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Guizhou SINO-PHOS Chemical Co., Ltd. can supply phosphoric acid, sodium tripolyphosphate, sodium hexametaphosphate, sodium tripophosphate, sodium pyrophosphate, etc. with the best quality and the most favorable price, 20,000-50,000 tons per month. For 18 years, it has focused on the research, development and production of phosphoric acid and phosphates. The company has a complete phosphating and phosphating production line, which can provide customers with a full-process production and quality assurance chain. Our products are widely used in DAP, SSP, TSP, MAP, NPK fertilizers and DCP, MDCP, TCP feed additives and other fertilizer industries in Vanuatu,Aruba,Central African Republic,Singapore and other countries.
| Type | Disodium Phosphate |
| Place of Origin | Guizhou,china |
| Classification | Phosphate |
| Other Names | Sodium Phosphate, Dibasic |
| MF | Na2HPO4 |
| EINECS No. | 231-448-7 |
| Grade Standard | Industrial Grade, Reagent Grade |
| Appearance | White Powder |
| Application | emulgator,etc |
| Brand Name | SINO-PHOS |
| Model Number | / |
| Product name | Sodium Phosphate, Dibasic |
| Appearance | White powder |
| Content Na2HPO4,( On dry basis),w/% | ≥94 |
| Arsenic(As),mg/kg | ≤2 |
| Heavy metal(as Pb),mg/kg | ≤9 |
| Lead(Pb),mg/kg | ≤4 |
| Fluorides(as F),mg/kg | ≤51 |
| Insoluble substances,w/% | ≤0.2 |
| Loss on drying,w/% | ≤3 |
| Packaging Details | 5g/10g/50g/232g/500g/1kg/Bottle |
| Supply Ability | 478 Kilogram/Kilograms per Month |
| Quantity (grams) | > 186 |
| Lead time (days) | 13 |
sodium phosphate solubility bearings FAQs Guide sodium phosphate solubility, 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, sodium phosphate solubility 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 sodium phosphate solubility 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 sodium phosphate solubility products and how they can benefit your business.
2.Can sodium phosphate solubility be used to make plastic?
3.What compounds can sodium phosphate solubility form?
4.How to distinguish sodium phosphate solubility?
5.Can sodium phosphate solubility be used to make batteries?
6.What effects do high sodium phosphate solubility levels have on the human body?
7.Are sodium phosphate solubility harmful?
8.What is the relationship between sodium phosphate solubility and sodium phosphate solubility fertilizer?
9.Does sodium phosphate solubility promote certain diseases?
10.What are the characteristics of magnesium sodium phosphate solubility?
11.How are the functions and structure of sodium phosphate solubility related?
12.What is tripolysodium phosphate solubility?
13.Can sodium phosphate solubility be used as fertilizer?
14.What is the difference between ammonium sodium phosphate solubility and diammonium sodium phosphate solubility?
15.How is sodium phosphate solubility extracted?
1.What is the difference between sodium phosphate solubility and diammonium sodium phosphate solubility?
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Phosphate refers to any compound containing the phosphate ion (PO4^3-), while diammonium phosphate (DAP) specifically refers to a compound with the chemical formula (NH4)2HPO4. DAP is a type of phosphate fertilizer commonly used in agriculture, while phosphate can refer to a variety of compounds with different uses and properties.
2.Can sodium phosphate solubility be used to make plastic?
Yes, phosphate can be used to make plastic. Phosphate-based plastics, also known as polyphosphates, are a type of thermoplastic polymer that can be used to make a variety of products, including packaging materials, coatings, and adhesives. These plastics are made by polymerizing phosphoric acid or its derivatives, such as phosphoric anhydride, with other monomers. They are known for their high strength, durability, and resistance to heat and chemicals. However, due to concerns about the environmental impact of phosphate mining and production, alternative materials are being developed to replace phosphate-based plastics.
3.What compounds can sodium phosphate solubility 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.
4.How to distinguish sodium phosphate solubility?
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Phosphate, a chemical compound containing the element phosphorus, is commonly found in many materials such as fertilizers, detergents, and food. However, it is important to be able to distinguish phosphate from other compounds due to its potential environmental and health impacts. One way to do this is by testing for the presence of phosphates using specialized equipment, such as a spectrophotometer, which measures the absorption of light by the compound. Additionally, one can also use chemical tests, such as adding molybdate reagent to a sample, which will produce a yellow color if phosphates are present. Another method is by calculating the amount of phosphate based on the weight of a sample and the percentage of phosphorus in the compound. By using these techniques, one can accurately identify and quantify phosphate, allowing for proper handling and disposal to prevent harm to the environment and human health.
5.Can sodium phosphate solubility be used to make batteries?
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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.
6.What effects do high sodium phosphate solubility levels have on the human body?
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High levels of phosphate in the human body can have several negative effects. Phosphate is an essential mineral for various biological processes, such as bone growth and energy production, but excess amounts can be harmful. High phosphate levels can lead to a condition known as hyperphosphatemia, which can cause symptoms such as muscle cramps, fatigue, and cognitive impairment. It can also contribute to bone density loss and increased risk of kidney disease. Additionally, high phosphate levels may disrupt the balance of other important minerals in the body, such as calcium and magnesium. It is important to maintain a healthy balance of phosphate in the body through proper diet and regular monitoring to prevent these potential negative effects.
7.Are sodium phosphate solubility harmful?
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Phosphates are not inherently harmful to humans or the environment. In fact, they are essential nutrients for plant and animal growth. However, excessive amounts of phosphates can cause environmental issues such as eutrophication, which is the overgrowth of algae and other aquatic plants that can harm aquatic ecosystems. In addition, high levels of phosphates in drinking water can lead to health concerns such as kidney damage. Therefore, it is important to regulate and monitor the use of phosphates in products such as fertilizers and detergents to prevent negative impacts on the environment and human health.
8.What is the relationship between sodium phosphate solubility and sodium phosphate solubility fertilizer?
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Phosphate is a naturally occurring mineral that contains the element phosphorus. Phosphate fertilizer is a type of fertilizer that is made from phosphate minerals and is used to provide plants with essential nutrients, particularly phosphorus, for growth and development.
Phosphate fertilizer is made by extracting phosphate minerals from rocks or sedimentary deposits and processing them into a form that can be easily absorbed by plants. This process involves treating the phosphate minerals with acids or other chemicals to make them more soluble and available for plant uptake.
Phosphate fertilizer is an important source of phosphorus for plants, as it helps to promote root growth, seed formation, and overall plant health. It is commonly used in agriculture to increase crop yields and improve soil fertility.
In summary, phosphate is the mineral that contains phosphorus, while phosphate fertilizer is a product made from phosphate minerals that is used to provide plants with essential nutrients, particularly phosphorus, for growth and development.
9.Does sodium phosphate solubility promote certain diseases?
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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.
10.What are the characteristics of magnesium sodium phosphate solubility?
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Magnesium phosphate is a compound that consists of magnesium and phosphate ions. It is a white, odorless solid that is commonly used in various industries such as food, fertilizers, and medicine. This compound possesses some unique characteristics that make it highly versatile and useful. Firstly, it is highly soluble in water, making it easy to incorporate into various solutions. Additionally, it has excellent thermal stability, making it resistant to high temperatures without decomposing. This quality makes it suitable for use as a fire retardant. Furthermore, magnesium phosphate has a low toxicity level, making it safe to use in food and medical applications. It also acts as a natural fertilizer, providing plants with essential nutrients like phosphorus and magnesium.
11.How are the functions and structure of sodium phosphate solubility related?
Phosphate is an important chemical compound that is essential for various biological processes and is found in many minerals, soils, and living cells. Its functions are closely related to its unique structure, containing one central phosphorus atom bonded to four oxygen atoms. This structure allows phosphate to act as a versatile molecule, serving as a structural component in molecules like DNA and RNA, an energy source in the form of ATP, and a regulatory substance in biochemical reactions. Additionally, its structure also allows it to form strong bonds with other molecules, making it vital for cellular communication and signaling. This close relationship between the functions and structure of phosphate highlights its significance in maintaining the delicate balance and efficiency of various biological systems.
12.What is tripolysodium phosphate solubility?
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Tripolyphosphate is a chemical compound with the formula Na5P3O10. It is a water-soluble salt that is commonly used as a food additive, detergent builder, and water softener. It is also used in industrial applications such as metal cleaning and water treatment. Tripolyphosphate is a white, odorless powder that is stable under normal conditions. It is considered safe for consumption and has a low toxicity.
13.Can sodium phosphate solubility be used as fertilizer?
Our sodium phosphate solubility 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.
14.What is the difference between ammonium sodium phosphate solubility and diammonium sodium phosphate solubility?
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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.
15.How is sodium phosphate solubility extracted?
We continue to improve sodium phosphate solubility products and processes to improve efficiency.
Phosphate is typically extracted through open-pit mining, which involves digging a large hole in the ground and removing the layers of phosphate-rich rock. The extracted rock is then crushed and processed to separate the phosphate from other minerals. This process may also involve washing, screening, and flotation to further refine the phosphate. In some cases, underground mining may also be used to extract phosphate deposits.
