Stearic Acid, Compound With Guanidine (1:1)

Lingxian Chemical

Specifications

HS Code	199644
Chemical Formula	C18H36O2·C3H5N3
Molecular Weight	383.58 g/mol
Appearance	Solid
Odor	Typical fatty acid odor
Melting Point	135 - 138 °C
Solubility In Water	Insoluble
Solubility In Organic Solvents	Soluble in common organic solvents like ethanol, benzene
Ph Aqueous Solution	Neutral in pure form
Density	Approx. 1.0 - 1.1 g/cm³
Stability	Stable under normal conditions

Packing & Storage

Packing	Stearic acid - guanidine (1:1) compound, 500g, packaged in a sealed plastic bag.
Storage	Store the chemical "Stearic Acid, Compound With Guanidine (1:1)" in a cool, dry place away from heat sources. Keep it in a tightly - sealed container to prevent contact with moisture and air, which could potentially affect its stability. Avoid storing near incompatible substances like strong oxidizers. Follow safety regulations and ensure proper labeling for easy identification.
Shipping	Stearic acid, compound with guanidine (1:1) is typically shipped in well - sealed containers, ensuring protection from moisture and contamination. Special handling may be required due to its chemical nature, following all relevant transportation regulations.

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Stearic Acid, Compound With Guanidine (1:1)

General Information

Historical Development

I heard that there is a thing in the world called "Stearic Acid, Compound With Guanidine (1:1) ". The origin of this thing can be traced back to the past. In the past, various sages studied the field of chemistry unremitting, and after countless trials and errors, they could observe the characteristics of this thing.
At the beginning, everyone's understanding of it was still shallow, only a little bit of knowledge. However, as the years passed, scholars diligently explored, and in experiments, they gradually understood its chemical properties and reaction rules. From the initial ignorance, to the gradual mastery of its synthesis method, the application path gradually expanded.
Over the years, the research on "Stearic Acid, Compound With Guanidine (1:1) " has continued, the knowledge has been enriched, and its potential in various fields has gradually been revealed, paving a solid path for the development of chemistry in later generations.

Product Overview

The researcher of a certain day-to-day chemical has obtained a product named Stearic Acid, Compound With Guanidine (1:1). This is a compound of fatty acid and guanidine in a ratio of one to one. Looking at its shape, it is powdery, white and pure in color, and delicate in texture. Its mild nature is quite effective in many fields. In skin care creams, it can increase its consistency, make the skin feel soft, and has good moisturizing ability to help the skin retain moisture. In industrial lubricants, it can reduce friction, improve the smooth operation of equipment, reduce wear and tear to prolong its lifespan. When preparing, conditions such as temperature control and speed are required to ensure uniform and stable quality. The combination of the two substances is a good choice for daily use and industry, with promising prospects.

Physical & Chemical Properties

There is now a thing called Stearic Acid, Compound With Guanidine (1:1). Looking at its physical properties, at room temperature, it is like coagulation, white and pure in color, and delicate to the touch. Its melting point is moderate, it melts when heated, and it is in a flowing state. It cools and coagulates.
In terms of its chemical properties, it is unique. It can phase with various reagents, and under specific conditions, it can undergo wonderful changes. When it encounters acids and bases, it has a different response, either neutralizing or generating new substances.
This substance is used in many fields, either as a raw material for chemical industry or to assist the progress of scientific research. Its physical and chemical properties complement each other, providing the foundation for its wide application. Exploring its properties can contribute to various undertakings and benefit a great deal.

Technical Specifications & Labeling

Today there is a product called Stearic Acid, Compound With Guanidine (1:1). To clarify its technical regulations and identification (commodity parameters), you should check it carefully.
This product's technical regulations are related to the method of production. The ratio of materials needs to be accurate, and Stearic Acid and Guanidine are combined at 1:1. When making, the temperature and humidity are also fixed, and it must be in a suitable environment before it can become its quality. The order of processing must not be disordered, and all steps are interconnected.
As for the logo (commodity parameters), its characteristics should be clearly stated, and color, taste, and state are all key points. The purity geometry also needs to be confirmed, which is related to the quality. And its use and storage methods should be clearly marked so that users know and there is no risk of misuse. In this way, the gist of this product's technical regulations and identification (product parameters) can be obtained.

Preparation Method

Stearic Acid, Compounded With Guanidine (1:1) is made in this product. The method is as follows: Prepare the materials first, using stearic acid and guanidine as the raw materials. Stearic acid is obtained from vegetable or animal oils and fats by hydrolysis and distillation. Guanidine is prepared by co-heating calcium cyanamide with water, and then distillation and concentration.
Put stearic acid and guanidine in a 1:1 ratio in a reactor, control the temperature at a moderate temperature, about [X] degrees Celsius, and stir at a constant speed with a magnetic stirrer to promote its full reaction. During the reaction, observe the change of its color and viscosity. After the reaction is completed, the temperature is lowered to room temperature, and the product is crystallized, filtered, and dried to obtain pure Stearic Acid, Compound With Guanidine (1:1). This preparation method, the raw materials are easy to obtain, the process is simple and controllable, and it can become a good product.

Chemical Reactions & Modifications

The wonders of chemistry are related to the change of substances and the change of properties. Today there is Stearic Acid, Compound With Guanidine (1:1). The chemical reaction and modification of this compound are really the focus of our investigation.
Stearic Acid and Guanidine are combined in a specific ratio, and the reaction caused is very wonderful. During the reaction, the molecular structure is reorganized, which is like a reinvention of the universe. And its modification is related to the change of physical properties or the change of chemical activity.
We have dedicated ourselves to studying the mechanism of its reaction and exploring the mystery of its modification. I hope to borrow the methods of the sages of the past to understand the changes. Hoping to be able to gain the true meaning of the reaction and modification of this compound in the field of chemistry, it will open up new avenues for future applications and live up to the mission of chemical exploration.

Synonyms & Product Names

In today's chemical industry, there is a name called Stearic Acid, Compound With Guanidine (1:1). Although the names of this thing are different in the industry, they all refer to this Stearic Acid, Compound With Guanidine (1:1).

The ancients said: "The name is the real guest." The name of this compound is also very general. Or from its chemical quality to show its properties; or take its wide range of uses to show its merits. The names of its products also vary according to the needs of the city and the policies of business.
Although the names are different, they all refer to this Stearic Acid, Compound With Guanidine (1:1). Just like all things in ancient times, they have different names but are homogeneous. Either this or that, in fact, they are the same. Although the names of the scholars in the chemical industry are mixed, they know their essence, so they can use them clearly and improve their skills to promote the prosperity of the chemical industry.

Safety & Operational Standards

Guanidine stearate (1:1) Product safety and operation specifications
Guanidine stearate (1:1), the product of transformation is also. To clarify its safety and operation specifications, it must be studied in detail.
This thing is normal at room temperature and is quite stable. However, if it is placed at high temperature or in case of open flame, there is also a risk of explosion. Therefore, when storing, it is advisable to choose a cool, dry and ventilated warehouse, avoid fire and heat sources, and keep away from oxidants and acids. When handling, when loading and unloading lightly to prevent package damage.
When using, it must follow the specifications. Operators should use suitable protective equipment, such as goggles, masks, and gloves. If not carefully into the eyes, quickly rinse with plenty of water, still unwell, seek medical attention. If it touches the skin, also quickly wash with water and soap.
It also has an impact on the environment. Do not pour into ditches or waterways. When discarded, in accordance with relevant regulations, hand it over to a professional office.
Furthermore, use it in a well-ventilated place. If it is in a secret place, its volatilization or accumulation can cause danger.
In short, although guanidine stearate (1:1) is used, safety and operating standards should not be ignored. Operators must be careful to avoid risks and protect themselves and the environment.

Application Area

Stearic Acid, Compound With Guanidine (1:1) This compound has a wide range of uses. In the field of medicine, it can be used as a medicinal excipient to help shape and stabilize drugs, improve their efficacy and bioavailability. In the chemical industry, it can be used to make lubricants, reduce friction, enhance material processing properties; it can also be used as a surfactant to improve the surface properties of substances, and promote emulsification and dispersion. In the field of cosmetics, it can adjust product consistency, texture, and add moisture and luster. With its unique chemical properties, this compound plays a key role in many fields and provides assistance for the development of various industries.

Research & Development

Today there is a thing called Stearic Acid, Compound With Guanidine (1:1). As a chemical researcher, I have devoted myself to studying this thing for a long time. Its nature and quality are all my research.
At the beginning of the exploration, I have carefully observed its shape, analyzed its components, and clarified its structure. After months of research, I know a little about it. This thing has prominent characteristics in various reactions, and may be able to develop its strengths in the fields of chemical industry and medicine.
However, if we want to make it widely used in the world, we still need to explore it in depth. My generation should be diligent and use scientific methods to study its essence and seek its refinement. We hope to expand its use, promote the development of this material, and benefit the industry, so that the light of science can shine on this field and promote its prosperity and progress.

Toxicity Research

Since modern times, chemical refinement has led to the emergence of various compounds. Today, there is Stearic Acid, Compound With Guanidine (1:1), and its toxicity research is crucial.
We have investigated it with ancient methods and investigated its properties in detail. Stearic Acid, Compound With Guanidine (1:1) has been gradually characterized in various experiments. Observe its interaction with organisms and observe its impact on physiological functions. Or enter the body, disturb the flow of qi and blood, and damage the viscera. Although the current knowledge is not complete, the signs of toxicity have emerged.
Our generation should study diligently and use scientific methods to fully understand the toxic mysteries of Stearic Acid, Compound With Guanidine (1:1), and point out the smooth way for future generations to use this material, so that chemical substances can benefit people and avoid their harm.

Future Prospects

Guanfu Stearic Acid, Compound With Guanidine (1:1) This object, today's researchers, all hope to have extraordinary development in the future. Its unique nature has potential in various fields. It is expected that in the future, it may be used in medicine to help cure diseases and relieve the pain of patients. It is also expected that in the field of materials, the material will be more tough and durable, and its wide application will be expanded. In the chemical industry, it may be able to optimize the process, increase efficiency and reduce energy consumption. Although there may be thorns in the road ahead, the determination of the researcher is firm, with a fearless heart, explore the unknown, and expect to shine in the future, adding to the progress of the world, developing endless possibilities, and achieving unparalleled achievements.

Frequently Asked Questions

What are the main uses of stearic acid and guanidine (1:1) compounds?

The boron (1:1) compound of solid acid has a wide range of main uses. This compound is effective in the metallurgical field and is often used to improve the performance of metals. Because of its ability to generate specific reactions in metals, it is indispensable in high-quality metals.
In chemical synthesis, it is also an important catalyst. It can greatly accelerate the rate of polychemical reactions, reduce the activation energy required for reactions, and enable the original slow or reverse processes to be completed efficiently. For example, in the synthesis of some chemical compounds, it can lead to the reverse direction of the reaction, improve the reaction rate of the target material, and provide strong support for the efficient production of the chemical industry.
In the field of materials science, solid acid boron (1:1) compounds can be used for the production of special materials. It can improve the micro-performance of materials, improve the physical and chemical properties of materials, such as increasing the corrosion resistance of materials, improving the performance of materials, etc., and help to develop new materials with excellent performance, which meets the needs of special materials in different fields.
In addition, in some environmental protection technologies, this compound is also used. It can be used for the treatment of pollutants, and provides an effective way to treat harmful pollutants and reduce harmful or less harmful substances.

What are the physical properties of stearic acid and guanidine (1:1) compounds?

The physical properties of oxalic acid and boron (1:1) compounds are particularly specific. The color of this compound is often crystal clear, like clear jade, shining softly under the light, which is pleasing to watch. Its texture is solid and brittle, and it feels cool and smooth to the touch, just like natural quality.
As for its density, it is lighter than ordinary things, and it seems to be able to sway slightly in the wind, but its internal structure is dense and orderly, and it can be easily broken without external force. Its melting point is quite high, and it needs a strong fire to melt it. It seems to contain unyielding properties, and it also sticks to its own form under high temperature.
Furthermore, the solubility of this compound is also unique. It dissolves slowly in water, but in specific organic solvents, it can quickly disperse and blend with solvents, showing a different kind of affinity. Its conductivity is weak, just like an insulating body, which can block the passage of current, and has a unique use in the electrical field.
Its thermal stability is excellent. Under high temperature baking, it can still maintain the integrity of the structure, not easily shaken by heat, just like a stone that has been honed over the years. The physical properties of this compound make it have extraordinary application potential in many fields. It is a magical product of creation and needs to be further explored and explored by the world to recognize its endless wonders.

What are the precautions for the storage and transportation of stearic acid and guanidine (1:1) compounds?

In the case of solid acid (1:1) compounds, it is necessary to pay attention to the important things when they are not stored.
The first thing to do is to dry up the environment. This compound is easy to cause disintegration in case of moisture, so it needs to be dry and good. If it is affected by the tide, it may cause its composition to be changed and its efficiency to be improved. And it should be avoided from direct light, and sunlight exposure may cause its chemical properties to be poor, or it may cause decomposition.
In addition, the degree also needs to be controlled. It should be stored in the environment where the degree is high, or it may cause acceleration and health safety problems; the degree is low, or it may be modified, affecting its inherent nature. Generally speaking, it should be maintained at a specific degree.
As soon as possible, the packaging must be completed. It is necessary to use a combined container to prevent it from leaking. The packaging material used is corrosion-resistant, because the solid acid has a special corrosion resistance. If the packaging material is not resistant, it may cause leakage on the way, endangering the safety of the people and the surrounding environment.

It is also necessary to pay attention to the process of vibration. It is also necessary to pay attention to the impact of strong shock or the modification of the compound, so the equipment is suitable for smooth operation and less vibration. And people are familiar with its properties and emergency treatment methods. In case of unexpected damage, it can be contained and the safety of the product can be guaranteed. In addition, the storage of solid acid (1:1) compounds requires comprehensive consideration of all factors to ensure their safety.

Are stearic acid and guanidine (1:1) compounds harmful to the environment?

The impact of stearic acid and calcium (1:1) compounds on the environment is a matter of great concern to the world. Analyze it in detail today.
Calcium stearate is a commonly used additive and is widely used in plastics, rubber, coatings and many other industrial fields. It can be used as a lubricant and a mold release agent in plastics to make the surface of plastic products smoother and the processing performance can be improved. In the rubber industry, it can enhance the processing performance and anti-aging properties of rubber. In the paint, it can improve the thixotropy and anti-settling properties of the paint.
However, the potential impact of this substance on the environment is also insignificant. Calcium stearate has certain biodegradability. In the natural environment, it can be gradually decomposed under the action of microorganisms. However, the decomposition rate may vary depending on environmental conditions. In suitable temperature, humidity and rich microbial communities, the decomposition may be faster, while in harsh environments, the decomposition may be slower.
Also, after calcium stearate enters the water body, it may affect aquatic organisms. Although its acute toxicity is relatively low, long-term, low-dose exposure may affect the growth, reproduction and physiological functions of aquatic organisms. In the soil environment, the accumulation of calcium stearate may affect the physical and chemical properties of the soil, which in turn affects the soil microbial community and plant growth.
But overall, under normal use and discharge conditions, the harm of calcium stearate to the environment is still manageable. Industry and researchers are also working hard to find more environmentally friendly alternatives or optimize production processes to reduce its latent risk to the environment. Therefore, calcium stearate has a certain potential impact on the environment, but with reasonable control and scientific response, the harm can be minimized.

What are the production methods of stearic acid and guanidine (1:1) compounds?

The preparation method of fujian oxalic acid and boron (1:1) compounds has been around for a long time, and all kinds of techniques have their own wonders.
First, the method of solution reaction. Take an appropriate amount of pedestal oxalic acid and dissolve it in a pure solvent to ensure uniform dissolution. The boron source is also properly handled and put into the solution in a suitable form. The two meet and interact under specific temperatures and environments. The key to temperature control is the success or failure of the reaction. If the temperature is too high, the reaction will be too fast, and the product may be impure; if the temperature is too low, the reaction will be slow and time-consuming. When the solution shows specific changes, such as differences in color, turbidity, or precipitation formation, the reaction process can be judged. Then through separation and purification, a pure compound of oxalic acid and boron (1:1) is obtained.
Second, the way of solid-phase synthesis. The raw materials of oxalic acid and boron are ground and mixed according to the precise ratio. This process needs to be meticulous to make the two fully contact. The mixture is placed in a special container and calcined at high temperature. Under high temperature, the lattice of the raw materials is rearranged, the chemical bonds are reconstructed, and the target compound is formed. However, the temperature and duration of calcination need to be accurately grasped. Improper temperature may cause the raw materials to evaporate, decompose, or the crystal form of the product is not good; the wrong duration also affects the purity and structure of the product. After calcination, wait for it to cool down, and then go through the processes of grinding and screening to obtain the finished product.
Third, the method of vapor deposition. Make the gaseous precursor of oxalic acid and boron chemically react on the surface of the substrate material in a specific gas phase environment to form a compound film. This environment must be clean and free to avoid impurities from mixing into the product. Gas flow, pressure and the characteristics of the substrate material all affect the effect of deposition. If the flow rate is too large or too small, it will affect the concentration of the reactants and cause uneven reaction; improper pressure will affect the movement of molecules in the gas phase, or cause abnormal growth of the film; the surface properties of the substrate material are related to the nucleation and growth orientation of the compound. After fine regulation, high-quality oxalic acid and boron (1:1) compound films can be obtained.