Isobutyramide
Isobutyramide Manufacturer for Specialty Chemical Production
As a leading Isobutyramide Manufacturer, we provide a vital building block used in the creation of complex molecules. Isobutyramide belongs to the amide family, which are essential compounds in the world of industrial chemistry. These molecules act as stable links that help chemists construct more complicated structures. Because of its unique shape and reactivity, this chemical serves as a reliable starting point for many high-value synthetic processes.
In the world of industrial synthesis, the value of an Organic Amide Intermediate cannot be overstated. It is a key ingredient for businesses that produce specialty materials and pharmaceutical-related products. By using this compound, manufacturers can ensure their final products have the correct chemical properties and structural integrity. Its role as a Chemical Intermediate Manufacturer‘s staple product makes it indispensable for modern chemical engineering and large-scale production.
Chemical Identification Table
Product Name | Isobutyramide |
Chemical Formula | C4H9NO |
CAS Number | 563-83-7 |
EC Number | 209-264-3 |
Molecular Weight | 87.12 g/mol |
UN Number | Not classified as hazardous for transport |
Appearance | White crystalline powder or solids |
Chemical Family | Aliphatic Amides |
Physical and Chemical Properties Table
Property | Description |
Boiling Point | Approximately 216°C to 220°C |
Melting Point | 127°C to 129°C |
Density | 1.012 g/cm³ |
Flash Point | Above 100°C |
Solubility | Soluble in water and organic solvents like ethanol |
Chemical Nature | Stable under normal conditions |
Reactivity | Reacts with strong oxidizing agents and strong acids |
Why Choose Shital Chemical Industries
Selecting a reliable Isobutyramide Supplier is crucial for maintaining your production schedule. We offer several advantages to our partners:
Controlled Manufacturing Systems
We use precise systems designed specifically for creating high-quality specialty chemicals.
Consistent Purity
Every batch we produce meets strict internal standards to ensure your processes remain predictable.
Advanced Laboratory Testing
Our facility features modern equipment to monitor quality at every stage of production.
Bulk Production Infrastructure
We have the capacity to handle large orders, ensuring a steady supply for big industrial projects.
Expert Intermediate Handling
Our team has years of experience managing organic intermediates with care and precision.
Global Supply Network
We provide dependable shipping services for buyers located both locally and internationally.
Packaging and Export Capability
We take great care in how we prepare our products for travel to ensure they arrive in perfect condition:
Industrial Drum Packaging
We use heavy-duty drums that are specifically built for the safe transport of chemical solids.
Moisture-Protected Sealing
Each container is sealed tightly to prevent humidity from affecting the chemical's quality.
Hazard labeling Standards
All packages include clear labels that meet international shipping safety requirements.
Regulatory Compliance
We strictly follow all laws regarding the movement of chemical substances across borders.
Full Documentation
Every shipment includes a Certificate of Analysis (COA) and a Material Safety Data Sheet (MSDS).
Global Logistics
Our logistics partners ensure that your order reaches your facility anywhere in the world on time.
Applications of Chloroacetyl Chloride
This compound is a primary choice for pharmaceutical manufacturing companies. It acts as a structural foundation for creating active ingredients found in various medicines. Because it is stable and easy to work with, it helps drug makers build complex molecules that are used to treat a variety of health conditions.
In the pharmaceutical sector, the purity of ingredients is the top priority. Using a high-quality amide ensures that the chemical reactions remain clean and efficient. This reduces waste during the manufacturing process and helps labs create safer, more effective medical products for patients around the globe.
Agrochemical production facilities rely on this chemical to create modern crop protection products. It is used to synthesize molecules that help farmers protect their plants from pests and diseases. By acting as a bridge in the chemical process, it allows for the creation of targeted solutions that improve food security.
These facilities often require large volumes of intermediates to keep up with seasonal demands. The stability of this amide makes it an ideal choice for the long-scale production of herbicides and fungicides. Its role in agriculture helps ensure that crops stay healthy and yields remain high for the growing population.
General chemical intermediate producers use this compound as a versatile tool in organic synthesis. It can be converted into various other functional groups, such as amines or nitriles, depending on the needs of the chemist. This flexibility makes it a “jack-of-all-trades” in the laboratory and the factory.
Organic synthesis is the backbone of the modern materials world. By manipulating this molecule, scientists can create new substances with specific traits. Whether it is for making dyes, scents, or stabilizers, this amide provides the necessary starting point for countless chemical pathways.
Specialty chemical laboratories utilize this compound to develop niche products with very specific uses. These products are often used in small amounts but provide essential functions in high-tech industries. The predictable nature of this intermediate allows researchers to experiment with confidence.
The production of specialty chemicals requires a high level of technical skill. By starting with a reliable amide, manufacturers can focus on the complex steps of their unique formulas. This leads to the creation of high-performance additives and custom-made chemical solutions for advanced engineering.
Polymer processing industries find this chemical useful when creating specialized plastics and resins. It can be used to modify the properties of a polymer chain, such as its heat resistance or flexibility. This makes the final plastic products more durable and suitable for industrial use.
In the world of resins, this compound helps in forming strong bonds that hold materials together. Whether it is for coatings, adhesives, or structural parts, the inclusion of an amide group can improve how the material performs under stress. This is vital for industries like automotive and construction.
Research institutions and development labs use this compound to explore new frontiers in chemistry. It serves as a standard reagent for testing new reaction methods or catalysts. Because its properties are well-documented, it is a perfect “control” substance for complex experiments.
Fine chemical research often leads to the breakthroughs of tomorrow. By having access to a consistent and pure intermediate, researchers can accurately measure the results of their work. This supports the growth of scientific knowledge and leads to the discovery of better manufacturing techniques.
FAQs
What is Isobutyramide used for?
It is primarily used as a building block to create medicines, farm chemicals, and specialized plastics.
Is Isobutyramide hazardous to handle?
It is generally considered low-hazard, but you should always wear gloves and goggles and follow the safety data sheet (MSDS).
How should Isobutyramide be stored safely?
Keep it in a cool, dry place inside a tightly sealed container to prevent it from absorbing moisture from the air.
Which industries commonly use this compound?
The pharmaceutical, agricultural, and plastic manufacturing industries are the most frequent users of this chemical.
Can this chemical be supplied in bulk quantities?
Yes, as a large-scale manufacturer, we can provide this compound in industrial quantities to meet your production needs.
Why is Isobutyramide important in chemical synthesis?
Its unique structure allows chemists to easily link it with other molecules, making it a vital starting point for complex reactions.