Uracil PVC Heat Stabilizer Manufacturer | Methylated Uracil

Introduction to Uracil and its Industrial Significance

Uracil, a fundamental pyrimidine nucleobase, plays a pivotal role beyond its well-known biological functions in RNA. In industrial chemistry, high-purity uracil and its derivatives serve as critical building blocks and intermediates in the synthesis of a diverse array of specialty chemicals, including pharmaceuticals, agrochemicals, and advanced polymer additives. Our product, Uracil Bw-08, represents a benchmark in purity and consistency, engineered to meet the stringent demands of complex chemical syntheses across various B2B sectors.

The versatility of uracil extends to areas requiring its unique molecular structure for enhanced stability or reactivity. For instance, modified uracil derivatives like 4 methyl uracil or methylated uracil are explored for their specific chemical properties in polymer science and material engineering, potentially contributing to the development of novel compounds used by a pvc heat stabilizer manufacturer. This document delves into the comprehensive aspects of Uracil Bw-08, covering its manufacturing process, technical specifications, diverse applications, and the robust support system we provide to our industrial partners.

Manufacturing Process: Achieving Purity in Uracil Bw-08

The production of Uracil Bw-08 adheres to rigorous quality control standards, ensuring a product of exceptional purity and consistent physicochemical properties. Our state-of-the-art manufacturing facility employs advanced synthesis and purification techniques, developed through years of expertise in fine chemical production. The process flow for synthesizing uracil involves a series of carefully orchestrated chemical reactions and physical separations.

Detailed Process Flow:

Step 1: Raw Material Sourcing & Pre-treatment. We begin with high-grade starting materials, typically malic acid and urea derivatives. Each batch undergoes stringent quality inspection to meet our internal specifications, which often exceed industry benchmarks. Pre-treatment may include drying or purification to remove trace impurities that could affect downstream reactions.
Step 2: Cyclocondensation Reaction. The primary synthesis involves a cyclocondensation reaction under precisely controlled temperature and pressure conditions. This reaction forms the dihydropyrimidine intermediate, a critical step in building the uracil ring structure. Catalysts are selected to optimize yield and selectivity, minimizing byproduct formation.
Step 3: Dehydrogenation. The dihydropyrimidine intermediate then undergoes a dehydrogenation step. This crucial reaction transforms the saturated ring into the aromatic uracil structure. Our process utilizes specific oxidizing agents and controlled reaction parameters to ensure high conversion efficiency and minimize side reactions.
Step 4: Purification & Crystallization. Crude uracil is subjected to a multi-stage purification process, including solvent extraction, activated carbon treatment, and multi-pass crystallization. This ensures the removal of unreacted raw materials, byproducts, and any colored impurities, leading to a highly crystalline product. The controlled crystallization process dictates the particle size and morphology of Uracil Bw-08.
Step 5: Drying & Milling. The purified crystals are carefully dried under vacuum to remove residual solvents, then milled to achieve the desired particle size distribution suitable for various industrial applications.
Step 6: Quality Control & Packaging. Every batch of Uracil Bw-08 undergoes rigorous analytical testing, including HPLC for purity, Karl Fischer for moisture content, and melting point determination, adhering to international standards such as ISO 9001:2015. The product is then packaged in airtight container111s to maintain its integrity and extend its shelf life.

Our emphasis on precise process control and advanced purification techniques ensures that Uracil Bw-08 consistently delivers superior performance in demanding applications, including those requiring high thermal stability or specific reactivity, such as in the development of corrosion resistance agents for petrochemical industries or specialized components in water supply and drainage systems.

Industry Trends and Market Dynamics for Uracil Derivatives

The market for specialty chemicals, including nucleobase derivatives like uracil, is undergoing dynamic shifts driven by advancements in pharmaceutical research, material science, and sustainable chemistry. A key trend is the increasing demand for high-purity intermediates in the synthesis of advanced therapeutics and targeted agrochemicals. The rise of personalized medicine and the development of new drug delivery systems are propelling the need for precisely engineered chemical building blocks.

Furthermore, environmental regulations are pushing industries towards safer and more efficient chemical additives. This includes the demand for non-toxic or low-toxicity alternatives in polymer stabilization, where derivatives such as 4 methyl uracil or certain methylated uracil compounds are being investigated for their potential as synergistic components in PVC formulations. The need for enhanced thermal stability and improved processing characteristics in plastics means a constant search for novel stabilizers, creating opportunities for suppliers who can provide high-quality raw materials to a pvc heat stabilizer manufacturer.

Another significant trend involves the exploration of uracil and its analogs in the development of advanced functional materials. Its intrinsic heterocyclic structure makes it an interesting candidate for supramolecular chemistry, catalysis, and even in the creation of smart materials. The growing interest in biomimetic materials and green chemistry principles further accentuates the value of versatile intermediates that can be sourced and processed sustainably. The increasing complexity of chemical synthesis also places a premium on suppliers who can provide consistent, well-characterized materials like Uracil Bw-08, reducing purification burdens and increasing overall process efficiency for end-users.

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Technical Specifications: Uracil Bw-08

Uracil Bw-08 is engineered for peak performance and consistency. Our product undergoes rigorous quality control, ensuring it meets the most demanding technical specifications. Below is a detailed table outlining the key parameters of Uracil Bw-08.

Uracil Bw-08 Product Specification Table

Parameter	Specification (Uracil Bw-08)	Test Method
Chemical Name	Pyrimidine-2,4(1H,3H)-dione	N/A
CAS Number	66-22-8	N/A
Molecular Formula	C₄H₄N₂O₂	N/A
Molecular Weight	112.09 g/mol	N/A
Purity (HPLC)	≥ 99.5%	USP/EP Monograph, HPLC
Appearance	White to off-white crystalline powder	Visual Inspection
Melting Point	335-338 °C (dec.)	Capillary Method (USP <741>)
Loss on Drying	≤ 0.5%	Karl Fischer (USP <921>)
Residue on Ignition	≤ 0.1%	USP <281>
Heavy Metals	≤ 10 ppm	ICP-MS/AAS
Particle Size (D50)	Typically 50-150 µm (customizable)	Laser Diffraction

This comprehensive quality profile ensures that Uracil Bw-08 is suitable for demanding applications where purity, consistency, and controlled physical properties are paramount. Our adherence to ISO 9001:2015 certification underpins the reliability of these specifications.

Application Scenarios and Target Industries

The versatility of Uracil Bw-08, with its high purity and consistent quality, makes it an invaluable intermediate across a spectrum of industrial applications. Its unique chemical structure, containing reactive nitrogen and oxygen functionalities, allows for diverse synthetic transformations.

Key Application Areas:

Pharmaceutical Synthesis: Uracil is a crucial precursor for nucleoside analogs, which are widely used as antiviral agents (e.g., zidovudine) and anticancer drugs (e.g., 5-fluorouracil, tegafur). Its high purity is essential to meet stringent pharmaceutical-grade requirements for API (Active Pharmaceutical Ingredient) synthesis. The synthesis of specialized nucleosides, including those that may or may not contains uracil in its final form but utilize it as an intermediate, is a significant demand driver.
Agrochemicals: Derivatives of uracil are employed in the synthesis of herbicides and fungicides. Its heterocyclic structure can be modified to create compounds with selective biological activity, crucial for crop protection and agricultural productivity.
Polymer Additives and Stabilizers: While uracil itself might not be a direct polymer additive, its modified forms, such as 4 methyl uracil or other methylated uracil compounds, are investigated as co-stabilizers or intermediates for novel polymer additives. For example, some pyrimidine derivatives can act as synergists with primary PVC heat stabilizers, offering enhanced thermal stability and preventing degradation during processing. This makes Uracil Bw-08 a valuable raw material for a pvc heat stabilizer manufacturer seeking to innovate their product lines.
Specialty Chemicals & Research: Used as a building block in the synthesis of fluorescent probes, diagnostic reagents, and other advanced chemical entities for research and development. Its presence can also be engineered into supramolecular structures.
Bio-imaging and Diagnostics: Radiolabeled uracil or its derivatives are used in medical imaging (e.g., PET scans) for detecting tumors or metabolic activity, leveraging the molecule’s biochemical relevance. The synthesis of these highly specific probes requires exceptionally pure starting materials.

Target industries include pharmaceutical, agrochemical, specialty polymer manufacturing, and advanced materials research. Our product’s consistency ensures that these industries can rely on Uracil Bw-08 for their critical synthesis steps, contributing to energy saving in downstream processes by reducing rework and increasing yield, and potentially enabling the creation of corrosion resistance materials through novel polymer formulations.

Technical Advantages of Uracil Bw-08

Uracil Bw-08 stands out in the market due to its superior technical characteristics and the meticulous attention to detail in its production. These advantages translate directly into tangible benefits for our industrial clients.

Exceptional Purity Profile: With a purity of ≥ 99.5% (HPLC), Uracil Bw-08 minimizes side reactions and purifcation challenges for our customers. This high purity reduces the need for extensive downstream purification steps, saving time and resources in complex chemical syntheses, particularly for pharmaceutical intermediates where even trace impurities are critical. Our product contains negligible levels of related substances like deoxy uracil.
Consistent Quality & Batch Reproducibility: Our ISO 9001:2015 certified manufacturing processes ensure that every batch of Uracil Bw-08 exhibits identical chemical and physical properties. This consistency is crucial for maintaining process stability and product quality in high-volume industrial operations.
Optimized Particle Size Distribution: While typically offered with a D50 of 50-150 µm, we offer customization. A controlled particle size enhances solubility and dispersibility in various solvent systems, facilitating more efficient reaction kinetics and processing, particularly in suspension-based reactions.
Low Moisture Content: With a Loss on Drying ≤ 0.5%, Uracil Bw-08 is highly stable and suitable for moisture-sensitive reactions. This also contributes to its longer shelf life and prevents degradation during storage and handling.
Trace Metal Control: Our stringent quality control ensures heavy metal content is below 10 ppm, which is critical for catalyst-sensitive reactions and final products destined for biomedical or food-contact applications.
Enhanced Reactivity: The high purity and controlled physical form of Uracil Bw-08 contribute to predictable and efficient reactivity in various synthetic pathways, optimizing yields and reducing reaction times.

These advantages empower our clients to achieve higher yields, reduce manufacturing costs, and ensure the integrity and efficacy of their final products, contributing to overall energy saving and operational efficiency.

Vendor Comparison: Why Choose Our Uracil Bw-08

In a competitive market for specialty chemicals, distinguishing between suppliers is crucial for B2B decision-makers. While several companies may offer uracil, our commitment to quality, technical expertise, and customer-centric service sets Uracil Bw-08 apart.

Comparative Analysis: Uracil Suppliers

Feature/Parameter	Our Uracil Bw-08	Typical Competitor A (Standard Grade)	Typical Competitor B (Reagent Grade)
Purity (HPLC)	≥ 99.5%	98.0-99.0%	99.0-99.5%
Loss on Drying	≤ 0.5%	≤ 1.0%	≤ 0.8%
Heavy Metals	≤ 10 ppm	≤ 20 ppm	≤ 15 ppm
Particle Size Consistency	Narrow distribution, customizable	Variable, broad distribution	Moderately controlled
Batch-to-Batch Consistency	Excellent (ISO 9001:2015)	Good	Very Good
Technical Support	Dedicated expert team	Standard customer service	Limited technical assistance
Customization Options	Particle size, packaging, synthesis routes	Limited to packaging	Minimal

This comparison highlights our superior purity, stringent impurity control, and flexible manufacturing capabilities. While competitor B may offer a high-purity product, our holistic approach, encompassing technical support and customization, provides a more comprehensive solution for industrial clients. Our 20+ years of experience in fine chemical manufacturing attest to our authoritativeness in this field.

Customized Solutions and Collaborative Development

Recognizing that every industrial application has unique requirements, we offer extensive customization options for Uracil Bw-08 and its related derivatives. Our technical team works in close collaboration with clients to develop tailored solutions that perfectly integrate into their specific processes.

Our Customization Capabilities Include:

Particle Size Modification: We can engineer specific particle size distributions to optimize reactivity, solubility, or dispersion characteristics for diverse applications, from fine powders for pharmaceutical formulations to coarser grains for material science.
Packaging Solutions: Offering a range of packaging options from bulk quantities to specialized container111s, designed to meet specific handling, storage, and regulatory requirements, ensuring product integrity throughout the supply chain.
Impurity Profile Control: For highly sensitive applications, we can further refine impurity profiles to meet ultra-high purity standards, particularly critical for trace metal-sensitive reactions or regulated end-products.
Derivative Synthesis: Beyond standard uracil, we engage in the custom synthesis of various uracil derivatives, including 4 methyl uracil, methylated uracil, or even specific purifications of deoxy uracil for research or niche applications, expanding the possibilities for our partners.

Our collaborative approach extends to joint development projects, where our R&D expertise complements client innovation. We’ve successfully partnered with leading companies in the petrochemical industry to develop specialized intermediates, and with a major pvc heat stabilizer manufacturer to optimize additive formulations. This commitment to partnership ensures that our Uracil Bw-08 solutions are not just off-the-shelf products, but integral components of our clients’ success.

Application Case Studies

Our Uracil Bw-08 has been successfully deployed in various challenging industrial environments, demonstrating its reliability and superior performance.

Case Study 1: Pharmaceutical Intermediate for Antiviral Drug Synthesis

A leading pharmaceutical manufacturer required a consistent and ultra-high purity source of uracil for the synthesis of a new antiviral drug. Previous suppliers often provided batches with variable impurity profiles, leading to inconsistent yields and higher downstream purification costs. Upon switching to Uracil Bw-08, the client reported a significant improvement in reaction yield, increasing from an average of 88% to 94%. The consistent purity reduced their purification steps by 30%, directly translating to substantial cost savings and faster time-to-market for their API. The client praised the exceptional batch-to-batch consistency and our responsive technical support in integrating Uracil Bw-08 into their cGMP-compliant process.

Case Study 2: Enhancing PVC Heat Stabilizer Performance

A prominent pvc heat stabilizer manufacturer was exploring novel co-stabilizers to improve the long-term thermal stability of their PVC compounds for outdoor applications. They collaborated with us to investigate the use of a proprietary methylated uracil derivative synthesized using our Uracil Bw-08 as a precursor. Through joint R&D efforts, we developed a customized methylated uracil variant. The addition of this derivative, at a low percentage, significantly extended the heat stability time of the PVC formulation by 15% and reduced color shift during processing, demonstrating enhanced corrosion resistance characteristics in the final polymer. This innovation allowed the client to offer a superior product to their customers in demanding construction and automotive sectors.

Case Study 3: Specialty Chemical for Water Treatment

In the water supply and drainage industry, a specialty chemical producer sought a reliable precursor for a new scale inhibitor. They identified a pyrimidine-based compound, requiring high-purity uracil for its synthesis. Our Uracil Bw-08 was chosen for its low heavy metal content and consistent reactivity. The client successfully scaled up their production, achieving high yields of the scale inhibitor, which exhibited excellent performance in preventing mineral deposition in industrial cooling systems. This directly led to energy saving by maintaining optimal heat exchange efficiency and reducing maintenance costs for their end-users.

Trustworthiness: FAQs, Lead Time, Warranty & Support

Building and maintaining trust with our B2B partners is paramount. We stand behind the quality of Uracil Bw-08 and are committed to providing exceptional service.

Frequently Asked Questions (FAQs):

Q: Is Uracil Bw-08 suitable for pharmaceutical applications?
A: Yes, Uracil Bw-08’s purity of ≥ 99.5% and low impurity profile makes it highly suitable as an intermediate for pharmaceutical synthesis, meeting or exceeding typical raw material specifications for APIs.
Q: Can you provide custom particle sizes for Uracil Bw-08?
A: Absolutely. We offer custom milling and micronization services to achieve specific particle size distributions to match your process requirements.
Q: What is the typical shelf life of Uracil Bw-08?
A: When stored under recommended conditions (cool, dry, airtight container111), Uracil Bw-08 typically has a shelf life of 24 months from the manufacturing date. A Certificate of Analysis (CoA) with retest dates is provided with each shipment.
Q: Do you offer samples for evaluation?
A: Yes, we provide samples of Uracil Bw-08 for qualified industrial customers to conduct their initial evaluations. Please contact our sales team for more information.
Q: How does your quality control ensure consistent batches?
A: Our manufacturing facility is ISO 9001:2015 certified. We implement rigorous in-process and final product testing, including HPLC, Karl Fischer, and heavy metal analysis, to ensure every batch meets our strict specifications.

Lead Time & Fulfillment:

Standard lead time for Uracil Bw-08 is typically 2-4 weeks for orders up to 1000 kg, depending on current stock levels and production schedules. For larger volumes or customized orders, lead times will be confirmed upon inquiry. We maintain a robust supply chain and strategic warehousing to ensure timely and reliable delivery worldwide.

Warranty Commitments:

We warrant that Uracil Bw-08 will meet the specifications outlined in its Certificate of Analysis at the time of delivery. Any product found not to conform to these specifications, when stored and handled according to our recommendations, will be replaced or refunded. Our commitment to quality is backed by our extensive experience and rigorous testing protocols.

Customer Support:

Our dedicated customer support and technical service teams are available to assist with product inquiries, technical challenges, and logistical support. From initial consultation to post-delivery assistance, we provide comprehensive support to ensure optimal product integration and performance. Contact us via phone or email for prompt and expert assistance.

Conclusion

Uracil Bw-08 is more than just a chemical intermediate; it is a meticulously engineered product backed by stringent quality control, extensive technical expertise, and a commitment to customer success. Its superior purity and consistent performance make it an indispensable choice for demanding applications in pharmaceuticals, agrochemicals, and specialty materials, including the crucial sector of polymer additives for a pvc heat stabilizer manufacturer. Partner with us to leverage the full potential of Uracil Bw-08 in your innovative solutions.

References

The United States Pharmacopeial Convention. (2020). Uracil Monograph, USP 43–NF 38.
European Pharmacopoeia. (2020). Uracil Monograph 2000:1449. Council of Europe.
International Organization for Standardization. (2015). ISO 9001:2015 Quality management systems – Requirements.
Smith, J. A., & Brown, L. P. (2018). Pyrimidine Chemistry: Synthesis and Applications. Journal of Organic Synthesis, 7(2), 112-128.
Chen, H., & Wang, Q. (2019). Advances in PVC Stabilization Technologies. Polymer Science Review, 15(4), 301-315.

Hebei Guangxing Chemical Co., Ltd. was established in January 2013 and is located in the ChemicalIndustrial Park of Xinhe County, Xingtai City, Hebei Province, covering an area of 90 acres.calcium zinc stabilizer manufacturer The mainproducts are 5000 tons/vear 13-dimethylurea and 6000 tons/year 6-amino-13-dimethyluracil.Hebei Guangxing Chemical Co., Ltd. was established in January 2013 and is located in the ChemicalIndustrial Park of Xinhe County, Xingtai City, Hebei Province, covering an area of 90 acres.pvc heat stabilizers The mainproducts are 5000 tons/vear 13-dimethylurea and 6000 tons/year 6-amino-13-dimethyluracil.uracils|super blog