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SINO-PHOS is mainly engaged in the wholesale and retail of chemical products. Its main products include phosphoric acid, sodium tripolyphosphate, sodium hexametaphosphate, sodium tripophosphate, sodium pyrophosphate, etc. At present, the company's products are widely sold to Mexico,United Arab Emirates,Uganda,Congo, Democratic Republic of the,Macedonia and other countries and regions, and we are also actively exploring other overseas markets. Since its establishment, the company has always adhered to the concept of "integrity, cooperation, win-win, and mission". We are customer-oriented, continue to innovate around customer needs, strictly control product quality, and focus on providing customers with high-quality products and all-round services. In line with the tenet of "pursuit, growth, technology, spirit, and interests", the company now has a group of capable management talents and a high-quality professional team.
Type | Disodium phosphate |
Place of Origin | Guizhou, China |
Classification | Phosphate |
Other Names | Dibasic Sodium Phosphate |
MF | Na2HPO4.2H2O |
EINECS No. | 231-448-7 |
Grade Standard | Food Grade |
Appearance | white cystal |
Application | Food ingredients |
Brand Name | SINO-PHOS |
Model Number | BYPH-12 |
Product Name | Disodium Phosphate |
Grade | Food Garde |
Density | 1.52 |
Insoluble | Alcohol |
Soluble | In water |
Molecular weight | 177.99 |
PH (1% aqueous solution) | 8.8-9.2 |
Executive Standard | GB25568-2010 |
Pallet | Based on buyer's requirment |
Shelf life | 2 Years Proper Storage |
Packaging Details | 21KG/42KG/965KG |
Supply Ability | 2378020 Kilogram/Kilograms per Year |
Quantity (metric tons) | > 139 |
Lead time (days) | 28 |
phosphate structure bearings FAQs Guide phosphate structure, a type of natural mineral often found in rocks, is widely recognized for its significant role in plant and animal growth. As a necessary element for all living organisms, phosphate structure has become an essential component in various industries, including agriculture, food production, and manufacturing. With our advanced technology and expertise, we have developed a series of high-quality phosphate structure products that cater to different needs in the market. Our wide range of solutions not only provides essential nutrients for crops and livestock but also supports the development of sustainable and environmentally friendly processes. Keep reading to learn more about our phosphate structure products and how they can benefit your business.
2.What is the global production of phosphate structure?
3.What effects does phosphate structure have on human health?
4.Will phosphate structure be used in environmental protection projects?
5.What is the difference between ammonium phosphate structure and diammonium phosphate structure?
6.What is anionic phosphate structure?
7.How to safely store phosphate structure?
8.phosphate structure What technology is used in making polyphosphate structure?
9.What phosphate structure are produced during denitrification?
10.What compounds can phosphate structure form?
11.What is the role of catalysts in the phosphate structure industry?
12.Can phosphate structure be used to make batteries?
13.What are the similarities between phosphate structure and sulfates?
14.Can phosphate structure be used as fertilizer?
15.What are the environmental benefits of phosphate structure recycling?
1.Does phosphate structure promote certain diseases?
We focus on providing high phosphate structure quality products and services.
There is no evidence to suggest that phosphate directly promotes certain diseases. However, excessive intake of phosphate through diet or supplements can lead to health issues such as kidney disease, heart disease, and osteoporosis. Additionally, high levels of phosphate in the body can disrupt the balance of other minerals, such as calcium, which can contribute to the development of certain diseases. It is important to maintain a balanced intake of phosphate and other minerals for overall health and disease prevention.
2.What is the global production of phosphate structure?
We are committed to providing personalized solutions and established long -term strategic cooperative relationships with customers.
According to the United States Geological Survey, the global production of phosphate in 2019 was approximately 47 million metric tons. The top producers of phosphate were China, Morocco, and the United States.
3.What effects does phosphate structure have on human health?
Phosphate is an essential nutrient for human health, as it plays a vital role in many functions of the body. It is a key component in the formation of bones, teeth, and cell membranes. However, excessive intake of phosphate can also have negative effects on human health. Consuming too much phosphate can lead to an imbalance in the body's mineral levels, which can cause problems such as kidney damage, heart disease, and weakened bones. Additionally, high levels of phosphate in the body have been linked to an increased risk of cardiovascular disease, diabetes, and even certain types of cancer. Therefore, it is important to maintain a balanced and appropriate intake of phosphate in order to maintain good overall health.

4.Will phosphate structure be used in environmental protection projects?
We maintain a certain amount of R&D investment every year and continuously improve operational efficiency to provide better services to our cooperative customers.
Phosphate, a naturally occurring mineral, has been utilized in various industries, such as agriculture and food production, for its highly beneficial properties. With the growing concern over environmental protection, many are wondering if phosphate can also play a role in these initiatives. The answer is a resounding yes. Phosphate has been proven to be effective in several environmental protection projects, such as wastewater treatment and soil remediation. Its ability to bind with heavy metals and other contaminants makes it a valuable tool in cleaning polluted water and soil. Furthermore, its use as a plant fertilizer can reduce the need for harmful chemical fertilizers, promoting sustainable and organic farming practices. As more research is conducted, it is expected that phosphate will continue to contribute to environmental protection efforts in the future.
5.What is the difference between ammonium phosphate structure and diammonium phosphate structure?
Our products & services cover a wide range of areas and meet the needs of different fields.
Ammonium phosphate and diammonium phosphate are both types of fertilizers that contain nitrogen and phosphorus. The main difference between them is the ratio of nitrogen to phosphorus and the chemical structure.
Ammonium phosphate is a general term that refers to any fertilizer containing both ammonium and phosphate. It can have different ratios of nitrogen to phosphorus, such as 10-34-0 or 16-20-0. This means that for every 100 pounds of fertilizer, there are 10 or 16 pounds of nitrogen and 34 or 20 pounds of phosphorus, respectively.
Diammonium phosphate (DAP) is a specific type of ammonium phosphate fertilizer with a ratio of 18-46-0. This means that for every 100 pounds of DAP, there are 18 pounds of nitrogen and 46 pounds of phosphorus. DAP is a highly concentrated fertilizer and is often used in the early stages of plant growth to promote root development.
6.What is anionic phosphate structure?
We actively participate in the phosphate structure industry associations and organization activities. The corporate social responsibility performed well, and the focus of brand building and promotion
Anionic phosphate refers to a negatively charged ion that contains one phosphorus atom and four oxygen atoms, with a chemical formula of PO4^3-. It is commonly found in various compounds, such as phosphates in fertilizers and phospholipids in cell membranes. Anionic phosphate plays important roles in biological processes, such as energy storage and transfer, DNA and RNA synthesis, and bone formation.

7.How to safely store phosphate structure?
We pay attention to employee development and benefits, and provide a good working environment in order to improve the efficiency of employees and improve the quality management of phosphate structure products.
Storing phosphate properly is crucial for safety and environmental reasons. Firstly, ensure that the storage area is dry and well-ventilated to prevent any moisture build-up, which can cause the phosphate to become unstable and potentially combustible. Secondly, make sure to store it away from any sources of heat or open flames, as phosphate can react violently with these. Additionally, it is important to store phosphate away from other chemicals or materials that it could potentially react with. Proper labeling and segregation of storage containers is recommended to avoid any accidental mixing. It is also recommended to regularly inspect and maintain storage containers to prevent any leaks or spills. Finally, always follow the recommended storage instructions from the manufacturer to ensure safe handling and storage of phosphate.
8.phosphate structure What technology is used in making polyphosphate structure?
We have advanced production equipment and technology to meet the needs of customers, and can provide customers with high quality, low priced phosphate structure products.
The technology used in making polyphosphate is typically a chemical process called polymerization. This involves combining monomers (smaller molecules) to form long chains of repeating units, known as polymers. In the case of polyphosphate, the monomers are typically phosphoric acid or phosphates, which are combined to form long chains of phosphate molecules.
The process of polymerization can be carried out using various methods, including solution polymerization, emulsion polymerization, and suspension polymerization. These methods involve mixing the monomers with a catalyst and other additives, and then subjecting the mixture to heat, pressure, or radiation to initiate the polymerization reaction.
Once the polymerization is complete, the resulting polyphosphate can be further processed and modified to meet specific requirements for different applications. This may involve adding other chemicals, blending with other polymers, or shaping the polyphosphate into different forms, such as pellets, sheets, or fibers.
9.What phosphate structure are produced during denitrification?
No phosphate is produced during denitrification. Denitrification is a process in which nitrate (NO3-) is converted into nitrogen gas (N2) by bacteria, and does not involve the production of phosphate.

10.What compounds can phosphate structure form?
Phosphate has the ability to form a wide variety of compounds, including phosphate salts, phosphates used in fertilizers, phosphoric acid, and organic phosphates found in living organisms. It also forms important compounds such as DNA and ATP, which are crucial for energy storage and transfer in living organisms. Phosphate compounds are essential for various industrial and agricultural applications, as well as for the functioning of biological systems.
11.What is the role of catalysts in the phosphate structure industry?
We have established a good reputation and reliable partnerships within the phosphate structure industry.
Catalysts are an essential component in the phosphate industry, playing a key role in the production of vital fertilizers and other phosphates for industrial use. They serve as a facilitator, accelerating the chemical reactions involved in phosphate production, thereby increasing efficiency and reducing costs. These catalysts also help improve the quality and purity of the final product, ensuring that it meets regulatory standards. In addition, they enable the use of more sustainable and environmentally friendly processes, making the phosphate industry more efficient and sustainable. Without catalysts, the production of phosphates would be significantly slower and more expensive, making them a crucial element in the industry.
12.Can phosphate structure be used to make batteries?
phosphate structure is not a product only, but also can help you comes to money-making.
Yes, phosphate can be used to make batteries. Phosphate-based batteries, also known as lithium iron phosphate (LiFePO4) batteries, are a type of rechargeable battery that uses phosphate as the cathode material. These batteries are known for their high energy density, long lifespan, and safety compared to other types of batteries. They are commonly used in electric vehicles, solar energy storage systems, and other applications that require high-performance batteries.

13.What are the similarities between phosphate structure and sulfates?
Phosphates and sulfates are both types of mineral compounds that contain oxygen. They are commonly found in nature and have various industrial and biological uses. One of the key similarities between these two compounds is that they both contain oxygen atoms in their molecular structure. This allows them to perform similar functions, such as being used as fertilizers in agriculture, as well as being used in detergents and water treatment products. Another similarity is that both phosphates and sulfates are essential for life, as they are important components of DNA and cell membranes. However, they also have their differences, as sulfates are more commonly found in minerals such as copper and iron, while phosphates are found in minerals such as calcite and apatite.
14.Can phosphate structure be used as fertilizer?
Our phosphate structure products undergo strict quality control to ensure customer satisfaction.
Yes, phosphate is commonly used as a fertilizer in agriculture. It is a major component of most commercial fertilizers and is essential for plant growth and development. Phosphate helps plants to develop strong roots, promotes flower and fruit production, and aids in the transfer of energy within the plant. It is also an important nutrient for crop yield and quality. However, excessive use of phosphate fertilizers can lead to environmental pollution and eutrophication of water bodies. Therefore, it is important to use phosphate fertilizers in a responsible and sustainable manner.
15.What are the environmental benefits of phosphate structure recycling?
Phosphate is a key nutrient that is essential for the growth of plants and the health of our ecosystems. It is most commonly obtained from phosphate mining, a process that has significant environmental impacts including soil erosion, contamination of water sources, and loss of biodiversity. However, there is a more sustainable way to obtain and reuse phosphate – through recycling. Phosphate recycling involves recovering and reusing phosphorus from various sources such as wastewater, manure, and industrial byproducts. This process has many environmental benefits, including reducing the demand for new phosphate mining, decreasing pollution and eutrophication of water bodies, and conserving natural resources. By promoting phosphate recycling, we can help protect our environment and create a more sustainable future.
