The chemical compound 6 amino 1 3 dimethyluracil has gained strong attention in recent years because of its broad spectrum of practical uses. Known commonly as DMAU, this material is more than just a name in a laboratory catalog. It is an active building block that plays a role in real industrial progress. The pharmaceutical sector depends on 6 amino 1 3 dimethyluracil as a reliable intermediate, and plastic manufacturers use it in stabilizer formulations to enhance polymer performance. Unlike niche compounds that remain restricted to academic research, 6 amino 1 3 dimethyluracil has already crossed into mainstream production and continues to prove itself useful to a wide range of industries.
The appeal of 6 amino 1 3 dimethyluracil comes from its balanced chemical structure. It has the ability to react in predictable ways, making it a dependable choice for chemists working on scaled-up synthesis. Companies involved in large-volume drug production see 6 amino 1 3 dimethyluracil as a cost-efficient intermediate. Beyond pharma, factories producing PVC-based goods benefit when they integrate 6 amino 1 3 dimethyluracil into their stabilizer systems. From medicine to materials, this compound supports industries that directly impact everyday life.
6642 31 5 Global Market Use
Every chemical has a unique code that allows it to be recognized in the global supply chain. For this compound, 6642 31 5 is its official CAS registry number. In practical business operations, this number plays an essential role. Whether a company is issuing purchase orders, passing customs checks, or registering substances for compliance under different legal systems, 6642 31 5 ensures that everyone is speaking the same language. It avoids confusion, prevents errors, and guarantees that the product being delivered is exactly what was ordered.
When global manufacturers of pharmaceuticals or PVC stabilizers are searching for suppliers, they always check 6642 31 5 before confirming a purchase. This identifier builds trust and reliability in transactions. For research laboratories, the CAS number 6642 31 5 also makes literature searches easier, helping scientists quickly locate previous studies, safety information, and handling recommendations. A simple numerical code becomes the backbone of smooth communication in international trade and knowledge sharing.
C6H9N3O2 Technical Insights
The molecular formula C6H9N3O2 reveals the core of this compound’s identity. It indicates the precise arrangement of carbon, hydrogen, nitrogen, and oxygen atoms, and provides the basis for calculating its molecular weight of 155.16. Chemists value this data because C6H9N3O2 offers predictability in reactions, purity assessments, and formulation design. By understanding the formula, researchers know how this compound behaves under heat, in solvents, and in chemical synthesis.
The clarity provided by C6H9N3O2 supports practical applications across sectors. For pharmaceutical synthesis, this formula means that reaction outcomes can be repeated and scaled reliably. For polymer engineers, C6H9N3O2 ensures compatibility with stabilizer blends. Technical data sheets highlight the importance of this molecular detail, and every professional working with the compound relies on C6H9N3O2 as the foundation of safe and effective usage.
6 Amino 1 3 Dimethyluracil In Pharmaceutical Industry
One of the most recognized uses of 6 amino 1 3 dimethyluracil is in drug development. It is especially important in the synthesis of Theophylline, a compound long valued for its role in treating respiratory conditions. Manufacturers aiming for consistent and affordable production of Theophylline depend on 6 amino 1 3 dimethyluracil as a critical intermediate. By providing stability and purity, this compound reduces risks in complex production environments.
The pharmaceutical industry is under pressure to deliver effective medicines at scale, while meeting strict regulatory standards. Here, 6 amino 1 3 dimethyluracil demonstrates its strength. It fits well into multi-step synthesis routes, offering a balance of availability and performance. Pharmaceutical researchers and production managers understand that reliable intermediates are the backbone of successful drug programs. That is why 6 amino 1 3 dimethyluracil holds a permanent place in the supply lists of forward-thinking companies.
6 Amino 1 3 Dimethyluracil For PVC Heat Stabilizers
Beyond medicine, 6 amino 1 3 dimethyluracil finds another practical application in materials science, specifically in the production of PVC stabilizers. The plastics industry requires compounds that can protect products from heat damage during manufacturing and later use. By acting as an ingredient in PVC stabilizer systems, 6 amino 1 3 dimethyluracil improves the thermal resistance of plastic goods. This ensures that pipes, cables, packaging, and construction materials made from PVC perform consistently over time.
Manufacturers know that stabilizer quality directly impacts product reputation. Using 6 amino 1 3 dimethyluracil helps them maintain higher safety and durability standards. It allows plastic products to meet international quality certifications while reducing the risk of premature failure. For end-users, this translates into more reliable goods. For producers, the inclusion of 6 amino 1 3 dimethyluracil means stronger competitiveness in a crowded global market.
6 Amino 1 3 Dimethyluracil Market Capacity And Supply
We are proud to introduce ourselves as one of the leading manufacturers of 6 amino 1 3 dimethyluracil with large-scale production capacity. Our facility operates under strict international standards, and we have completed formal EU-REACH registration. This means buyers can trust our compliance, product quality, and transparent documentation. Companies in both pharmaceutical and plastic industries benefit from a stable supply chain, and we make sure 6 amino 1 3 dimethyluracil is always available to meet increasing demand.
Our strong production capacity ensures bulk orders can be fulfilled without delay. Customers worldwide recognize our brand not just for the material itself, but for the technical support, logistics, and after-sales service that come with it. Choosing 6 amino 1 3 dimethyluracil from a trusted source means minimizing risk, cutting downtime, and maintaining consistent quality in end products. When reliability is a priority, we stand ready to support businesses with the right solutions.
6 Amino 1 3 Dimethyluracil FAQs
If your company values stable supply, international compliance, and proven applications, it is the right time to explore 6 amino 1 3 dimethyluracil (DMAU) for your projects. Whether you are working in pharmaceuticals, PVC stabilizers, or advanced materials, this compound offers long-term benefits. We encourage you to visit our official website, request a technical data sheet, or contact our sales team for tailored support. Choosing 6 amino 1 3 dimethyluracil today ensures your company stays ahead tomorrow.
What Is The Chemical Formula Of 6 Amino 1 3 Dimethyluracil?
The molecular formula is C6H9N3O2, and its molecular weight is 155.16.
What Is The CAS Number For 6 Amino 1 3 Dimethyluracil?
The official CAS registry number is 6642 31 5.
How Is 6 Amino 1 3 Dimethyluracil Used In Pharmaceuticals?
It is primarily used as an intermediate in the synthesis of Theophylline and other related compounds.
Can 6 Amino 1 3 Dimethyluracil Be Applied In Plastics?
Yes, it is widely used in the production of PVC heat stabilizers to improve product durability.
Why Choose Your Company For 6 Amino 1 3 Dimethyluracil?
We are a leading manufacturer with EU-REACH registration, high production capacity, and reliable global delivery.