Industry Guanidine Hydrochloride

Lingxian Chemical

Specifications

HS Code	517104
Chemical Formula	CH5ClN2
Molar Mass	95.52 g/mol
Appearance	White crystalline solid
Odor	Odorless
Solubility In Water	Highly soluble
Ph Of Aqueous Solution	Acidic (pH < 7)
Melting Point	181 - 183 °C
Boiling Point	Decomposes
Density	1.34 g/cm³
Hygroscopicity	Hygroscopic
Stability	Stable under normal conditions
Chemical Formula	CH5ClN2
Molar Mass	95.53 g/mol
Appearance	white crystalline solid
Odor	odorless
Solubility In Water	highly soluble
Ph Of Aqueous Solution	acidic
Melting Point	181 - 183 °C
Boiling Point	decomposes
Density	1.34 g/cm³
Cas Number	50-01-1
Flash Point	non - flammable
Stability	stable under normal conditions
Chemical Formula	CH6ClN3
Molar Mass	95.53 g/mol
Appearance	white crystalline solid
Odor	odorless
Solubility In Water	highly soluble
Melting Point	181 - 183 °C
Boiling Point	decomposes
Ph In Solution	acidic
Density	1.354 g/cm³
Stability	stable under normal conditions
Hygroscopicity	hygroscopic
Chemical Formula	HCl·CN3H5
Molar Mass	95.53 g/mol
Appearance	white crystalline solid
Odor	odorless
Solubility In Water	highly soluble
Melting Point	181 - 183 °C
Boiling Point	decomposes
Density	1.34 g/cm³
Ph Of Solution	acidic
Hygroscopicity	hygroscopic
Stability	stable under normal conditions
Cas Number	50-01-1
Chemical Formula	CH5ClN2
Molar Mass	95.52 g/mol
Appearance	white crystalline solid
Odor	odorless
Solubility In Water	highly soluble
Melting Point	181 - 183 °C
Ph Of Aqueous Solution	acidic
Density	1.346 g/cm³
Hygroscopicity	hygroscopic
Stability	stable under normal conditions
Chemical Formula	CH6ClN3
Molecular Weight	95.53 g/mol
Appearance	White crystalline powder
Odor	Odorless
Solubility In Water	Highly soluble
Melting Point	181 - 183 °C
Ph 1 Solution	4.5 - 7.0
Density	1.34 g/cm³
Boiling Point	Decomposes
Stability	Stable under normal conditions
Chemical Formula	CH6ClN3
Molar Mass	95.53 g/mol
Appearance	white crystalline powder
Odor	odorless
Solubility In Water	highly soluble
Melting Point	181 - 183 °C
Boiling Point	decomposes
Ph Aqueous Solution	acidic
Density	1.34 g/cm³
Stability	stable under normal conditions
Hygroscopicity	hygroscopic
Chemical Formula	CH5ClN2
Molar Mass	95.52 g/mol
Appearance	white crystalline solid
Odor	odorless
Solubility In Water	highly soluble
Melting Point	181 - 183 °C
Boiling Point	decomposes
Ph Of Aqueous Solution	acidic
Density	1.354 g/cm³
Stability	stable under normal conditions
Chemical Formula	CH5ClN2
Molar Mass	70.52 g/mol
Appearance	white crystalline solid
Odor	odorless
Solubility In Water	highly soluble
Melting Point	181 - 183 °C
Boiling Point	decomposes
Density	1.34 g/cm³
Ph In Aqueous Solution	acidic
Hygroscopicity	hygroscopic
Stability	stable under normal conditions
Chemical Formula	CH6ClN3
Molar Mass	95.53 g/mol
Appearance	white crystalline powder
Odor	odorless
Solubility In Water	highly soluble
Ph Of Aqueous Solution	acidic
Melting Point	181 - 183 °C
Boiling Point	decomposes
Density	1.34 g/cm³
Hygroscopicity	hygroscopic
Stability	stable under normal conditions
Chemical Formula	CH5ClN2
Molar Mass	95.53 g/mol
Appearance	white crystalline solid
Odor	odorless
Solubility In Water	highly soluble
Melting Point	181 - 183 °C
Ph Of Aqueous Solution	acidic
Density	1.34 g/cm³
Boiling Point	decomposes
Hygroscopicity	hygroscopic
Cas Number	50-01-1
Chemical Formula	HCl·CNH5
Molar Mass	53.57 g/mol
Appearance	White crystalline solid
Odor	Odorless
Solubility In Water	Very soluble
Ph Of Aqueous Solution	Acidic
Melting Point	118 - 122 °C
Boiling Point	Decomposes before boiling
Density	1.34 g/cm³
Stability	Stable under normal conditions
Chemical Formula	HCl·HNC(NH2)2
Molar Mass	95.53 g/mol
Appearance	white crystalline solid
Odor	odorless
Solubility In Water	highly soluble
Melting Point	181 - 183 °C
Ph Of Aqueous Solution	acidic
Density	1.354 g/cm³
Hygroscopicity	hygroscopic
Ability To Denature Proteins	capable of denaturing proteins
Chemical Formula	HCl·CNH3
Molar Mass	53.5 g/mol (guanidine) + 36.46 g/mol (HCl)
Appearance	White crystalline solid
Odor	Odorless
Solubility In Water	Highly soluble
Ph Of Aqueous Solution	Acidic
Melting Point	181 - 183 °C
Boiling Point	Decomposes before boiling
Density	1.34 g/cm³
Hygroscopicity	Highly hygroscopic
Chemical Formula	CH6ClN3
Molar Mass	95.53 g/mol
Appearance	white crystalline solid
Odor	odorless
Solubility In Water	highly soluble
Melting Point	180 - 183 °C
Boiling Point	decomposes
Density	1.354 g/cm³
Ph Aqueous Solution	acidic
Stability	stable under normal conditions
Hygroscopicity	hygroscopic
Chemical Formula	HCl·CNH5
Molar Mass	53.57 g/mol
Appearance	white crystalline solid
Odor	odorless
Solubility In Water	highly soluble
Melting Point	181 - 183 °C
Boiling Point	decomposes
Density	1.34 g/cm³
Ph Of Aqueous Solution	acidic
Cas Number	50-01-1
Storage Conditions	store in a cool, dry place
Chemical Formula	CH5ClN2
Molar Mass	95.52 g/mol
Appearance	white crystalline solid
Odor	odorless
Solubility In Water	highly soluble
Ph Of Aqueous Solution	acidic
Melting Point	180 - 183 °C
Boiling Point	decomposes
Density	1.34 g/cm³
Stability	stable under normal conditions
Hygroscopicity	hygroscopic
Chemical Formula	CH6ClN3
Molar Mass	95.53 g/mol
Appearance	white crystalline solid
Odor	odorless
Solubility In Water	highly soluble
Melting Point	180 - 183 °C
Boiling Point	decomposes
Ph Of Aqueous Solution	acidic
Density	1.34 g/cm³
Stability	stable under normal conditions

Packing & Storage

Packing	500 - gram bags of Industry Guanidine Hydrochloride with secure chemical - resistant packaging.
Storage	Industry Guanidine Hydrochloride should be stored in a cool, dry, and well - ventilated area. Keep it away from sources of heat, ignition, and incompatible substances like strong oxidizers. Store in tightly - sealed containers to prevent moisture absorption. This helps maintain its chemical stability and reduces the risk of safety hazards during storage.
Shipping	Industry Guanidine Hydrochloride is shipped in well - sealed, corrosion - resistant containers. Transport follows strict chemical safety regulations to prevent spills, ensuring safe delivery to destinations for various industrial applications.

Free Quote

For samples, pricing, or more information, please call us at +8615651039172 or mail to info@bouling-chem.com.

We will respond to you as soon as possible.

Tel: +8615651039172

Email: info@bouling-chem.com

General Information

Frequently Asked Questions

What are the main application fields of industrial guanidine hydrochloride

The main uses of boric anhydride in engineering are listed as follows:
First, metallurgical fields. In metallurgical operations, boric anhydride is often used as a melting aid. Because it can effectively reduce the melting time of gold, it is easier for gold to melt and flow in the smelting, so it greatly improves the efficiency of smelting. In ancient smelting, if you want to make gold refined, you also use similar things to help melt. Boric anhydride also has the same effect in today's metallurgy. For example, the addition of boric anhydride, such as metallurgy, can make the metal easier to separate and improve the quality of gold.
Second, glass engineering. Boric anhydride is an important addition to glass manufacturing. Adding it to glass raw materials can improve the properties of glass. On the one hand, it can improve the quality of glass and make the glass more resistant to acid and corrosion; on the other hand, it can reduce the swelling of the glass and make the glass not easy to break at high temperature. In ancient glazing, it was not known that boric acid anhydride was used, but it pursued the resistance and resistance of glaze. Today, boric acid anhydride is used for the purpose of glass manufacturing.
Third, ceramic craftsmanship. In ceramic production, boric acid anhydride has an extraordinary effect. First, it can serve as a melting aid for ceramic glaze, reduce the melting degree of glaze, make the glaze more uniform and smooth, and improve the beauty of ceramics. Second, it can increase the mechanical quality of ceramics. In the past, when ceramics were made, craftsmen also sought common materials to improve the properties of ceramics. Boric anhydride can be used in today's ceramics.
Fourth, the chemical industry. Boric anhydride can be used as a raw material for other boron compounds. From the reaction, many borides with special properties can be derived, which are used in catalysis, flame retardant and other aspects. For example, in the synthesis of some efficient catalysts, boric anhydride is an important starting material. With its basis, it is possible to obtain high-efficiency catalysis and accelerate the reaction.

What are the Quality Standards for Industrial Acid?

The quality of industrial boric acid is the basis for measuring its quality. Industrial boric acid products, the first heavy degree, high degree of boric acid, contain less, can ensure the effectiveness of industrial production in many applications. Usually, the degree of industrial boric acid needs to be a certain proportion to meet the requirements of the product.
Secondly, the particle size is also an important indicator. The appropriate particle size can make boric acid more evenly dispersed when it is reacted or added, and improve the efficiency or performance of the product. If the particle size is too large, it can be fully dissolved or dispersed; if the particle size is too small, it may cause aggregation and so on.
Furthermore, the outer layer should not be ignored. Industrial boric acid, the outer layer is uniform in color and shape, and the outer layer is mixed. This can be used to preliminarily determine whether the production process is good and whether it is contaminated by the outside world.
In addition, in terms of chemical properties, industrial boric acid needs to have certain acidity and other characteristics. Because in different processes, it is necessary to determine the coexistence of other chemical substances or the reverse of the production period. If the acidity is not low, it may affect the balance of the chemical system and cause the product to be low.
Therefore, the product quality of industrial boric acid has requirements in many aspects, such as self-size, particle size, and external chemical properties. This kind of product interacts with each other to jointly ensure that the industrial boric acid can be properly used in the industrial field, and provide a reliable raw material base for each production.

What are the precautions for industrial guanidine hydrochloride during storage and transportation?

It is necessary to keep an eye on the matter of the storage of boric acid. When working on boric acid, the nature is peaceful, and the storage of boric acid, it is also necessary to be cautious.
The storage of boric acid, the first important place. It is advisable to avoid the dryness of the room, and avoid the dark place of the tide. The tide is easy to cause boric acid to absorb moisture, which affects its product, or the risk of health. And the temperature of the room is also appropriate, and it should not be high or low. The high temperature may cause some chemical reactions, which is low; low temperature or cause its physical shape to be changed, which is unfavorable for use.
Furthermore, the method of stacking is also studied. The package of boric acid, multiple bags or barrels, stacking needs to be neat and orderly, and cannot be used. And the stacking should not be high, in order to prevent overturning, smashing the package, and causing boric acid leakage. The stacking of the stack, it is appropriate to leave a channel, so that it is easy to inspect and move.
When it is too high, the package must be firm., sea or empty, all need to retain boric acid in the turbulence, so that the package will not be broken., Clear the dry air, cover the tarpaulin, and prevent rainwater from infiltrating. The sea should avoid the tidal and dry areas, and pay attention to other odor and perishable materials, so as not to stain each other. The air also needs to follow the requirements of the phase aviation, packaging and packaging.
The same, people also know its nature, careful operation. If the package is damaged or boric acid leaks on the way, it will be cleaned up immediately, and it should not be allowed to be scattered, in order to prevent the environment from being contaminated, and to prevent others from being damaged, which will lead to adverse reactions. In addition, the storage of industrial boric acid, the safety of products, and the safety of the environment should all be treated with the same degree, and there should be no slack.

What is the market price range of industrial guanidine hydrochloride?

In a boric-acid-covered market, there are often fluctuations due to factors such as product quality, land supply, supply and demand. In today's world, the boric-acid coating of ordinary workmanship, its price may be around 1,000 yuan per year. If the product is high-quality, and it is self-named, and if there is a need for more and less supply, its price may rise; on the contrary, if the product is average, the land supply will be abundant, or it will decline.
Ancient cloud: "Things are thin, and more." The boric-acid covering of workmanship also follows this principle. Supply is based on demand, and merchants sell it, and it will be low from the bottom; if there is a need for supply, those who need it will be high, and those who need it will be high. And those who are high-quality, use fine materials and good workmanship, and their own products will be high.
In addition, in different places, due to differences such as cost and cost, the cost is also low. In places close to raw materials and convenient transportation, the cost is slightly lower, or it is appropriate; in places where the cost is high, the cost is increased, and the cost is slightly higher.
Of course, the cost of industrial boric acid is uniform, and it is estimated that the cost per product is from 1,000 yuan to higher.

What are the advantages of industrial guanidine hydrochloride compared to other similar products?

Compared with other similar products, industrial boric acid has special properties. The industrial boric acid property is determined, and in various industrial processes, it can ensure the stability of the glass, which is one of the reasons. For example, in the glass manufacturing process, adding industrial boric acid can make the glass have better resistance and transparency, and the durability can also be increased. If other materials are used instead, this delicate effect can be achieved.
In addition, industrial boric acid has the flame retardant properties. For multi-materials, such as plastics and plastics, adding industrial boric acid can improve its flame retardant ability. In case of fire, it can effectively delay the combustion and ensure the safety of life and people.
In addition, workable boric acid also has an outstanding performance in the surface treatment of gold. It can help gold to form a dense protective film, resist corrosion, and prolong the life of gold utensils. Other anti-corrosion materials, workable boric acid cost is low, and the effect is good.
It can also be used wonderfully in ceramic glazes. It can reduce the melting degree of the glaze, make the manufacturing process easier to control, and make the glaze smooth and bright, which greatly enhances the beauty of ceramic products. This kind of quality is not easy to match with other similar products. It is an indispensable material for workmanship and production.