the purification mechanism, by crystallizing many times, its impurities are removed to obtain pure potassium carbonate. In this way, industrial grade potassium carbonate is formed.
Chemical Reactions & Modifications
"On the Chemical Reaction and Modification of Industrial Grade Potassium Carbonate"
Industrial grade potassium carbonate has unique properties and has many wonderful changes in various chemical reactions. When it encounters acid, it reacts and releases carbon dioxide gas. This is a common change. Potassium carbonate meets acid, ions collide, and new substances are reconstituted.
As for the modification method, it is often done by adding other substances and changing the temperature and pressure of its environment. After modification, its stability or increase, and the reaction activity can also be changed. If treated by special methods, potassium carbonate can be more effective in specific reactions and improve the quality and quantity of the product. This is all the wonders of chemistry. In the application of industrial-grade potassium carbonate, it is necessary to explore its reaction and modification in order to obtain its maximum benefit and help all things flourish.
Industrial grade potassium carbonate has unique properties and has many wonderful changes in various chemical reactions. When it encounters acid, it reacts and releases carbon dioxide gas. This is a common change. Potassium carbonate meets acid, ions collide, and new substances are reconstituted.
As for the modification method, it is often done by adding other substances and changing the temperature and pressure of its environment. After modification, its stability or increase, and the reaction activity can also be changed. If treated by special methods, potassium carbonate can be more effective in specific reactions and improve the quality and quantity of the product. This is all the wonders of chemistry. In the application of industrial-grade potassium carbonate, it is necessary to explore its reaction and modification in order to obtain its maximum benefit and help all things flourish.
Synonyms & Product Names
"On Synonyms and Trade Names of" Industrial Grade Potassium Carbonate "
Industrial Grade Potassium Carbonate, that is, industrial grade potassium carbonate, has many synonyms and trade names in the market. The common one is" industrial potassium carbonate ", which directly describes its uses and ingredients, is concise and clear, and is often called in the industry. There is also" refined industrial potassium carbonate ", highlighting its refining process and showing its better quality. There is also" high-purity industrial-grade potassium carbonate ", emphasizing the high purity to distinguish it from ordinary categories.
Although the names are different, they all refer to this industrial-grade potassium carbonate product. Businesses choose to use different names according to their own product characteristics and market positioning, in order to recognize their differences, attract customers and merchants, and strive to win a place in the city. This is the norm of business, so that the name of industrial-grade potassium carbonate is widely spread in the industry, and each name refers to the same thing.
Industrial Grade Potassium Carbonate, that is, industrial grade potassium carbonate, has many synonyms and trade names in the market. The common one is" industrial potassium carbonate ", which directly describes its uses and ingredients, is concise and clear, and is often called in the industry. There is also" refined industrial potassium carbonate ", highlighting its refining process and showing its better quality. There is also" high-purity industrial-grade potassium carbonate ", emphasizing the high purity to distinguish it from ordinary categories.
Although the names are different, they all refer to this industrial-grade potassium carbonate product. Businesses choose to use different names according to their own product characteristics and market positioning, in order to recognize their differences, attract customers and merchants, and strive to win a place in the city. This is the norm of business, so that the name of industrial-grade potassium carbonate is widely spread in the industry, and each name refers to the same thing.
Safety & Operational Standards
Code of Safety and Operation for Industrial Grade Potassium Carbonate
Industrial grade potassium carbonate is a commonly used chemical product. Its properties are different, related to safety and operation, and cannot be ignored.
Anyone who handles this product should take the first protection. Wear suitable protective clothing and tough gloves to prevent contact and skin damage. The eyes should also not be ignored, and the goggles must be worn to prevent them from splashing into the eyes.
When storing, it is advisable to choose a dry, cool and well-ventilated place. Do not co-locate with acids and strong oxidants to prevent chemical reactions from causing disasters. And the storage place should be clearly marked to make it clear to people at a glance.
When using, operate with caution. Take an appropriate amount, do not make excessive waste or life risk. Dissolve potassium carbonate in water, it should be poured slowly, and keep stirring to prevent local overheating splashing.
If you accidentally touch the body, quickly rinse with a lot of water, and in severe cases, seek medical attention. If it enters the eye, it should be flushed with water as soon as possible, and rush to the medical office. If you take it by mistake, do not urge vomiting, and seek medical help as soon as possible.
After the operation is completed, clean the place and dispose of the remnants properly. Wash and return the utensils used for later use.
Following this safety and operation specification can avoid danger, ensure people's safety and safety, and make industrial-grade potassium carbonate beneficial and help the industry.
Industrial grade potassium carbonate is a commonly used chemical product. Its properties are different, related to safety and operation, and cannot be ignored.
Anyone who handles this product should take the first protection. Wear suitable protective clothing and tough gloves to prevent contact and skin damage. The eyes should also not be ignored, and the goggles must be worn to prevent them from splashing into the eyes.
When storing, it is advisable to choose a dry, cool and well-ventilated place. Do not co-locate with acids and strong oxidants to prevent chemical reactions from causing disasters. And the storage place should be clearly marked to make it clear to people at a glance.
When using, operate with caution. Take an appropriate amount, do not make excessive waste or life risk. Dissolve potassium carbonate in water, it should be poured slowly, and keep stirring to prevent local overheating splashing.
If you accidentally touch the body, quickly rinse with a lot of water, and in severe cases, seek medical attention. If it enters the eye, it should be flushed with water as soon as possible, and rush to the medical office. If you take it by mistake, do not urge vomiting, and seek medical help as soon as possible.
After the operation is completed, clean the place and dispose of the remnants properly. Wash and return the utensils used for later use.
Following this safety and operation specification can avoid danger, ensure people's safety and safety, and make industrial-grade potassium carbonate beneficial and help the industry.
Application Area
Industrial grade potassium carbonate has a wide range of uses. In the field of printing and dyeing, it can be used as a softening agent to help the color of fabrics to be uniform and bright. In the glass industry, it is an essential material for making high-quality glass, which can increase the transparency and strength of glass. In chemical synthesis, it is often an important raw material, participating in many chemical reactions and promoting product formation. In the field of medicine, it is also useful, which can provide assistance for drug preparation. In food processing, it can be used as a leavening agent, etc., to make food taste better. All kinds of uses rely on the characteristics of industrial grade potassium carbonate, which plays an important role in various industries to achieve all things.
Research & Development
Nowadays, there are industrial-grade potassium carbonate products. The research and creation of industrial-grade potassium carbonate products is related to various industries and is of paramount importance. Our generation studied physics, scrutinized its properties in detail, and strived to improve. At the beginning, we explored the selection of raw materials, carefully selected, so that the quality is pure and impure. Then we studied the production method and improved the process, hoping to improve the quality and increase the output. We also studied the field of its application, and expanded in the chemical industry, medicine, and building materials industries. After years of research and practice, industrial-grade potassium carbonate products have been perfected day by day, with outstanding quality. They have emerged in the market and made great contributions to the prosperity of various industries. In the future, we should still make unremitting efforts, explore and innovate, and hope to research and create the way of development, and go further and further to achieve wonders.
Toxicity Research
Toxicity studies
Nowadays, there are industrial-grade potassium carbonate, and the study of its toxicity is related to the characteristics of the substance. Although it is used for industry, its nature cannot be ignored.
Examine this substance in detail, and test its toxicity in the experimental environment by various methods. When applied to the subject, observe its appearance, observe its behavior, and test its body changes.
After research, it can be seen that if industrial-grade potassium carbonate touches the skin, or causes discomfort, it will be seriously injured. If it enters the body and goes down through the mouth and throat, it will harm the internal organs. Between breaths, if it absorbs its dust, it will also damage the lungs.
Therefore, those who use this product should be cautious and cautious, understand its toxicity, and prevent it from happening, so as to protect their safety and smooth things.
Nowadays, there are industrial-grade potassium carbonate, and the study of its toxicity is related to the characteristics of the substance. Although it is used for industry, its nature cannot be ignored.
Examine this substance in detail, and test its toxicity in the experimental environment by various methods. When applied to the subject, observe its appearance, observe its behavior, and test its body changes.
After research, it can be seen that if industrial-grade potassium carbonate touches the skin, or causes discomfort, it will be seriously injured. If it enters the body and goes down through the mouth and throat, it will harm the internal organs. Between breaths, if it absorbs its dust, it will also damage the lungs.
Therefore, those who use this product should be cautious and cautious, understand its toxicity, and prevent it from happening, so as to protect their safety and smooth things.
Future Prospects
"Future Prospects"
In today's world, those who work on industrial grade Potassium Carbonate have no use for it. It has great effects in chemical, glass, and other industries.
In the future, science and technology are improving, and the method of industrial grade Potassium Carbonate, or more refined, will improve the quality and improve the quality. And to ensure that the process of production is cleaner and more efficient, energy consumption is reduced and pollution is caused.
In the city, due to the development of various industries, the demand may increase. The research and development of new materials also has an impact, helping the production of new materials and promoting the development of new materials. Its future is like the beginning of the rise, which can be expected.
In today's world, those who work on industrial grade Potassium Carbonate have no use for it. It has great effects in chemical, glass, and other industries.
In the future, science and technology are improving, and the method of industrial grade Potassium Carbonate, or more refined, will improve the quality and improve the quality. And to ensure that the process of production is cleaner and more efficient, energy consumption is reduced and pollution is caused.
In the city, due to the development of various industries, the demand may increase. The research and development of new materials also has an impact, helping the production of new materials and promoting the development of new materials. Its future is like the beginning of the rise, which can be expected.
Where to Buy Industrial Grade Potassium Carbonate in China?
As a trusted Industrial Grade Potassium Carbonate manufacturer, we deliver:
Factory-Direct Value: Competitive pricing with no middleman markups, tailored for bulk orders and project-scale requirements.
Technical Excellence: Precision-engineered solutions backed by R&D expertise, from formulation to end-to-end delivery.
Whether you need industrial-grade quantities or specialized customizations, our team ensures reliability at every stage—from initial specification to post-delivery support.
As a leading Industrial Grade Potassium Carbonate supplier, we deliver high-quality products across diverse grades to meet evolving needs, empowering global customers with safe, efficient, and compliant chemical solutions.
What are the main application fields of industrial grade potassium carbonate?
First, in the chemical industry, it is often an important raw material. It can be used for multi-synthesis and inverse synthesis to help the extraction of general compounds. In terms of synthesis, it can provide the necessary source of oxalate for specific reactions, promote the generation of new compounds, and provide assistance for the multi-production of chemical products.
Second, it also plays an important role in the field of materials. It may be used in special materials, such as some ceramic materials, glass materials, etc. Due to its special chemical properties, it can improve the crystalline phase and physical properties of the material, so that the material can have better properties such as toughness and resistance, which meet different engineering needs.
In addition, it also has certain applications. In the process of chemical production, or in the process of chemical synthesis, or because of some special chemical and physical reasons, it is used for the design of materials, the control system, to improve the release characteristics of materials, improve the efficiency.
In addition, in the field of protection, it can also be used. For example, in the treatment of some water containing heavy gold, oxalic acid can be used to generate heavy metal, forming sedimentation, and for the purpose of removing heavy metal, helping the transformation of water, and the determination of the environment.
In terms of analysis, oxalic acid can be used as a base material. Due to its phase determination and fixation, it can be used to determine the degree of certain solutions, such as high-acid solutions, etc., to ensure the accuracy of chemical analysis.
What are the Quality Standards for Industrial Grade Potassium Carbonate?
The amount of oxalic acid in the industrial and chemical industry is an important factor in the industrial and chemical industry. Its performance is as follows:
The primary content is low. High-quality industrial oxalic acid, the oxalic acid content is above a specific ratio, usually determined by a refined analysis method. The amount of this content directly affects its effectiveness in the multi-reaction and industrial processes. If the content is insufficient, it will not meet the demand for production, resulting in a decline in the quantity of the product; if the content is high, or the degree of reaction is caused, it will also have a negative impact on the overall production.
Secondly, the content is limited to low. The content of gold, gold, and other non-oxalic acid substances is controlled. A small amount of oxalic acid or oxalic acid can be transformed into a reaction, changing the reaction rate and the quality of the product. Such as high performance, or the color change of the product can affect the appearance and performance. Therefore, the lower the content of oxalic acid, the better the amount of oxalic acid, and the better it can meet the requirements of high-end engineering.
Furthermore, the external shape is also low. Normally, oxalic acid is mostly white crystalline or powder, with uniform color, bright color and taste. The external appearance often implies the existence of the raw process, or is mixed with different materials, which affects the amount of the product.
In addition, the particle size distribution is also considered. The particle size and distribution of oxalic acid affect its solubility, fluidity and other physical properties. In a specific process, if it is necessary to homogenize the dissolution or fusion of fluids, inconsistent particle size distribution or uneven mixing, insufficient reaction, etc., the production efficiency of ghosting will be reduced. As mentioned above, the amount of oxalic acid in the process is determined by various aspects such as content, concentration, externality, and particle size distribution. All aspects are affected by each other and influence each other to jointly determine whether it can meet the demanding needs of different processes.
The primary content is low. High-quality industrial oxalic acid, the oxalic acid content is above a specific ratio, usually determined by a refined analysis method. The amount of this content directly affects its effectiveness in the multi-reaction and industrial processes. If the content is insufficient, it will not meet the demand for production, resulting in a decline in the quantity of the product; if the content is high, or the degree of reaction is caused, it will also have a negative impact on the overall production.
Secondly, the content is limited to low. The content of gold, gold, and other non-oxalic acid substances is controlled. A small amount of oxalic acid or oxalic acid can be transformed into a reaction, changing the reaction rate and the quality of the product. Such as high performance, or the color change of the product can affect the appearance and performance. Therefore, the lower the content of oxalic acid, the better the amount of oxalic acid, and the better it can meet the requirements of high-end engineering.
Furthermore, the external shape is also low. Normally, oxalic acid is mostly white crystalline or powder, with uniform color, bright color and taste. The external appearance often implies the existence of the raw process, or is mixed with different materials, which affects the amount of the product.
In addition, the particle size distribution is also considered. The particle size and distribution of oxalic acid affect its solubility, fluidity and other physical properties. In a specific process, if it is necessary to homogenize the dissolution or fusion of fluids, inconsistent particle size distribution or uneven mixing, insufficient reaction, etc., the production efficiency of ghosting will be reduced. As mentioned above, the amount of oxalic acid in the process is determined by various aspects such as content, concentration, externality, and particle size distribution. All aspects are affected by each other and influence each other to jointly determine whether it can meet the demanding needs of different processes.
What are the precautions for industrial-grade potassium carbonate during storage and transportation?
Oxalic acid is used in the process of storage and processing, and the general matters are concerned. Its nature is special, so it is best to store it in a dry, safe and good place. If it encounters moisture, it may be at risk of getting damp, which will cause the product to grow and affect its effectiveness. And it is a source of ignition and energy to prevent accidents. Because oxalic acid has a certain chemical activity, it may burn or even explode in case of high temperature or open flame.
Furthermore, the storage container should also be careful. Use dense and corrosion-resistant materials to prevent it from being exposed to external objects and reacting, and can also avoid leakage. If the container is broken, oxalic acid will not be damaged, and it is more likely to cause damage to the environment and surrounding items.
In the same way, do not slack off. It is necessary to follow the relevant rules and regulations, and properly pack.
Furthermore, the storage container should also be careful. Use dense and corrosion-resistant materials to prevent it from being exposed to external objects and reacting, and can also avoid leakage. If the container is broken, oxalic acid will not be damaged, and it is more likely to cause damage to the environment and surrounding items.
In the same way, do not slack off. It is necessary to follow the relevant rules and regulations, and properly pack.
What is the difference between industrial grade potassium carbonate and other types of potassium carbonate?
The difference between the first degree of carbonic acid and other types of carbonic acid is due to the difference in general characteristics.
First degree of carbonic acid, the degree of carbonic acid is high, and more lifting work is required, and less work is required. The extraction process, or the method of chemical synthesis, or the high-quality natural stone essence is obtained, so it can maintain high degree of carbonic acid, and the combination of high-quality raw materials is generally required for the work. For other types, or due to different uses, the degree of durability requirements are not as severe as the work, or the content is too high.
Times and particle size, the particle size of the work of carbonic acid is often precisely controlled, and it can be formed into micro-uniform particles according to different work needs. If the particle size is high, it has good dispersibility. It can be evenly distributed and improve the performance of the product when added to plastics, rubber, etc. The particle size of carbonate is coarse or coarse, depending on the application. For example, some carbonates for construction, the particle size is large. Because of its emphasis on filling, the requirement for micro-dispersibility is slightly lower.
In addition, the activity is high, the activity of carbonate is high, and the surface modification is low. This characteristic makes it in polymer materials, which can be well combined with groups such as grease, and improve the strength and performance of the composite material. Other types of carbonate may be low in activity because they are not modified. It is suitable for some applications that require high activity carbonate.
Whiteness is also important, and the whiteness of the workmanship is often very high. In the manufacturing industry, materials, etc., high whiteness can improve the external appearance of the product. In contrast, if other carbonates do not pay attention to whiteness requirements, the whiteness or phase is low. For example, some carbonates used for environmental treatment pay more attention to their performance, and whiteness is not the primary consideration.
In terms of application, industrial carbonates are used in plastics, rubber, manufacturing, printing materials, inks and other industrial fields, and their characteristics improve the performance of the product. Other types of carbonates, such as food for food addition, industrial use for food, and industrial use for food, are clear, and each one matches the needs due to its characteristics.
First degree of carbonic acid, the degree of carbonic acid is high, and more lifting work is required, and less work is required. The extraction process, or the method of chemical synthesis, or the high-quality natural stone essence is obtained, so it can maintain high degree of carbonic acid, and the combination of high-quality raw materials is generally required for the work. For other types, or due to different uses, the degree of durability requirements are not as severe as the work, or the content is too high.
Times and particle size, the particle size of the work of carbonic acid is often precisely controlled, and it can be formed into micro-uniform particles according to different work needs. If the particle size is high, it has good dispersibility. It can be evenly distributed and improve the performance of the product when added to plastics, rubber, etc. The particle size of carbonate is coarse or coarse, depending on the application. For example, some carbonates for construction, the particle size is large. Because of its emphasis on filling, the requirement for micro-dispersibility is slightly lower.
In addition, the activity is high, the activity of carbonate is high, and the surface modification is low. This characteristic makes it in polymer materials, which can be well combined with groups such as grease, and improve the strength and performance of the composite material. Other types of carbonate may be low in activity because they are not modified. It is suitable for some applications that require high activity carbonate.
Whiteness is also important, and the whiteness of the workmanship is often very high. In the manufacturing industry, materials, etc., high whiteness can improve the external appearance of the product. In contrast, if other carbonates do not pay attention to whiteness requirements, the whiteness or phase is low. For example, some carbonates used for environmental treatment pay more attention to their performance, and whiteness is not the primary consideration.
In terms of application, industrial carbonates are used in plastics, rubber, manufacturing, printing materials, inks and other industrial fields, and their characteristics improve the performance of the product. Other types of carbonates, such as food for food addition, industrial use for food, and industrial use for food, are clear, and each one matches the needs due to its characteristics.
What factors affect the market price fluctuations of industrial-grade potassium carbonate?
The market for oxalic acid is affected by many factors. First, supply and demand are of paramount importance. If the demand for oxalic acid in industrial areas increases greatly, such as chemical manufacturing, gold processing, etc., a large amount of oxalic acid raw materials or materials are required, and the supply does not keep up, and the price rises; on the contrary, if the demand is weak and the supply is abundant, the price will decline from the bottom.
Second, the cost of raw materials is also the market for oxalic acid. The general raw materials required for oxalic acid manufacturing directly affect the cost of production. If the price of raw materials increases, the cost of producers will increase, and the price of oxalic acid will often increase. If the price of raw materials decreases, there is no room for reduction.
Third, the policy law cannot be ignored. The government's insurance policies and labor policies for the chemical industry will affect the production of oxalic acid. If the insurance requirements are not met, some production enterprises may be limited or stopped due to the limited cost, and the supply is less, and the price will be promoted; if the support policies are inclined, the production of oxalic acid will be encouraged, which may increase the supply and stabilize the price.
Fourth, the impact of the market is also affected. The global supply and demand of oxalic acid, the rate of change, etc., will all affect the market. If the demand of the city is strong and exports increase, the supply will be less, and the price will rise; the rate will affect the export cost, which will also affect the price.
Fifth, the impact of technological innovation cannot be small. If there are new technologies that can significantly improve the efficiency of oxalic acid production and reduce costs, it may lead to lower prices and lower prices; conversely, if the technology is broken, the cost of production will remain high, which will also lead to higher costs.
Second, the cost of raw materials is also the market for oxalic acid. The general raw materials required for oxalic acid manufacturing directly affect the cost of production. If the price of raw materials increases, the cost of producers will increase, and the price of oxalic acid will often increase. If the price of raw materials decreases, there is no room for reduction.
Third, the policy law cannot be ignored. The government's insurance policies and labor policies for the chemical industry will affect the production of oxalic acid. If the insurance requirements are not met, some production enterprises may be limited or stopped due to the limited cost, and the supply is less, and the price will be promoted; if the support policies are inclined, the production of oxalic acid will be encouraged, which may increase the supply and stabilize the price.
Fourth, the impact of the market is also affected. The global supply and demand of oxalic acid, the rate of change, etc., will all affect the market. If the demand of the city is strong and exports increase, the supply will be less, and the price will rise; the rate will affect the export cost, which will also affect the price.
Fifth, the impact of technological innovation cannot be small. If there are new technologies that can significantly improve the efficiency of oxalic acid production and reduce costs, it may lead to lower prices and lower prices; conversely, if the technology is broken, the cost of production will remain high, which will also lead to higher costs.
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