Guanidine Phosphate

Lingxian Chemical

Specifications

HS Code	211105
Chemical Formula	C2H7N3O4P
Molar Mass	169.07 g/mol
Appearance	Typically white crystalline solid
Solubility In Water	Soluble
Ph In Aqueous Solution	Neutral to slightly acidic depending on concentration
Melting Point	Decomposes rather than melts cleanly
Odor	Odorless
Thermal Stability	Decomposes upon heating
Hygroscopicity	May be hygroscopic
Chemical Formula	C2H8N4O4P
Molar Mass	184.1 g/mol
Appearance	Solid (presumably white powder or crystals, common for salts)
Solubility In Water	Highly soluble (guanidinium salts generally have good water solubility)
Ph In Aqueous Solution	Neutral to slightly acidic depending on hydrolysis (guanidinium ion can undergo hydrolysis)
Melting Point	Data likely unavailable, but guanidinium salts often have relatively high melting points due to ionic bonding
Density	No common data available, but expected to be in the range typical for inorganic salts
Thermal Stability	Moderate thermal stability, may decompose upon heating to high temperatures
Hygroscopicity	May be hygroscopic, like many guanidinium salts
Odor	Odorless (typical for inorganic salts)
Chemical Formula	C2H7N3O4P
Molecular Weight	169.07 g/mol
Appearance	Typically white solid
Solubility In Water	Highly soluble
Odor	Odorless (usually)
Melting Point	Decomposes rather than melting cleanly
Ph In Solution	Acidic due to phosphate part
Stability	Stable under normal conditions
Crystal Structure	Can form various crystal structures depending on conditions
Conductivity In Solution	Good electrolyte, conducts electricity
Chemical Formula	C2H8N4O4P
Molar Mass	184.1 g/mol
Appearance	white solid
Solubility In Water	soluble
Ph Aqueous Solution	around neutral
Melting Point	decomposes before melting
Boiling Point	decomposes before boiling
Odor	odorless
Stability	stable under normal conditions
Chemical Formula	C2H8N4O4P
Molar Mass	184.08 g/mol
Appearance	Solid
Solubility In Water	Soluble
Ph Aqueous Solution	Basic
Odor	Odorless (presumed, as no data on odor found)
Stability	Stable under normal conditions
Chemical Formula	C2H7N3O4P
Molar Mass	169.07 g/mol
Appearance	Solid (usually white or colorless)
Solubility In Water	Soluble
Ph In Solution	Acidic (depending on concentration)
Density	No widely - reported value
Odor	Odorless (usually)
Stability	Stable under normal conditions, but may react with strong oxidants
Chemical Formula	C2H7N3O4P
Molar Mass	169.07 g/mol
Appearance	Solid
Solubility In Water	Soluble
Ph Aqueous Solution	Neutral to slightly acidic
Stability	Stable under normal conditions
Hazardous Nature	May be harmful if swallowed or inhaled
Chemical Formula	C2H8N4O4P
Molar Mass	184.08 g/mol
Appearance	Solid
Solubility In Water	Soluble
Ph In Solution	Neutral to slightly acidic
Melting Point	Decomposes before melting
Odor	Odorless
Stability	Stable under normal conditions
Hazard Class	Non - hazardous in normal use
Chemical Formula	C2H7N3O4P
Molar Mass	169.07 g/mol
Appearance	Solid
Solubility In Water	Soluble
Ph Aqueous Solution	Variable depending on concentration
Stability	Stable under normal conditions
Odor	Odorless (usually)
Hazard Classification	No specific common highly hazardous classification
Chemical Formula	C2H7N3O4P
Molar Mass	169.07 g/mol
Appearance	Solid (usually white powder)
Solubility In Water	Soluble
Ph Aqueous Solution	Neutral or slightly acidic depending on concentration
Melting Point	Decomposes before melting
Odor	Odorless
Density	Data may vary, specific values depend on form and purity
Stability	Stable under normal conditions
Chemical Formula	C2H8N4O4P
Molar Mass	196.1 g/mol
Appearance	White solid
Solubility In Water	Soluble
Odor	Odorless
Stability	Stable under normal conditions
Chemical Formula	C2H7N3O4P
Molar Mass	169.07 g/mol
Appearance	Solid (usually white powder)
Solubility In Water	Soluble
Ph Aqueous Solution	Varies depending on concentration
Melting Point	Data may vary, needs specific research
Boiling Point	Decomposes before boiling
Density	Data may vary, needs specific research
Stability	Stable under normal conditions
Hazard Class	Classified based on regulations, details may vary
Chemical Formula	C2H7N3O4P
Molar Mass	169.07 g/mol
Appearance	Solid (usually white powder)
Solubility In Water	Soluble
Ph In Aqueous Solution	Neutral to slightly acidic
Odor	Odorless
Stability	Stable under normal conditions
Density	No widely - available data but density values are in the range typical for similar organic salts
Hazard	May be harmful if swallowed, inhaled or in contact with skin
Chemical Formula	C2H8N3O4P
Molecular Weight	155.07 g/mol
Appearance	Typically a white crystalline solid
Solubility In Water	Highly soluble
Ph In Solution	Near - neutral in aqueous solutions
Odor	Odorless
Thermal Stability	Decomposes upon heating rather than melting cleanly
Hygroscopicity	May be hygroscopic, absorbing moisture from the air
Chemical Formula	C2H7N3O4P
Molar Mass	169.07 g/mol
Appearance	White solid
Solubility In Water	Soluble
Ph Aqueous Solution	Acidic
Melting Point	Decomposes rather than melting
Boiling Point	Decomposes before boiling
Odor	Odorless
Stability	Stable under normal conditions
Chemical Formula	C2H7N3O4P
Molar Mass	169.07 g/mol
Appearance	Solid
Solubility In Water	Soluble
Ph In Solution	Acidic
Melting Point	Decomposes
Boiling Point	Decomposes
Odor	Odorless (assumed, lack of common data)
Stability	Stable under normal conditions
Chemical Formula	C2H7N3O4P
Molar Mass	169.07 g/mol
Appearance	Typically a white solid
Solubility In Water	Soluble
Ph Aqueous Solution	Can be adjusted depending on concentration
Thermal Stability	May decompose upon heating
Hygroscopicity	May absorb moisture from the air
Chemical Formula	C2H7N3O4P
Molar Mass	169.07 g/mol
Appearance	Typically a white solid
Solubility In Water	Soluble
Ph In Aqueous Solution	Neutral to slightly acidic depending on concentration
Melting Point	Decomposes before melting
Thermal Stability	Stable under normal conditions but decomposes on heating
Odor	Odorless
Reactivity	Can react with strong acids and bases
Hygroscopicity	May absorb moisture from the air

Packing & Storage

Packing	Guanidine Phosphate packaged in 1 - kg bags for easy handling and storage.
Storage	Guanidine Phosphate should be stored in a cool, dry place away from heat sources and direct sunlight. Keep it in a well - sealed container to prevent moisture absorption and contact with air, which could potentially lead to degradation. Store it separately from incompatible substances, such as strong acids and bases, to avoid chemical reactions. Ensure proper ventilation in the storage area.
Shipping	Guanidine Phosphate is shipped in accordance with strict chemical regulations. It is carefully packaged in suitable containers to prevent leakage. Shipments are handled by carriers experienced in transporting hazardous chemicals, ensuring safety during transit.

Free Quote

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General Information

Frequently Asked Questions

What are the main uses of guanidine phosphate?

What are the main uses of ricinoleic anhydride? Ricinoleic anhydride has a wide range of uses.
First, it has many applications in the field of medicine. Ancient doctors knew that drug processing requires delicate methods, and ricinoleic anhydride can be used as a drug carrier. Cover because of its unique chemical properties, can help drugs better deliver to the hospital. For example, if you want to treat a disease in the viscera, using ricinoleic anhydride as a carrier can make the drug accurately enter the viscera, improve the efficacy of the drug, and reduce the damage of the drug to other viscera, just like a boat carrying goods, straight to the destination, avoiding the disturbance on the way.
Second, it is also indispensable in the chemical industry. In the preparation of paints, ricinoleic anhydride can improve the performance of paints. When making paint, adding ricinoleic anhydride can make the adhesion of the paint better, just like the adhesive paint, it is not easy to fall off when applied to the utensils, and it can enhance the corrosion resistance of the paint. The utensils can last as good as new after years of wind and rain. In addition, in plastic modification, ricinoleic anhydride can optimize the flexibility and strength of plastics. The nature of plastics may be hard and easy to fold, or soft and not firm. After adding ricinoleic anhydride, it can be made both rigid and flexible. For example, the method of forging utensils with rigidity and softness makes them both tough and flexible, suitable for the production of a variety of plastic products.
Third, it also contributes to the fragrance industry. It can be used as a raw material for fragrance synthesis and participates in the preparation of fragrances. The perfumer is like a craftsman, who uses various raw materials to create a fragrant and rich fragrance. Ricinic anhydride can add a unique charm to the fragrance after being treated by a specific process, or it can be quiet and elegant, or rich and mellow, enriching the level of fragrance, just like adding the finishing touch to the spice picture, making the aroma more attractive and loved by people.
From this perspective, ricinic anhydride is widely used and plays an important role in the pharmaceutical, chemical, fragrance and other industries. It is an indispensable substance in the world.

What are the physical properties of guanidine phosphate?

Borax is a mineralogical traditional Chinese medicine, the main component of which is sodium tetraborate. In ancient times, borax has been recognized by physicians and is widely used. Its physical properties are as follows:
Borax is mostly colorless and translucent crystalline in appearance, or white powder. Its crystals often have a glassy luster. This luster is like the soft sunlight sprinkled through the mist in the morning, warm and bright. Borax is relatively brittle in texture, just like thin ice in winter. It is easy to break under a little force. If you twist it with your hand, you can feel its delicate state.
It has good solubility in water, just like snowflakes blending into warm water, quietly dissipating and invisible. And the aqueous solution of borax is weakly alkaline, which makes it useful in many fields.
The melting point of borax is also not high. At the appropriate temperature, it is like the snow in spring meeting the warm sun, slowly melting into a liquid state. When the temperature cools, it will solidify into a solid state, as if undergoing a miraculous metamorphosis.
In the eyes of traditional Chinese medicine, borax is cold in nature, sweet and salty in taste, and belongs to the lungs and stomach. It is often used to clear heat and detoxify, reduce swelling and prevent corrosion, etc. It is a good medicine for treating diseases. The observation and utilization of the physical properties of borax by the ancients also reflected the wisdom of exploring natural things at that time, leaving a valuable medical and cultural heritage for future generations.

What are the chemical properties of guanidine phosphate?

Borax is an important compound of boron and is also a common borate. Its chemical properties are unique, so let me tell you one by one.
The chemical composition of borax is sodium tetraborate decahydrate with the chemical formula of $Na_2B_4O_7 · 10H_2O $. It can be slowly weathered in air and gradually loses its crystalline water when heated. When heated to about 350 dollars - 400 ^ {\ circ} C $, it completely loses water and becomes anhydrous borax, that is, $Na_2B_4O_7 $.
Borax is soluble in water, and its aqueous solution is alkaline. This is because of the hydrolysis of borax, which produces hydroxide ions, making the solution alkaline. The hydrolysis reaction formula is roughly as follows: $B_4O_7 ^ {2 - } + 7H_2O\ rightleftharpoons 4H_3BO_3 + 2 OH ^ - $ 。
Borax can react with acids to form boric acid. For example, when reacted with hydrochloric acid, boric acid and sodium chloride will be formed, and the reaction equation is $Na_2B_4O_7 + 2HCl + 5H_2O = 4H_3BO_3 + 2NaCl $. Boric acid is a weak acid and has a wide range of uses in many fields.
Borax can react with a variety of metal oxides in the molten state to form metaborates with characteristic colors. This property is often used in the borax bead test in analytical chemistry to identify specific metal ions. For example, when reacted with cobalt oxides, blue cobalt metaborate will be formed.
The chemical properties of borax make it important for industrial, pharmaceutical, scientific research and many other applications. In the industrial field, it is often used as a flux because it can reduce the melting point of metal oxides at high temperatures and assist in metal smelting and welding. In medicine, it can be used as a disinfectant because of its alkalinity and certain bactericidal effects.

What are the precautions for guanidine phosphate in the production process?

Acid leaven is used in the process of raw food, so pay attention to all kinds of things.
The first heavy raw materials. It is necessary to make the best of the best, such as fine rice, small rice, etc. Its dryness, mildew, and lack of quality are good.
The raw materials are good, and the acid leaven is directly leavened. Bad raw materials, or lead to the growth of bacteria, cause acid leaven to not be bad, and the quality is bad.
The control of times and environment. Both the degree and the degree of leaven are poor. If the degree is too high, the bacteria are prone to premature aging; if it is too low, the activity of the bacteria is inhibited, and the acid leaven is bad. Usually, different segments need to be suitable. If the starting point is slightly higher, it is better to promote the germination of bacteria. The quality of the bacteria should also be appropriate. It is too easy to stain the bacteria, and the replacement of the bacteria that are too dry should be blocked. It is necessary to reduce the quality of the bacteria, so as to ensure the environment.
Furthermore, the quality of the bacteria should also be determined. The activity and performance of the bacteria should be improved, and its quality should be maintained. If the bacteria are not damaged, the bacteria should be mixed in, and the way of acid leavening, or other raw materials should be leavened. Before each use, it is necessary to check the activity and quality of the bacteria, and seek safety.
The operation of the bacteria should not be ignored. From the management of raw materials, such as crushing, cooking, to splicing, mixing, etc., all follow the steps. The quality and quality of cooking make the raw materials ripe but not good, so as to facilitate the use of bacteria. The amount and quality of the contact should also be accurate, so that the bacteria can grow. The rate and strength of mixing, and the average distribution of the bacteria, are also appropriate.
Disinfect the bacteria, and wear them at the beginning. The raw materials and utensils must be disinfected. Unsterilized environments and utensils, the bacteria are raw, and it is easy to be stained with acid leaven. Before each operation, use high-quality, chemical disinfection and other methods to reduce the bacteria and the source of pollution.
The process of acid leaven is indispensable. Determine the acidity, sugar content, bacteria and other indicators. According to the whole product, such as the speed of acid leaven or the speed of acid leaven, you can consider the degree, pass, etc. And then it can keep the benefits of acid leaven and get the best products.

What is the market price range of guanidine phosphate?

"Tiangong Kaiwu" says: "The tiller is the beginning of the wine. People know its god but do not know its god." When it comes to the beauty of the tiller, it is related to the foundation of brewing wine. As for the market price range of the tiller anhydride, depending on the situation, its price often varies due to factors such as quality, origin, supply and demand.
High-quality tiller anhydride comes from exquisite materials, and the production process is also complicated and exquisite. Its price is often high in the market. The price per catty may reach more than a hundred gold. This is because of its high quality. When brewing wine, it can produce different flavors. The brewed wine is mellow and rich, and has a long aftertaste. Therefore, it is favored by all winemakers, and the price is high. < Br >
If it is ordinary quality tiller anhydride, the material is not as fine as the high quality, and the craftsmanship is slightly simplified. Its price per catty may be between tens of gold. Although the quality is inferior to the former, it can still meet the needs of general winemaking, and it is often used in market wineries.
There are also inferior quality ones, and the price is even lower, or only a few catties of gold. This kind of tiller anhydride, either due to slightly poor materials or lack of craftsmanship, brews the wine with a flat flavor, and can only be selected for ordinary people's home brewing.
In summary, the market price of tillering anhydride ranges from one catty of gold to one catty above 100 gold. Buyers should choose it carefully according to their own needs and financial resources.