Guanidine Hyhdrochloride & Thiocyanate & Carbonate

Lingxian Chemical

Specifications

HS Code	558457
Chemical Formula Guanidine Hydrochloride	CH6ClN3
Molar Mass Guanidine Hydrochloride	95.53 g/mol
Appearance Guanidine Hydrochloride	white crystalline solid
Solubility Guanidine Hydrochloride	highly soluble in water
Chemical Formula Thiocyanate	SCN⁻ (as an anion)
Molar Mass Thiocyanate	58.08 g/mol (for SCN⁻)
Appearance Thiocyanate Common Salts	usually colorless to white solids
Solubility Thiocyanate	soluble in water
Chemical Formula Carbonate	CO₃²⁻ (as an anion)
Molar Mass Carbonate	60.01 g/mol (for CO₃²⁻)
Appearance Carbonate Common Salts	white solids
Solubility Carbonate	varies, some are soluble like sodium carbonate, some are insoluble like calcium carbonate

Packing & Storage

Packing	5 - kg bag of a mix containing guanidine hydrochloride, thiocyanate, and carbonate.
Storage	Guanidine hydrochloride, thiocyanate, and carbonate should be stored in a cool, dry, well - ventilated area away from sources of heat, flames, and incompatible substances. Keep them in tightly sealed containers to prevent moisture absorption and contamination. Store separately as they may react with certain chemicals. Avoid storing near oxidizing agents or strong acids.
Shipping	Ship Guanidine Hydrochloride, Thiocyanate, and Carbonate carefully in sealed, corrosion - resistant containers. Follow strict hazardous chemical shipping regulations, ensuring proper labeling and documentation to safeguard transport and handlers.

Free Quote

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Guanidine Hyhdrochloride & Thiocyanate & Carbonate

General Information

Historical Development

After tasting the industry of chemical industry, various things multiply, among which guanidine hydrochloride, thiocyanate and carbonate have their own sources.
In the past, alchemists sought pills, but they unintentionally obtained the prototype of guanidine hydrochloride. At first, they did not understand its properties, but only felt that the color was heterogeneous. After the study of Baigong, it gradually became clear that its chemical properties were gradually useful in various industries.
Thiocyanate was found in minerals in the early days, and the ancestors refined it and obtained it. At first, it was dyed with fresh color, and then it was used in metallurgy and other industries to develop its capabilities.
Carbonate, which existed in ancient times, is common in stones. The natives burn it with stones and get lime, which is the change of carbonate. They build houses and walls, which are very strong. Over the years, people have explored its properties in detail, and its uses are becoming more and more extensive. The three things, deduced over time, have great contributions and far-reaching influence in this world, and have become indispensable materials for chemical industry.

Product Overview

Today there are various things, called Guanidine Hydrochloride, Thiocyanate, Carbonate. These things, in the field of chemical industry, each has its own ability.
Guanidine Hydrochloride is active, often used as a reaction aid, in the process of synthesis, to promote its change and rapid formation.
Thiocyanate, with characteristics, or can be used for the quality of material analysis, or to help color change, in industrial things, many of its uses.
Carbonate, a common thing, is indispensable in the building materials, chemical and pharmaceutical industries. It is stable and widely used, can be used as a basic material, and can also be used as a reaction agent.
Although these three are different, they complement each other in the way of chemical industry and work together for the prosperity of industry. In this world, they have made great contributions.

Physical & Chemical Properties

Guanfu guanidine hydrochloride, thiocyanate and carbonate are all chemical substances. Guanidine hydrochloride is active in nature and is often an important angle in many reactions. It can change the chemical path and promote its rapid travel. Thiocyanate has unique properties, either color change, or it shows its ability in complex reactions. Carbonate, common in the world, its chemical properties, when it encounters acid, it produces gas, and it is involved in geology and chemical industry.
The physical properties of the three are also different. Guanidine hydrochloride, mostly crystalline, soluble in water, changes in temperature and humidity, or affect its shape. Thiocyanate, different in appearance, or powder, or crystalline, has different solubility. Carbonate, commonly used as a solid, has its own characteristics of hardness, density, etc. These three are in the field of chemistry, each developing its own capabilities, which are of great importance to scientific research and industry.

Technical Specifications & Labeling

For chemical products such as Guanidine Hydrochloride, Thiocyanate and Carbonate, the technical specifications and identification (product parameters) are the key. To observe various products, it is necessary to carefully review their purity, content, properties and other parameters. Such as Guanidine Hydrochloride, when it is clear that its content is geometric, whether there are impurities, and what its color state is. Thiocyanate must investigate whether its chemical properties are stable or not, and its reaction characteristics in different environments. Carbonate also checks its particle size, solubility, etc. On the logo, the name, chemical formula, content, scope of application, precautions, etc. should be clearly written, so that the user can see at a glance, without the risk of misuse. Strictly abide by the technical specifications and clearly identify, so as to ensure the proper use of the product, no safety problems, and promote the smooth operation of the chemical industry.

Preparation Method

Guanfu guanidine hydrochloride, thiocyanate and carbonate, the preparation method is related to the raw materials and production process, reaction steps and catalytic mechanism, which is the key.
To make guanidine hydrochloride, first take cyanamide and hydrochloric acid as raw materials, and control the temperature in a moderate environment to make it slow down. When reacting, it is necessary to observe its signs and adjust them in a timely manner. After the application is completed, after separation and purification, the refined guanidine hydrochloride can be obtained.
As for thiocyanate, based on cyanide and thiocarbon, in a specific container, follow the appropriate process to promote its phase transformation. During the process, pay attention to changes in conditions to ensure smooth progress.
Carbonate is made, or metal oxides and carbon dioxide are selected, and the product is obtained through ingenious processes. Its catalytic mechanism can increase the rate of improvement and optimize the whole process. All this preparation method needs to be followed in order to achieve the best effect.

Chemical Reactions & Modifications

The chemical industry is related to the change of substances, and the matter of transformation and modification is particularly crucial. For example, Guanidine Hydrochloride, Thiocyanate and Carbonate products, their chemical reactions and performance changes are worth studying.
Guanidine Hydrochloride can combine with various substances in a specific medium, so that the physical properties can be changed. Thiocyanate also plays an important role in the reaction system, affecting the rate and direction of the reaction, and then changing the properties of the compound products. Carbonate is used in many reactions, either as a reactant or as a regulating agent, which has a significant impact on the overall reaction process and product characteristics.
If you want to do a good job, you must investigate the reaction mechanism in detail, explore the change of conditions, and how to control the properties of the product. After repeated experiments and inference, you can grasp its laws and achieve optimization, so that such products can play a better role in the field of chemical industry.

Synonyms & Product Names

The hydrochloride, thiocyanate and carbonate of guanidine are all chemical categories. The hydrochloride of guanidine, also known as guanidine hydrochloride, is a salt of guanidine and hydrochloric acid. It is widely used and is often used as a protein denaturant in biochemical experiments. Thiocyanate, a salt containing thiocyanate, also has a variety of uses and is quite important in the chemical industry and other fields. Carbonate, a salt containing carbonate, also has its utility in many ways.
Although these are different compounds, they all have their unique value in the field of chemistry. Both play a key role in experimental research and industrial production. For example, guanidine hydrochloride changes the structure of proteins and helps biochemical research; thiocyanate participates in chemical synthesis; carbonate is widely used in building materials and other industries. It is an indispensable part of the chemical world.

Safety & Operational Standards

Code for safety and operation of guanidine hydrochloride, thiocyanate and carbonate products
Fuguanidine hydrochloride, thiocyanate and carbonate chemicals are all commonly used products in our field of chemical research. However, it has potential risks, so it is essential to know its safety and operation standards.
Guanidine hydrochloride is highly corrosive and will cause burns when it touches the skin and mucous membranes. When used, it should be equipped with protective equipment, such as gloves, goggles, etc. And it is easy to deliquescent and should be stored in a dry place to avoid mixing with water and acids to prevent unexpected reactions.
Thiocyanate is also not to be underestimated, its toxicity is quite strong, inhalation, ingestion or percutaneous absorption can endanger health. In a well-ventilated place, and do not let the powder drift in the air. If you accidentally touch it, quickly rinse with a lot of water and seek medical treatment. When storing, it should be placed separately from oxidants and acids, because it can produce toxic gases when exposed to acids.
As for carbonates, although slightly less corrosive, some of them are also irritating. When operating, you also need to be careful. Take an appropriate amount, do not waste it, and properly dispose of the rest, do not dump it at will. Storage should be moisture-proof, because after it absorbs moisture, it may cause changes in properties.
Anyone who uses these things must read the instructions carefully to explain their characteristics, hazards and emergency methods. In the experimental site, prepare first aid medicine and equipment. Use it carefully to clear the instruments and countertops to prevent residue.
In short, chemical research, safety comes first. Strictly abide by the operating standards, in order to avoid disasters and ensure the smooth research.

Application Area

Guanidine Hydrochloride, Thiocyanate and Carbonate are widely used in chemical substances. Guanidine Hydrochloride is used in biochemical research, which can break the structure of protein and clarify its properties and properties. If the folding of protein is analyzed and the change of its activity is explored, it depends on this. Thiocyanate is used in metallurgy, which can help to extract precious minerals such as gold and silver, because it is in harmony with the mineral, making it easy to separate. Carbonate is more common in industry. When making glass, adjust its temperature and quality, so that the glass is firm and transparent; when it is used in building materials, it is used as a raw material for cement, and it is condensed to build large-scale buildings. These numbers, each of which has its own capabilities, benefits the progress of scientific research, promotes the prosperity of industry, and contributes to the development of the world.

Research & Development

Since modern times, there have been many researchers studying chemical products. Among the compounds, Guanidine Hydrochloride, Thiocyanate and Carbonate are the genera that have attracted the attention of researchers.
Researchers observe its properties, study its rationale, and want to clarify its use in various fields. Guanidine Hydrochloride has specific chemical properties, or can be used in pharmaceutical production, material research, etc. Thiocyanate is also used in metallurgy, printing and dyeing. Carbonate is widely used in building materials and chemical production.
The road to research is not smooth, and in order to make it widely used, many problems need to be solved. Such as the rise in yield and the control of pollution. Researchers are working hard to make progress. In time, if all kinds of problems are solved, the contribution of these things to industry and people's livelihood may be limitless, which will surely lead to the advancement of chemical industry and promote the prosperity of society.

Toxicity Research

The chemical industry is related to people's livelihood, but the study of poisons should not be careless. Today there are Guanidine Hydrochloride, Thiocyanate and Carbonate products, and the investigation of their toxicity is of paramount importance.
Guanidine Hydrochloride is strong in nature, entering the body or messing with the order of the organs, damaging the communication of veins and collaterals. Thiocyanate is also toxic, which can disturb the movement of qi and blood, and harm the peace of mind. Although Carbonate has a wide range of uses, its toxicity should not be underestimated, either hurting the muscles and bones, or hindering the mechanism of biochemistry.
To study its toxicity, it is necessary to observe the way it enters the body, or through the mouth and nose, or through the skin. Looking at its symptoms, such as vomiting, dizziness, body fatigue, and even life-threatening. Therefore, in the production and use of various products, we should be cautious to prevent their toxic invasion, so as to protect the well-being of the people. This is the heavy responsibility of our chemical researchers.

Future Prospects

In the future, there will be a great deal of chemical products. Guanidine Hydrochloride and Thiocyanate Carbonate products will have a great deal of convenience. In this world, science and technology are changing day by day, and these things have extraordinary performance in the field of technology and engineering. In the future, it is expected that they will be used in the research and development of new energy and the maintenance of new energy, and they will also be greatly improved. Or they can help make the new energy more convenient, so that the method of protection and governance is more refined. Or they can be used in the system of new materials and new faces, so that the life of the world can be as convenient as Xian. In this case, its undeveloped, can be looked forward to, and the prospect is clear, and it will definitely be used by the world to create a good life.

Frequently Asked Questions

What are the main uses of guanidine hydrochloride, thiocyanate and carbonate?

Borax, arsenic and carbonic acid, each have their own uses, as you mentioned.
Borax is sweet and salty in nature. Its use, in the Tao, can clear and detoxify, especially good for the pain of the mouth and throat. Because borax has the power to clear the fire, it can relieve the poison of the coke, so that the pain can be eliminated. And for external use, it is often mixed with powder, applied to the patient, and the effect is good. In the field of work, borax can be used in metallurgy, to help melt gold, to improve its essence; in glass manufacturing, it can increase the transparency and transparency of the glass, so that its quality is better.
Arsenic, a poisonous substance, is also effective when used properly. The family uses it to treat diseases, but it can be rotten, and it can be used for diseases such as water, scallops, etc. In ancient times, arsenic was not good. Arsenic can use its toxicity to fight poison with poison and make evil particles dissipate. However, its nature is harsh, and the dosage is not careful, and if it is not careful, it will endanger life. In addition, arsenic was occasionally used to eliminate harm in the past, but now it is rarely used because of its poison.
Carbonated substances also have various uses. For industrial purposes, carbonated acid is often used in the manufacture of water, glass, glass, etc. The production of water can help to divide the water and make the water better. Glass can be used to reduce the melting of glass and save energy. In life, carbonation can be used for food expansion, so that cakes and other foods are sparse and delicious; it can also clear oil stains, because of its properties, it can be saponified and reversed, removing stains.
As such, borax, arsenic, carbonate, or the help of others, or those who use them effectively in work and life, must understand their nature and laws in order to obtain their benefits and avoid their harm.

What are the environmental effects of guanidine hydrochloride, thiocyanate, and carbonate?

"Tiangong Kaiwu" cloud: Fu borax, arsenic and carbonate, all three have a great impact on the environment.
Borax, its cold nature, mostly from salt lakes, dry salt lakes and other mines. If it is discarded wantonly in the natural environment, borax dissolves into water and soil, which is easy to cause soil compaction, fertility decline, plants are difficult to take root and germinate, and growth is blocked. If the water flow contains too much borax, aquatic organisms will also be harmed by it, or the population will wither.
Arsenic, a highly toxic substance. If arsenic accidentally leaks into the environment and seeps into the soil, its toxins can remain for a long time, and the surrounding plants and trees will wither. Birds and beasts will also die if they accidentally eat poisonous grass or drink poisonous water. In the water source, even if there is only a small amount of arsenic, it is enough to endanger humans and animals, causing many serious diseases, such as abdominal pain, vomiting, organ failure, etc., which pose a great threat to ecological balance and human health.
As for carbonate sand, although it is slightly less toxic than arsenic sand, it also has an impact on the environment. If a large amount of carbonate sand enters the water body, it will change the pH of the water body and cause an imbalance in aquatic ecology. Accumulate in the soil, or change the chemical properties of the soil, affect the activities of soil microorganisms, and then interfere with the absorption of nutrients by plants, hindering the normal growth of plants. Therefore, when mining and using such sand, we should exercise extra caution, follow the rules, and dispose of it properly, so as not to let it escape into the environment, so as to protect the ecological security and preserve the peace of all things.

What are the precautions for guanidine hydrochloride, thiocyanate and carbonate during storage and transportation?

Borax, boron borate, boron phosphate and boron carbonate are all commonly used in the chemical industry. During storage and transportation, it is necessary to pay attention to many matters.
Borax is sodium borate containing crystalline water. Its properties are stable, but it is easy to decompose when exposed to acid. When storing, it should be stored in a dry, cool and well-ventilated place to prevent moisture. Because of its toxicity, it needs to be stored in isolation from food, medicine, etc., to avoid misuse. During transportation, ensure that the packaging is intact to avoid leakage caused by bumps and collisions.
Boron borate, which is less acidic, should also be stored in a dry place. Because it is corrosive, it should not be in contact with metal objects for a long time, otherwise it is easy to cause metal rust. When transporting, it needs to be loaded in a corrosion-resistant container, and sealing measures should be taken to prevent rainwater from invading.
Boron phosphoroborate has more active chemical properties and has stricter requirements on the storage environment. It should be stored in a low temperature, dry and dark place, away from fire and heat sources. Because it may react in case of heat or water, the packaging must be tight. During transportation, it should be avoided to mix with oxidizing substances to prevent danger.
Boron carbonate has relatively poor stability and is easy to decompose to produce carbon dioxide. When storing, it is necessary to control the ambient humidity and temperature to avoid its decomposition. During transportation, it is also necessary to ensure that the package is well sealed to prevent gas from escaping.
In short, these borides must be stored and transported according to their characteristics to ensure the safety of personnel and the integrity of materials.

What are the production methods of guanidine hydrochloride, thiocyanate and carbonate?

The methods of making borax acid, phosphoric acid and carbonate acid are various in ancient times, and they are described by you today.
For borax acid, one of the methods is to combine borax acid. If borax encounters sulfuric acid, boric acid and sulfuric acid will be produced. The reverse formula is: borax (Na ² B O), sulfuric acid (H ² SO) and water (H ² O) are co-reacted to obtain boric acid (H 🥰 BO 🥰) and sulfuric acid (Na 🥰 SO). In order to obtain boric acid, it is necessary to use the method of extraction. It is also started with boron stone, which is first co-melted to obtain boric acid, and then acid treatment, or boric acid.
Phosphoric acid production method, which is usually made of apatite raw materials. Apatite sulfuric acid reaction, phosphoric acid and sulfuric acid can be obtained. The reaction is as follows: apatite (Ca (PO) 🥰 F) plus sulfuric acid (H ² SO), to obtain phosphoric acid (H ² PO) and sulfuric acid (CaSO). The obtained phosphoric acid is then reacted with gold oxide or carbonate, which can form various phosphoric acids, such as phosphoric acid, phosphoric acid. Or make apatite coke, quartz sand in high temperature, the first element phosphorus, phosphorus is then burned into phosphorus pentoxide, phosphorus pentoxide is dissolved in water to form phosphoric acid, and phosphoric acid is obtained.
Carbonic acid, the first way is to use limestone (carbonic acid) to reduce the original. Limestone calcined, decompose and oxidize (CaO) and carbon dioxide (CO ²). Make the oxidized water reverse to obtain oxidation (Ca (OH) ³), and then use carbon dioxide to form carbonate. If carbon dioxide is passed through an oxidized solution, carbonate can be obtained. Its reverse oxidation (NaOH) and carbon dioxide (CO ²) reverse, Mr. Carbonic acid (NaHCO 🥰), carbonic acid is decomposed to obtain carbonic acid. There are also natural solutions to extract carbonic acid. There are multiple and refined methods to obtain various carbonic acids.

What are the market price trends for guanidine hydrochloride, thiocyanate, and carbonate?

In today's world, the price trend of borax boron ore, phosphate rock phosphoric acid and carbonate ore in the market is quite popular. Borax boron ore, boron is used in the chemical industry, medicine, building materials and other industries, and has a wide range of uses. The amount of its mineral sources, the difficulty of mining, are closely related to the market price. In recent years, due to the advance of science and technology, the new use of boron has become more and more widespread, causing demand to rise. However, if the mineral resources are abundant and the mining is smooth, the price will decline steadily; if the mineral resources are scarce and the mining is difficult, the price will rise.
Phosphate rock phosphate is the same. Phosphorus is an indispensable raw material in agricultural fertilizers, chemical industries and other industries. The rise of global agriculture has a constant demand for phosphate rock. However, its mining is limited by environmental regulations, geopolitics, etc. If the regulations are strict, the geopolitical changes, the supply may not be smooth, and the price fluctuates. In recent years, environmental protection has tightened, phosphate mining has been limited, and the price of phosphoric acid has also risen.
As for carbonate ore, it has a variety of uses, and it is used in building materials, metallurgy, and chemical industry. Its market price is affected by the rise and fall of construction and the rise and fall of industry. When construction is booming, industry is booming, and demand for carbonate ore surges, prices will rise; if construction is sluggish and industry is sluggish, demand will decrease and prices will fall.
In short, the market price of these numbers is determined by supply and demand, policies, and geopolitics. Businesspeople need to carefully observe the current situation in order to make profits and avoid risks in the city.