Industrial Bulk Price 3-Methyl-2-(4-Chlorophenyl)Butyryl Chloride 2026
- [Reaction Kinetics]: Optimized conversion rates from carboxylic acid precursors ensure minimal byproduct formation during chlorination.
- [Logistics Framework]: Direct factory loading reduces lead times for tonnage quantities destined for global formulation plants.
- [Margin Optimization]: Tiered pricing structures for multi-drum orders significantly lower cost-per-kilogram compared to lab-scale procurement.
In the competitive landscape of agrochemical manufacturing, securing a reliable supply chain for key intermediates is critical for maintaining production schedules. 3-Methyl-2-(4-Chlorophenyl)Butyryl Chloride (CAS: 51631-50-6) serves as a vital Phenvalerate intermediate, driving demand across the pesticide synthesis sector. As we approach 2026, market dynamics indicate a shift towards consolidated sourcing from established facilities capable of delivering consistent industrial purity rather than variable research-grade materials.
For process engineers and procurement officers, understanding the cost drivers behind this acid chloride derivative is essential. Unlike small-scale catalog items, industrial procurement requires a focus on batch-to-batch consistency, regulatory documentation, and scalable manufacturing process capabilities. This analysis details the technical and commercial considerations for sourcing this compound at volume.
FOB Price Analysis for Bulk Procurement
When evaluating the bulk price for CAS 51631-50-6, buyers must distinguish between reagent-grade costs and commercial-scale contracts. Laboratory suppliers often list prices based on gram or kilogram quantities that include significant markups for packaging and handling. In contrast, industrial contracts focus on Free On Board (FOB) metrics that reflect the true cost of goods manufactured at scale.
For a global manufacturer like NINGBO INNO PHARMCHEM CO.,LTD., pricing stability is achieved through vertical integration of raw materials and optimized reaction pathways. The conversion of 2-(4-Chlorophenyl)-3-methylbutyric acid to the corresponding acid chloride typically utilizes thionyl chloride or oxalyl chloride. Efficient removal of excess reagents and hydrogen chloride gas is paramount to achieving the >98% purity required for downstream coupling reactions. Buyers seeking a reliable chemical supplier should request detailed cost breakdowns that account for raw material volatility and energy consumption during the chlorination step.
MOQ Discounts and Global Shipping Costs
Minimum Order Quantity (MOQ) structures play a pivotal role in the final landed cost of organic synthesis reagents. While research catalogs may set MOQs as low as 25g or 100g, industrial facilities operate efficiently with drum-level quantities (200kg+). Securing volume discounts often hinges on committing to quarterly or annual supply agreements.
Shipping hazardous materials, particularly acid chlorides which are moisture-sensitive and corrosive, requires specialized packaging and documentation. A robust supply chain partner will manage the complexities of international hazardous goods transport, ensuring that the synthesis route integrity is maintained from the reactor to the client's storage facility. By consolidating shipments and optimizing container load plans, significant savings can be realized on freight costs, which often constitute a large portion of the total expenditure for heavy chemical imports.
Comparing Gram vs Industrial Scale Pricing
The disparity between gram-scale and ton-scale pricing is substantial. Small quantities often carry a premium of 10x to 50x per unit weight due to the labor involved in dispensing, quality control testing per unit, and specialized small-batch packaging. For commercial production of pyrethroids and related agrochemicals, this model is unsustainable.
Industrial pricing reflects the efficiency of continuous or large-batch processing. When sourcing high-purity acid chloride derivative materials, buyers should prioritize suppliers who demonstrate capacity for custom synthesis and large-volume storage. This ensures that the material meets the strict specifications required for catalytic coupling without the impurities often found in smaller, less controlled batches.
Technical Quality Parameters
To ensure compatibility with downstream processes, procurement teams should verify that incoming material meets the following specifications. Batch-specific testing is standard practice for verifying quality assurance protocols.
| Parameter | Specification | Test Method |
|---|---|---|
| CAS Number | 51631-50-6 | Registry Verification |
| Molecular Formula | C11H12Cl2O | Calculated |
| Molecular Weight | 231.12 g/mol | MS Analysis |
| Purity (GC) | ≥ 98.0% | Gas Chromatography |
| Appearance | Clear Liquid to Low Melting Solid | Visual Inspection |
| Water Content | ≤ 0.5% | Karl Fischer Titration |
| Packaging | 200kg Drum / ISO Tank | Logistics Standard |
Strategic Sourcing for Executive Leadership
For executives overseeing supply chain resilience, the choice of partner extends beyond unit price. Regulatory compliance, including REACH and TSCA adherence, is non-negotiable for market access in Europe and North America. NINGBO INNO PHARMCHEM CO.,LTD. maintains rigorous documentation standards to facilitate smooth customs clearance and regulatory audits.
Investing in a stable supply relationship mitigates the risk of production stoppages caused by material shortages. By aligning with a manufacturer capable of scaling production alongside your demand forecasts, organizations can secure long-term commercial viability for their agrochemical portfolios.
To secure a competitive quote for the upcoming fiscal year, we encourage you to contact our technical sales team for a batch-specific COA, SDS, or bulk pricing quote. Our team is ready to discuss your specific volume requirements and delivery timelines.