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Sulfamic Acid Series

Guanidine Series

1,3-Ditolylguanidine

Specifications

HS Code	476792
Chemical Formula	C15H17N3
Molecular Weight	239.32 g/mol
Appearance	White to off - white powder
Melting Point	178 - 182 °C
Solubility In Water	Insoluble
Solubility In Organic Solvents	Soluble in ethanol, benzene, etc.
Odor	Slight characteristic odor
Density	Approx. 1.15 g/cm³
Flash Point	Approx. 180 °C
Stability	Stable under normal conditions
Purity	Typically high - purity grades available

As an accredited 1,3-Ditolylguanidine factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.

Packing & Storage

Packing	1,3 - Ditolylguanidine packaged in 50 - kg bags for convenient storage & transport.
Storage	1,3 - Ditolylguanidine should be stored in a cool, dry, well - ventilated area. Keep it away from heat sources, open flames, and oxidizing agents. Store in tightly sealed containers to prevent moisture absorption and contamination. It should be separated from incompatible substances to avoid potential chemical reactions. Regularly inspect storage conditions and the integrity of containers.
Shipping	1,3 - Ditolylguanidine is shipped in well - sealed containers, adhering to strict chemical transport regulations. Packaging ensures prevention of leakage and exposure, and shipments are tracked for safe and timely delivery.

Free Quote

Competitive 1,3-Ditolylguanidine prices that fit your budget—flexible terms and customized quotes for every order.

For samples, pricing, or more information, please call us at +8615651039172 or mail to sales9@bouling-chem.com.

We will respond to you as soon as possible.

Tel: +8615651039172

Email: sales9@bouling-chem.com

General Information

Historical Development

The history of the products of 1,3-dimethylguanidine has been there since ancient times. In the past, all the sages worked hard in the field of chemistry. At first, people did not know its nature and production method, but only explored in ignorance.
After years have passed, many scholars have devoted their efforts to studying it. Or in a simple room, day and night, running experiments; or gathering groups of sages to discuss, reasoning and thinking. Finally, I have come to understand, and my understanding of 1,3-dimethylguanidine has gradually increased, knowing the improvement of its production method and the wonderful use of its performance.
With the passage of time, the technology has also gradually improved. The difficult system in the past is now convenient; the rare product in the past is now widely used. From being little known to being widely used, the development of 1,3-dimethylguanidine relies on the wisdom and sweat of various scholars, leaving a profound imprint on the path of chemistry.

Product Overview

1,3-Bis-p-toluidine guanidine, an organic compound. Its shape or powder, often nearly white in color. This product has specific properties and is widely used in the rubber industry.
Its preparation, through a specific chemical reaction, with the corresponding raw materials, can be achieved according to a delicate method. In the industrial process, all steps need to be adhered to, and factors such as temperature, pressure, and time are all related to the quality of the finished product.
Its excellent performance can be used as a vulcanization accelerator. When the rubber is vulcanized, it can speed up its process and help the rubber obtain good physical properties, such as strong tensile force and excellent wear resistance. Due to its characteristics, the quality and performance of rubber products have been improved, and they are widely used in the production of tires, hoses, and many other rubber products, contributing significantly to the development of industry.

Physical & Chemical Properties

The physical and chemical properties of 1,3-di-p-toluidine guanidine can be studied. Looking at its shape, it is often solid, white or nearly white, like powder. Its melting point is also an important characterization, and the melting point is in a specific temperature range, so that it can be melted into a liquid under the corresponding heat.
In terms of solubility, it is soluble in some organic solvents, but insoluble in water, which is related to the characteristics of its molecular structure. And its chemical activity is also characteristic. In a specific chemical reaction environment, it can exhibit unique reactivity and can react with specific reagents to form different compounds. From the functional groups contained in its structure, the reasons for its physical and chemical properties can be inferred, and these properties may be important in many fields such as chemical industry and materials.

Technical Specifications & Labeling

The technical specifications and identification of 1,3-dimethylguanidine (commodity parameters)
For the preparation of 1,3-dimethylguanidine, the method of preparation should be based on the art of fine grinding. The ratio of raw materials, when accurate, the temperature of the reaction, should be controlled in a moderate area, and the duration should also be appropriate. In this way, good quality products can be obtained.
In terms of its identification, the parameters of the product should be detailed. The appearance and color must be accurate, or a solid color, or a specific state. The purity item must be measured by a fine method, and it can only be used if it reaches the standard. And on the packaging, the name, characteristics, taboos, etc. of this item should be clearly written to avoid the risk of misuse and ensure the safety of its application, so that the operator can clarify its regulations and use it correctly.

Preparation Method

The preparation method of 1,3-di-toluidine guanidine is related to the raw material and production process, reaction steps and catalytic mechanism.
If you want to make 1,3-di-toluidine, the first raw material is selected. With p-toluidine and dicyandiamide as the base materials, the two need to be pure and free to ensure the quality of the product. The production process is to put p-toluidine and dicyandiamine into the reaction kettle in an appropriate ratio. Control the temperature in a specific range, slowly heat up, and stir at the same time to make the material mix well and promote the reaction.
The reaction step is also critical. In the initial stage, the raw materials interact, and the chemical bonds are gradually broken and recombined. With the increase of temperature, the reaction rate accelerates. It is necessary to pay attention to the reaction process, monitor it with instruments, and adjust the conditions in a timely manner.
As for the catalytic mechanism, suitable catalysts can be added, such as a specific metal salt. The catalyst can reduce the activation energy of the reaction, make the reaction easier to occur, improve the reaction efficiency, reduce time and consumption, and achieve the purpose of efficient preparation of 1,3-di-metformylguanidine.

Chemical Reactions & Modifications

The chemical reaction and modification of Ditolylguanidine are related to many things. In the past research, we have observed the reaction of Ditolylguanidine, or encountered difficulties, such as the reaction rate is not up to expectations, and the quality of the product is not good.
However, we chemists will give up on it lightly? Then we devote ourselves to research and improve the technique. Try it under different conditions, change the temperature, adjust the medium, and observe the chemical response. Finally, the reaction rate gradually increases, and the properties of the product are also good.
Modification of Ditolylguanidine, such as adding other substances to combine with it, or changing its structure, to obtain new characteristics. This is all the unremitting work of our chemists, so that this chemical can be used in various fields of industry and scientific research to develop its growth and benefit the world.

Synonyms & Product Names

1,3-Dio-toluenylguanidine is also a chemical product. Its nickname and trade name are also important for research. The cover nickname can show its characteristics, and the trade name is involved in the circulation of various cities.
Look at this 1,3-dio-toluenylguanidine, or it has a common name to correspond to its nature, or it has a different name according to the process and use. Merchants are in the market, and they also sell it under a unique trade name, which is expected to attract public attention.
This product is in the chemical industry, and it is used in the world under different names. The nickname or shows its chemical characteristics, and the trade name contains commercial schemes. Exploring its nicknames and trade names can clarify the appearance of chemical chemicals in academia and business circles, and also help entrepreneurs and researchers to know their details so that they can be used and researched, which is beneficial to the development of chemical industry.

Safety & Operational Standards

1,3-Dimethylguanidine (1,3-Ditolylguanidine) is also a chemical research object. Its safety and operating standards are the most important thing, and it is related to the safety of our researchers and endangers the smooth operation of the research.
Anyone involved in this object must abide by the rules of safety operation. For the first time, when involved, read the description of its physical properties carefully, explain its chemical characteristics and physical properties, and know the changes in heat, light, and other objects. This is the foundation of safety operation.
The place of research must be well ventilated. 1,3-Dimethylguanidine or generate harmful gas, and the wind can drive it away, so as to avoid agglomeration and damage to the body. And where the object is placed, it should be avoided from water, fire and heat sources to prevent unexpected changes.
When handling this object, protective gear is indispensable. Wear appropriate protective clothing, wear goggles and gloves to avoid contact with the body, skin and eyes. If you accidentally touch it, rinse it with water as soon as possible, and seek medical attention for those who are serious.
The operation of weighing and mixing should follow the precise method. Do not do it with open objects to prevent them from escaping. After use, store it properly, seal the mouth of the object, and place it in a dry place in the shade, remember its stock and when it is used.
Furthermore, the researcher should be familiar with emergency strategies. If there is any leakage, quickly stop the source, surround it and clear it, neutralize and adsorb with appropriate agents, and do not pollute the environment.
In short, the safety and operation specifications of 1,3-dimethylguanidine are always kept in mind by researchers. Only by following this regulation can we ensure the safety of research and promote the progress of chemical research.

Application Area

1,3-Bis-toluidine is also a chemical compound. Its application field is quite wide. In the rubber industry, it is often used as a vulcanization accelerator. It can speed up the vulcanization process of rubber and improve the properties of vulcanized rubber, so that rubber products have better physical and mechanical properties, such as hardness, tensile strength, etc., so that rubber products are durable.
It is also used in some synthetic materials. It can be used as a catalyst or auxiliary to participate in the synthesis reaction, regulate the reaction process and product structure properties. It helps to synthesize materials with unique properties and meet various needs to meet the needs of different industrial production and life. It is an indispensable and important substance in the chemical industry and plays a key role in many application fields.

Research & Development

Yu Xiangyan has been studying chemical products for a long time, and recently he has been particularly interested in this product of 1,3-Ditolylguanidine. The nature of this product is related to the chemical industry, and it is widely used and necessary.
I dedicated myself to studying it, exploring its structure, studying its properties, and hoping to obtain a method of improvement. At the beginning, I analyzed its formation method, observed the matching of raw materials and the control of conditions. Although I encountered all kinds of obstacles, I did not dare to slack off.
Then, test its properties in various scenarios and seek its optimum use. In the rubber industry, or increase its toughness; in the paint industry, or change its quality.
At this time, I have already achieved something, but the way to progress is endless. When continued research, to seek this product in performance and yield, in order to promote its wide use, and seek the prosperity of the chemical industry, this is my ambition.

Toxicity Research

To observe the present world, it is a top priority to study the toxicity of chemical products. Today, I will say this with 1,3-Ditolylguanidine.
I have heard the ancient saying: "The substance contains toxicity, and it must be observed." This product should also be investigated in detail. After various investigations, observe its chemical conformation and reaction mechanism to understand its behavior in the living body. Or observe its binding to cell receptors, or explore its disturbance to physiological functions.
However, toxicity research is not done overnight. Data must be collected widely and analyzed cautiously. Observe the relationship between dose and effect, and consider the involvement of environmental factors. Strive to understand the full picture of the toxicity of this product, in order to prevent it from spreading in the world and causing harm to life, and it is the responsibility of the researcher to protect the well-being of all living beings.

Future Prospects

Fu 1,3 - Ditolylguanidine has an extraordinary future in our chemical research. Its delicate structure and unique characteristics can be used to develop its talents in many fields.
Looking at the field of industry, it may be able to contribute to the creation of new materials. With its stable chemical properties, it may help materials resist weather and corrosion, prolonging their use period. In the road of medical exploration, it is also expected to emerge. Its molecular configuration may be able to delicately fit with biological targets, opening up a new path for the development of new drugs.
Furthermore, the progress of scientific research is endless, and the potential of 1,3 - Ditolylguanidine is far from exhausted. With time and in-depth research, more wonderful uses will be discovered. With technological refinement and deepening of cognition, it will surely shine in the future, and make great achievements for human well-being and technological prosperity.

Where to Buy 1,3-Ditolylguanidine in China?

As a trusted 1,3-Ditolylguanidine manufacturer, we deliver: Factory-Direct Value: Competitive pricing with no middleman markups, tailored for bulk orders and project-scale requirements. Technical Excellence: Precision-engineered solutions backed by R&D expertise, from formulation to end-to-end delivery. Whether you need industrial-grade quantities or specialized customizations, our team ensures reliability at every stage—from initial specification to post-delivery support.

Frequently Asked Questions

As a leading 1,3-Ditolylguanidine supplier, we deliver high-quality products across diverse grades to meet evolving needs, empowering global customers with safe, efficient, and compliant chemical solutions.

What are the main uses of 1,3-di-p-toluidine?

The main uses of 1,3-di-toluenylpropane are as follows:
This substance plays a key role in the field of organic synthesis. It can be used as a key intermediate to create various organic compounds with special structures and properties. In the field of medicinal chemistry, with its unique structure, it can help build a specific drug molecular framework, which is of considerable value for the development of new drugs or the optimization of the performance of existing drugs.
In the field of materials science, 1,3-di-toluenylpropane also has its uses. It can be used as a basic raw material for the construction of high-performance materials. With its special chemical activity and structure, it imparts unique properties such as excellent thermal stability, mechanical properties or optical properties, and then meets the needs of high-performance materials in different fields.
Furthermore, in the fine chemical industry, as an important chemical raw material, it can be used to synthesize various fine chemicals, such as special dyes, fragrances and functional additives, which can significantly improve the quality and performance of fine chemicals and meet the diverse needs of the market for high-end fine chemicals.

What are the chemical characteristics of 1,3-di-toluidine guanidine?

1% 2C3-di-toluene acetone, which is an organic compound. It has the following chemical properties:
Looking at its physical properties, it is mostly solid at room temperature. Those with pure white color are white crystals, but due to the preparation process or the influence of impurities, it may also be slightly yellow. Its melting point is in a specific range, and this melting point characteristic is crucial for identification and purification. Its purity can be accurately determined by melting point measurement experiments.
In terms of solubility, 1% 2C3-di-toluene acetone has good solubility in common organic solvents such as ethanol, ether, and chloroform. This property provides a basis for the selection of suitable reaction solvents in organic synthesis experiments. Due to its easy solubility in organic solvents, during related reactions, a homogeneous reaction system can be constructed with the help of these solvents, which promotes the reaction to proceed more fully and efficiently.
In terms of chemical activity, the carbonyl group (C = O) in this compound is active. Carbonyl carbon atoms are partially positive and vulnerable to attack by nucleophiles, triggering nucleophilic addition reactions. This reaction is widely used in organic synthesis, such as when reacted with alcohols under specific conditions, acetal or semi-acetal products can be formed. Such products are often used as intermediates in organic synthesis to construct more complex organic molecular structures. In addition, the α-hydrogen atom connected to the carbonyl group in its molecule also has certain activity due to the influence of the electron-withdrawing effect of the carbonyl group, which is easy to be taken away under basic conditions, and then a series of α-hydrogen related reactions such as halogenation reactions occur.
1% 2C3-di-toluene acetone is important in the field of organic synthesis due to the above chemical properties, and is often used as a key raw material or intermediate to participate in the preparation process of various complex organic compounds.

What are the precautions for 1,3-di-toluidine guanidine in the production process?

1% 2C3-di-p-toluenylacetone is an important compound in organic synthesis. In the production process, there are many key precautions.
Quality of the first raw material. The purity and quality of the raw material have a great impact on the quality of the product. Strict selection of p-toluenylacetone and related raw materials is required to ensure that its purity is up to standard and the impurity content is extremely low. If the raw material contains impurities, or causes side reactions to cluster, the purity of the product will drop greatly, which will affect subsequent applications.
Control of reaction conditions is also critical. Factors such as temperature, pressure, and reaction time will all affect the reaction process and product yield. This reaction usually requires a specific temperature range. If the temperature is too high, it may cause the reaction to go out of control and increase by-products; if the temperature is too low, the reaction rate will be slow and time-consuming. At the same time, the reaction time is precisely controlled, the reaction is too short, and the conversion of raw materials is incomplete; the reaction is too long, or there is a risk of overreaction. For example, after many experiments, it is determined that the optimal reaction temperature is [X] ° C and the reaction time is [X] hours to achieve the ideal yield and purity.
Furthermore, the selection and dosage of catalysts should not be underestimated. Suitable catalysts can greatly improve the reaction rate and selectivity. According to the reaction mechanism and characteristics, carefully select the catalyst and precisely control the dosage. If the dosage is too small, the catalytic effect will be poor; if the dosage is too large, the cost will increase,
The cleanliness and safety of the production environment cannot be ignored. Keep the reaction equipment and the environment clean to prevent impurities from mixing in. At the same time, because the reaction involves chemical substances, many of which are dangerous, it is necessary to strictly follow safety procedures and take protective measures, such as wearing protective equipment and ensuring good ventilation, to prevent safety accidents.
Post-treatment process is also critical. After the reaction, the product separation and purification steps affect the final quality of the product. Appropriate separation methods, such as distillation, extraction, recrystallization, etc., should be selected to effectively remove impurities and improve product purity.

How does the market price of 1,3-di-toluidine fluctuate?

The price fluctuation of 1% 2C3-di-p-toluenylacetone in the market is related to various factors. This is an organic compound, which is widely used in the field of chemical medicine. The supply and demand of raw materials is the main reason for the change in its price. If the supply of raw materials such as toluene is abundant and the price is stable, the production cost of 1% 2C3-di-p-toluenylacetone may decrease, and the price will also stabilize. On the contrary, if the price of raw materials is scarce and the price rises, the price will rise accordingly.
Furthermore, the market demand is also heavy. If the pharmaceutical industry seeks prosperity for it, if it is used to make a specific drug, the demand will increase greatly, and the price will rise automatically. However, if the relevant industry develops new-generation products, the demand will drop sharply, and the price will be at risk of falling.
The progress of process technology also affects its price. If the new technology causes the yield to rise, the cost to fall, and the market supply to increase, the price may decline. On the contrary, the technology is stagnant or encounters problems, the production is restricted, and the price may be firm.
In addition, external factors such as policies and regulations and geopolitics cannot be ignored. New environmental protection regulations limit production, reduce quantity and increase price. Geopolitical conflicts disrupt the transportation of raw materials, which can also cause price fluctuations.
Looking at the market price of 1% 2C3-di-p-toluene acetone, under the interaction of raw material supply and demand, market demand, technological innovation and external factors, it shows a dynamic change. The industry should carefully observe and respond to price fluctuations.

What is the potential impact of 1,3-di-p-toluidine guanidine on the environment?

1% 2C3-di-toluene malondialdehyde, which has potential effects on the environment. Its chemical structure contains p-toluene and other groups, which are active and have complex behaviors in the environment.
In the atmospheric environment, if it escapes into the air, or degrades due to light and reaction with free radicals. However, the degradation products may still have certain toxicity and biological activity. For example, under light or cleavage into small molecules, some small molecules contain benzene ring structure, or are persistent organic pollutants, which can be inhaled into organisms and accumulate in tissues and organs, endangering health.
In the aqueous environment, 1% 2C3-di-toluene malondialdehyde has limited solubility, or is adsorbed on suspended particles and settles to the bottom of the water. In the water body, or react with nucleophilic substances in the water, changing its own structure and properties. Some aquatic organisms or ingestion, through the food chain transfer, enrichment, resulting in high trophic organisms affected. If small fish accidentally eat particles containing this matter, big fish eat small fish again, the concentration gradually rises, affecting the physiological function of big fish, or causing system abnormalities such as reproduction and immunity.
In the soil environment, it can be adsorbed by soil particles, affecting the structure and function of soil microbial community. Soil microorganisms are crucial to maintaining soil fertility and material circulation. 1% 2C3-di-p-toluene malondialdehyde exists or inhibits the growth and reproduction of some beneficial microorganisms, destroying the soil ecological balance, and then affecting plant growth. For example, by inhibiting the activity of nitrogen-fixing bacteria, soil nitrogen supply is affected, and plants lack nitrogen, resulting in poor growth and development.