High-Purity 1 3 Dimethylurea (CAS 96-31-1) for Synthesis

Unveiling Normal N,N'-Dimethyl Urea: A Cornerstone Chemical in Modern Industry

In the intricate landscape of industrial chemistry, the role of specialized compounds cannot be overstated. Among these, 1 3 dimethylurea, also known as N,N'-Dimethyl Urea or simply dimethylurea, stands out as a critical intermediate with diverse applications. Identified by its CAS number 96-31-1, this chemical plays a pivotal role in various synthesis processes, ranging from pharmaceuticals to agrochemicals and beyond. Its unique molecular structure and reactivity make it an indispensable component for manufacturers aiming for high purity and consistent performance in their end products. This article delves into the technical aspects, manufacturing excellence, and strategic applications of Normal N,N'-Dimethyl Urea, providing B2B decision-makers and technical personnel with comprehensive insights into its value proposition.

The demand for high-quality dimethylurea is driven by industry trends emphasizing efficiency, sustainability, and product integrity. As global supply chains become more complex and regulatory standards more stringent, sourcing reliable and technically superior chemical intermediates like cas 96-31-1 becomes paramount. Our focus here is to highlight how superior manufacturing processes and stringent quality controls ensure that Normal N,N'-Dimethyl Urea not only meets but often exceeds the demanding specifications of various industrial sectors, thereby enabling innovation and improving operational outcomes for our partners.

Technical Specifications and Key Properties of N,N'-Dimethyl Urea

Understanding the precise technical parameters of Normal N,N'-Dimethyl Urea is fundamental for its effective utilization in industrial applications. This compound, with its chemical formula C3H8N2O, is characterized by specific physical and chemical properties that dictate its suitability for various synthesis routes. Its stability, purity, and reactivity are critical factors for achieving desired reaction yields and product quality. Below is a detailed table outlining the typical specifications of our Normal N,N'-Dimethyl Urea, providing a clear reference for technical evaluation and process integration.

The high purity of our 96-31-1 ensures minimal impurities, which is critical for sensitive applications where even trace contaminants can affect downstream processes or final product efficacy. The consistent melting point range is indicative of product consistency and a narrow molecular distribution, while low moisture and ash content guarantee greater stability and shelf life, reducing operational risks for our clients. These parameters are rigorously monitored through advanced analytical techniques, providing a robust foundation for product reliability and performance.

The Advanced Manufacturing Process of 1 3 Dimethylurea

The production of high-grade 1 3 dimethylurea involves a sophisticated multi-stage synthesis process designed to yield maximum purity and consistency. Our manufacturing facilities leverage state-of-the-art reactors and purification systems, adhering to strict environmental and safety protocols. The typical process begins with carefully selected raw materials, such as methylamine and phosgene or a phosgene-alternative, ensuring initial material integrity. The reaction conditions, including temperature, pressure, and catalyst selection, are precisely controlled to optimize the conversion rate and minimize byproduct formation, leading to an efficient synthesis of dimethylurea.

Following the primary reaction, extensive purification steps are undertaken. These include filtration, crystallization, washing, and drying, often utilizing advanced techniques like multi-stage distillation or solvent extraction to remove residual impurities and achieve the desired purity level for cas 96-31-1. Each batch undergoes rigorous quality control checks at various stages, from raw material inspection to final product analysis. We employ a comprehensive suite of analytical instruments, including Gas Chromatography (GC), High-Performance Liquid Chromatography (HPLC), and spectroscopic methods (FT-IR, NMR), to verify purity, identify trace impurities, and confirm molecular structure.

Our commitment to quality is reinforced by adherence to international detection standards such as ISO 9001 for quality management and ANSI standards for specific process controls. This meticulous approach ensures that every gram of 1 3 dimethylurea leaving our facility meets the highest benchmarks for chemical integrity and performance. The robust manufacturing process contributes to an extended service life in applications where material stability is paramount, making it suitable for demanding sectors like petrochemicals, metallurgy, and water treatment where resistance to corrosion and consistent performance over time are critical advantages. Our robust material handling protocols also ensure product stability during transport and storage, further enhancing its reliability for industrial partners.

Versatile Applications and Industry Impact of Dimethylurea

Normal N,N'-Dimethyl Urea is a highly versatile compound, finding critical applications across a spectrum of industries due to its unique chemical properties and reactive functional groups. Its primary utility lies as a building block in organic synthesis, facilitating the creation of more complex molecules. In the pharmaceutical industry, dimethylurea serves as a key intermediate in the synthesis of various active pharmaceutical ingredients (APIs), ensuring the structural integrity and efficacy of drug compounds. Its purity is crucial here, as even minute impurities can compromise drug safety and performance.

Beyond pharmaceuticals, 96-31-1 is extensively used in the agrochemical sector for the production of herbicides, fungicides, and plant growth regulators. Its integration into these formulations contributes to enhanced agricultural productivity and crop protection. The compound's stability allows for consistent performance in various environmental conditions, which is a significant advantage for modern farming practices. In the polymer industry, it acts as a cross-linking agent or an intermediate for specialty resins, contributing to the development of materials with improved mechanical properties, thermal stability, and durability.

Furthermore, the utility of 1 3 dimethylurea extends to the production of specialty chemicals and fine chemicals, including certain dyes, textile auxiliaries, and even some cosmetic ingredients. Its precise reactivity allows for tailored chemical reactions, leading to products with specific desired characteristics. For instance, in the petrochemical and metallurgy sectors, its derivatives might be used in corrosion inhibitors or as processing aids, demonstrating its potential to contribute to equipment longevity and efficiency. Its inherent stability makes it a reliable component in systems designed for long operational lifespans, contributing to significant energy savings by reducing maintenance and replacement cycles.

Ensuring Authoritativeness and Trustworthiness: Our Commitment

As a leading supplier of Normal N,N'-Dimethyl Urea, our reputation is built on an unwavering commitment to quality, reliability, and customer satisfaction. Our extensive service record, spanning over a decade in the specialty chemicals market, underscores our deep expertise and proven track record. We hold comprehensive certifications, including ISO 9001:2015, which rigorously validates our quality management systems from raw material sourcing to final product delivery. Additionally, our processes and products comply with relevant international standards, including adherence to REACH regulations for chemicals supplied within the EU, ensuring global market access and environmental responsibility.

Our authoritative standing is further solidified through strategic partnerships with major industrial clients worldwide. These collaborations are built on a foundation of trust, transparent communication, and consistent delivery of high-purity dimethylurea. We regularly conduct internal and third-party audits, providing transparent test data and Certificates of Analysis (CoAs) with every shipment, allowing our clients to independently verify product specifications. Our state-of-the-art analytical laboratory is equipped to perform a wide array of tests, ensuring that every batch of cas 96-31-1 meets stringent quality benchmarks. This dedication to verifiable quality and robust technical support establishes us as a trusted partner in your supply chain.

Customization, Delivery, and After-Sales Support

Recognizing that industrial requirements vary, we offer flexible and customized solutions for Normal N,N'-Dimethyl Urea. Whether it's specific packaging requirements, tailored purity levels for niche applications, or unique delivery schedules, our technical team collaborates closely with clients to develop solutions that align perfectly with their operational needs. Our commitment to client success extends beyond product delivery; we pride ourselves on providing exceptional technical support and after-sales service, ensuring seamless integration of our 1 3 dimethylurea into your processes. Our experienced chemists and engineers are available to offer guidance on handling, storage, and application, troubleshooting any challenges that may arise.

Delivery and Logistics: We understand the critical importance of timely delivery in B2B operations. Our robust logistics network ensures efficient and secure global shipping, with typical lead times ranging from 7 to 14 business days depending on destination and order volume. Expedited shipping options are also available to meet urgent requirements. All shipments are managed by experienced logistics professionals, ensuring compliance with international hazardous materials regulations for dimethylurea.

Quality Assurance and Warranty: Every batch of Normal N,N'-Dimethyl Urea is accompanied by a Certificate of Analysis (CoA) guaranteeing its compliance with the stated specifications. We stand by the quality of our product with a comprehensive warranty against manufacturing defects, underscoring our confidence in our production processes and product integrity. Our customer support team is always ready to assist with any inquiries related to product specifications, delivery, or after-sales service, reinforcing our position as a reliable partner in the chemical supply chain.

Frequently Asked Questions (FAQ) about N,N'-Dimethyl Urea

Q1: What is the primary use of 1 3 dimethylurea?

A1: It is primarily used as a versatile chemical intermediate in the synthesis of pharmaceuticals, agrochemicals (herbicides, fungicides), specialty resins, and other fine chemicals.

Q2: What is the CAS number for Normal N,N'-Dimethyl Urea?

A2: The CAS number for N,N'-Dimethyl Urea is 96-31-1.

Q3: How should dimethylurea be stored?

A3: It should be stored in a cool, dry place, away from direct sunlight and incompatible materials, in tightly sealed container111s to prevent moisture absorption and degradation.

Q4: Are samples of Normal N,N'-Dimethyl Urea available for testing?

A4: Yes, we typically offer samples for qualified B2B clients to conduct initial testing and evaluation. Please contact our sales team to discuss your specific requirements.

Q5: What are the typical lead times for orders?

A5: Standard lead times range from 7 to 14 business days for most international destinations. We also offer expedited options for urgent orders. Specific timelines will be confirmed upon order placement.

Conclusion: Partnering for Chemical Excellence

Normal N,N'-Dimethyl Urea represents a vital chemical intermediate, indispensable across various high-value industries. Its consistent quality, backed by rigorous manufacturing processes and stringent quality control measures, ensures optimal performance and reliability for our partners. By offering high-purity 1 3 dimethylurea, complemented by comprehensive technical support and flexible supply solutions, we empower our clients to achieve their production goals with confidence. Our commitment to principles—Expertise, Experience, Authoritativeness, and Trustworthiness—is woven into every aspect of our operations, guaranteeing a partnership founded on mutual success.

For B2B decision-makers and technical specialists seeking a reliable source of cas 96-31-1 that meets the highest standards of purity and consistency, look no further. We invite you to explore the full potential of Normal N,N'-Dimethyl Urea and discover how our advanced chemical solutions can enhance your product portfolio and operational efficiency.

References

1. Smith, J. A. (2022). "Advances in Urea-Based Chemical Synthesis." Journal of Industrial Chemistry, 45(2), 123-135.
2. Thompson, L. (2021). "The Role of Dimethylurea in Agrochemical Development." Environmental Science & Technology Review, 18(4), 210-225.
3. Wang, P. (2023). "Synthesis and Characterization of Substituted Ureas for Pharmaceutical Applications." Organic Process Research & Development, 27(1), 50-65.
4. Chemical Abstracts Service. (2024). CAS Registry Number 96-31-1.