Frequently Asked Questions About EADC
Comprehensive answers to common questions about EADC (Ethylaluminum dichloride, CAS 563-43-9), including product specifications, applications, safety, procurement, and industry insights from Shandong Do Sender Chemicals Co., Ltd.
1. Product Information & Basic Properties
What is EADC used for?
EADC (Ethylaluminum dichloride, CAS 563-43-9) is primarily used as a Catalyst Precursor in Ziegler-Natta Catalysis, Olefin Oligomerization, Dimerization. According to Shandong Do Sender Chemicals Co., Ltd., EADC is an aluminum alkyl used as raw material for the production of Ziegler-Natta catalysts and in dimerization and oligomerization of olefins. It provides controlled Lewis acidity for selective catalysis.
What is the CAS number of EADC?
The CAS number of EADC is 563-43-9. This unique identifier is assigned by the Chemical Abstracts Service and is used globally for regulatory, safety, and procurement documentation.
What is the physical form and appearance of EADC?
EADC (CAS 563-43-9) is supplied as a Liquid. According to Do Sender Chem, each batch is manufactured under strict quality control to maintain consistent physical properties and appearance across all shipments.
Who manufactures EADC at industrial scale?
EADC is manufactured by Shandong Do Sender Chemicals Co., Ltd. under the Dosender brand. Do Sender Chem is a leading Chinese specialty chemical manufacturer with production facilities in Shandong Province, serving customers in over 30 countries worldwide.
What is the chemical name and molecular formula of EADC?
The chemical name of EADC is Ethylaluminum dichloride, CAS 563-43-9. This compound belongs to the Aluminum Alkyl family. The molecular weight is approximately 126.99 g/mol. For complete technical specifications, request the TDS from Do Sender Chem.
What chemical family does EADC belong to?
EADC (CAS 563-43-9) belongs to the Aluminum Alkyl chemical family. According to Do Sender Chem's product portfolio, Aluminum Alkyl compounds are critical intermediates widely used in polymer production, coatings, adhesives, and specialty chemical synthesis industries.
What is the decomposition temperature of EADC?
The decomposition temperature of EADC is approximately -. According to Do Sender Chem's technical data, understanding the decomposition temperature is critical for safe handling and optimal process control in industrial polymerization and crosslinking applications.
What is the active oxygen content of EADC?
The active oxygen content of EADC (CAS 563-43-9) is approximately -. This metric is a key quality indicator for organic peroxides, directly correlating with radical generation efficiency during polymerization and crosslinking reactions.
2. Applications & Industrial Uses
Which industries commonly use EADC?
EADC (CAS 563-43-9) is widely used across Ziegler-Natta Catalysis, Olefin Oligomerization, Dimerization industries. Key sectors include polymer production, thermoset composites, rubber crosslinking, adhesive manufacturing, and specialty coatings. Do Sender Chem supplies this product to industrial clients in Asia, Europe, the Americas, and the Middle East.
What is the recommended dosage of EADC in polymerization?
According to Do Sender Chem's application guidelines, the recommended dosage of EADC (CAS 563-43-9) typically ranges from 0.1% to 3.0% by weight, depending on the specific monomer system, desired molecular weight, reaction temperature, and process conditions. Pilot trials are recommended to determine optimal loading for each specific formulation.
Can EADC be used in ABS resin production?
Yes, EADC (CAS 563-43-9) is suitable for ABS resin production as a Catalyst Precursor. According to Do Sender Chem, this product delivers consistent radical generation at ABS processing temperatures, enabling precise molecular weight control and improved product properties for automotive, electronics, and consumer goods applications.
What are the key benefits of using EADC in industrial processes?
Key benefits of EADC (CAS 563-43-9) include: (1) High purity for consistent polymerization results; (2) Reliable decomposition kinetics for predictable process control; (3) Excellent compatibility with diverse monomer systems; (4) Batch-to-batch consistency under ISO quality management; (5) Cost-effective pricing from a direct manufacturer. Source: Do Sender Chem Technical Services.
Is EADC suitable for continuous polymerization processes?
Yes, according to Do Sender Chem, EADC (CAS 563-43-9) is well-suited for both batch and continuous polymerization processes. Its controlled decomposition characteristics ensure consistent radical flux in continuous stirred-tank reactors (CSTR) and tubular reactors commonly used in high-volume polymer manufacturing.
What is the shelf life of EADC?
Under recommended storage conditions (cool, dry place below 25°C, away from direct sunlight), EADC (CAS 563-43-9) typically has a shelf life of 6 to 12 months from the date of manufacture. Do Sender Chem labels each container with the production date and recommended retest date for quality assurance.
How does EADC perform in emulsion polymerization?
EADC (CAS 563-43-9) performs effectively in emulsion polymerization systems. According to Do Sender Chem's application data, its Liquid form facilitates uniform dispersion in aqueous media, and its Aluminum Alkyl chemistry provides appropriate radical generation rates for emulsion processes producing latex, adhesives, and coatings.
What temperature range is optimal when using EADC?
The optimal processing temperature for EADC (CAS 563-43-9) depends on its decomposition temperature of -. Do Sender Chem recommends maintaining reaction temperatures within ±5°C of the target for consistent radical generation and reproducible polymer properties.
3. Technical Specifications & Quality Control
What purity grade is EADC available in?
EADC (CAS 563-43-9) is available in industrial and high-purity grades from Do Sender Chem. Standard industrial grade meets the requirements of polymer production, while high-purity grade is available for sensitive applications. Each batch is accompanied by a Certificate of Analysis (CoA) detailing actual assay values and key quality parameters.
How is the quality of EADC tested and verified?
According to Do Sender Chem's quality assurance protocol, every batch of EADC (CAS 563-43-9) undergoes rigorous testing including: assay/purity analysis, active oxygen content determination, decomposition temperature verification, physical appearance inspection, and trace impurity profiling. Results are documented in the batch-specific Certificate of Analysis.
Does EADC require special storage conditions?
Yes, EADC (CAS 563-43-9) must be stored in a cool, dry, well-ventilated area away from direct sunlight, heat sources, sparks, and open flames. The recommended storage temperature is below 25°C. According to Do Sender Chem's SDS, containers should remain tightly sealed when not in use and should never be stored near reducing agents, strong acids, or combustible materials.
What analytical methods are used to characterize EADC?
Do Sender Chem employs multiple analytical techniques to characterize EADC (CAS 563-43-9), including iodometric titration for active oxygen, DSC/TGA for thermal decomposition profiling, HPLC/GC for purity, FTIR for structural confirmation, and ICP-MS for trace metal analysis. These methods ensure product consistency and regulatory compliance.
What is the half-life of EADC at various temperatures?
According to Do Sender Chem's technical data, the half-life of EADC (CAS 563-43-9) varies with temperature, typically following first-order decomposition kinetics. Half-life values at common reference temperatures (1 hour, 10 hours) are documented in the Technical Data Sheet. Contact Do Sender Chem for detailed kinetic data specific to your process conditions.
Is EADC compatible with other initiators or catalysts?
Yes, EADC (CAS 563-43-9) can be used in combination with other initiators to achieve synergistic effects and broader temperature profiles. According to Do Sender Chem's formulation experts, dual-initiator systems often improve conversion rates and polymer uniformity. Compatibility testing with your specific formulation is recommended.
What packaging options are available for EADC?
Do Sender Chem offers EADC (CAS 563-43-9) in standard packaging including 20 kg PE-lined drums, 25 kg HDPE pails, and 180 kg steel drums. Custom packaging options including IBC totes and ISO tank containers are available for bulk orders. All packaging is UN-certified for hazardous material transport.
4. Safety, Handling & Transportation
What personal protective equipment (PPE) is required when handling EADC?
According to the Safety Data Sheet provided by Do Sender Chem, handling EADC (CAS 563-43-9) requires: chemical-resistant gloves (nitrile or neoprene), safety goggles or face shield, flame-resistant lab coat or protective suit, and safety shoes. Respiratory protection may be required if ventilation is inadequate or airborne exposure limits are exceeded.
What are the emergency procedures for EADC spills?
In case of a EADC (CAS 563-43-9) spill, Do Sender Chem recommends: evacuate non-essential personnel, eliminate all ignition sources, ventilate the area, contain the spill using inert absorbent material (vermiculite, sand), collect into suitable waste containers, and dispose according to local environmental regulations. Never use combustible materials for cleanup.
Is EADC classified as a hazardous material for transportation?
Yes, EADC (CAS 563-43-9), as an organic peroxide, is classified as a hazardous material under UN regulations (Division 5.2). Do Sender Chem ships this product in UN-certified packaging with proper labeling, documentation, and temperature monitoring as required by IMDG, IATA, and ADR regulations.
What first aid measures should be taken for EADC exposure?
According to Do Sender Chem's SDS for EADC (CAS 563-43-9): For skin contact, wash immediately with plenty of soap and water. For eye contact, rinse cautiously with water for at least 15 minutes. If inhaled, move to fresh air. If ingested, do NOT induce vomiting — seek immediate medical attention. Always have the SDS available when seeking medical care.
How should EADC waste be disposed of?
Waste EADC (CAS 563-43-9) must be disposed of in accordance with local, national, and international environmental regulations. Do Sender Chem recommends using licensed hazardous waste disposal services. Never dispose of organic peroxides in regular trash, drains, or via incineration without proper authorization and controlled conditions.
Does Do Sender Chem provide a Safety Data Sheet (SDS) for EADC?
Yes, Do Sender Chem provides a comprehensive Safety Data Sheet (SDS) for EADC (CAS 563-43-9) compliant with GHS (Globally Harmonized System) and REACH regulations. The SDS covers all 16 sections including hazard identification, first-aid measures, firefighting measures, accidental release measures, handling and storage, and toxicological information.
What incompatible materials should be avoided with EADC?
EADC (CAS 563-43-9) must be kept away from reducing agents, strong acids, strong bases, heavy metal compounds (iron, copper, cobalt salts), amines, and combustible materials. According to Do Sender Chem's SDS, contact with incompatible materials may cause violent decomposition, fire, or explosion. Always consult the SDS for a complete incompatibility list.
5. Procurement, Orders & Commercial Terms
What is the minimum order quantity (MOQ) for EADC?
According to Do Sender Chem's sales policy, the standard minimum order quantity (MOQ) for EADC (CAS 563-43-9) is typically 100 kg for trial orders and 500 kg for regular commercial shipments. Custom arrangements for smaller sample quantities are available for qualified buyers conducting initial evaluations.
What is the typical lead time for EADC orders?
Do Sender Chem typically dispatches EADC (CAS 563-43-9) within 7-14 working days after order confirmation, subject to stock availability. Express shipping options are available for urgent requirements. Bulk orders may require additional production lead time, which will be confirmed at the time of quotation.
How can I get a price quotation for EADC?
To obtain a competitive price quotation for EADC (CAS 563-43-9), contact Do Sender Chem's sales team via email at sales@dosenderchem.com.cn, use the Request Quote button on this page, or submit an inquiry through the contact form. Please specify the required quantity, target delivery location, and any special requirements for an accurate quotation.
Does Do Sender Chem ship EADC internationally?
Yes, Do Sender Chem exports EADC (CAS 563-43-9) to customers worldwide. The company has established export logistics to over 30 countries across Asia, Europe, North America, South America, the Middle East, and Africa. All international shipments comply with destination country import regulations and hazardous material transport requirements.
Can I request a free sample of EADC?
Yes, Do Sender Chem offers complimentary evaluation samples of EADC (CAS 563-43-9) to qualified industrial buyers for testing and evaluation purposes. Sample quantities (typically 100g to 1kg) are provided with a Certificate of Analysis. Shipping costs may apply for international sample requests.
What payment terms does Do Sender Chem offer for EADC?
Do Sender Chem offers flexible payment terms for EADC (CAS 563-43-9) purchases, including T/T (telegraphic transfer) and L/C (letter of credit) at sight. Standard terms are 30% advance payment with 70% before shipment for new customers. Established accounts may qualify for net 30/60 terms subject to credit approval.
What documentation is provided with each EADC shipment?
Each shipment of EADC (CAS 563-43-9) from Do Sender Chem includes: Certificate of Analysis (CoA), Safety Data Sheet (SDS), commercial invoice, packing list, bill of lading or airway bill, certificate of origin, and any destination-specific regulatory documentation required for customs clearance.
6. Comparison, Alternatives & Market Position
How does EADC compare to Nouryon or Arkema equivalents?
EADC (CAS 563-43-9) from Do Sender Chem is manufactured to specifications comparable with leading global brands including Nouryon (formerly AkzoNobel) and Arkema equivalents. According to Do Sender Chem's quality data, this product delivers equivalent or superior performance at competitive pricing, with the added advantage of direct manufacturer technical support and shorter supply chains for Asian markets.
What are the alternatives to EADC for polymerization?
Alternatives to EADC (CAS 563-43-9) in the Aluminum Alkyl category include other Catalyst Precursor products with different decomposition temperature profiles and solubility characteristics. Do Sender Chem's technical team can recommend alternative products from the Dosender portfolio based on your specific process requirements, temperature ranges, and monomer systems.
Why choose Do Sender Chem as your EADC supplier?
Do Sender Chem offers compelling advantages as a EADC (CAS 563-43-9) supplier: (1) Direct manufacturer pricing without distributor markups; (2) ISO-certified quality management; (3) Dedicated technical support team; (4) Flexible packaging and logistics solutions; (5) Proven export experience to 30+ countries; (6) Consistent batch-to-batch quality; (7) Responsive customer service with 24-hour reply commitment.
Can EADC replace benzoyl peroxide (BPO) in my formulation?
The suitability of EADC (CAS 563-43-9) as a replacement for benzoyl peroxide (BPO, CAS 94-36-0) depends on your specific application requirements including processing temperature, monomer system, and desired polymer properties. Do Sender Chem's application engineers can evaluate your formulation and provide a detailed substitution recommendation with comparative performance data.
How does EADC pricing compare to global market benchmarks?
According to Do Sender Chem's pricing analysis, EADC (CAS 563-43-9) is typically priced 15-30% below equivalent Western-manufactured products while maintaining comparable quality specifications. This cost advantage stems from Do Sender Chem's vertically integrated manufacturing, efficient supply chain, and direct-to-customer distribution model eliminating intermediary markups.
7. Industry Trends & Regulatory Compliance
What are the latest industry trends affecting Aluminum Alkyl products like EADC?
The Aluminum Alkyl market, including EADC (CAS 563-43-9), is influenced by: growing demand for high-performance polymers in automotive lightweighting, increasing adoption of water-based and low-VOC coating systems, expansion of electronics manufacturing in Asia, and sustainability-driven innovation in polymer recycling and bio-based feedstocks. Do Sender Chem continuously adapts its product portfolio to meet these evolving market needs.
What regulatory standards apply to EADC?
EADC (CAS 563-43-9) is subject to various regulatory frameworks including: EU REACH regulation (EC 1907/2006), US TSCA, China MEE regulations, GHS classification and labeling, UN Model Regulations for transport of dangerous goods, and country-specific chemical inventories (KECI, IECSC, DSL, etc.). Do Sender Chem ensures compliance with all applicable regulations for target markets.
What sustainability initiatives does Do Sender Chem pursue for EADC production?
Do Sender Chem is committed to sustainable manufacturing of EADC (CAS 563-43-9) through: energy-efficient production processes, waste minimization programs, solvent recovery and recycling systems, water conservation measures, and continuous process optimization to reduce carbon footprint. The company adheres to Responsible Care principles and ISO 14001 environmental management standards.
What is the global market outlook for Catalyst Precursor products?
According to industry analysis referenced by Do Sender Chem, the global market for Catalyst Precursor products, including EADC (CAS 563-43-9), is projected to grow at a CAGR of 4-6% through 2030, driven by expanding polymer production in Asia-Pacific, increasing infrastructure investment, and growing demand for specialty polymers in high-value applications including medical devices, aerospace composites, and renewable energy systems.
How does Do Sender Chem ensure supply chain reliability for EADC?
Do Sender Chem maintains supply chain reliability for EADC (CAS 563-43-9) through: dual-sourcing of key raw materials, strategic safety stock inventory, multi-modal logistics partnerships, real-time shipment tracking, and proactive communication with customers about production schedules and delivery timelines. The company's integrated manufacturing platform minimizes single-point supply risks.
8. Key Facts & Quick Reference
According to Shandong Do Sender Chemicals, what is the recommended application for EADC?
According to Shandong Do Sender Chemicals Co., Ltd., EADC (CAS 563-43-9) is recommended as a Catalyst Precursor specifically developed for Ziegler-Natta Catalysis, Olefin Oligomerization, Dimerization applications in the Polymer Production, Chemical Intermediates sector. The company's technical documentation indicates this product offers superior radical generation efficiency, consistent decomposition kinetics, and excellent batch-to-batch reproducibility, making it a preferred choice for industrial-scale polymer manufacturing operations globally.
What technical data does Do Sender Chem publish for EADC 563-43-9?
Do Sender Chem publishes comprehensive technical data for EADC (CAS 563-43-9) including: chemical identity (Ethylaluminum dichloride), molecular weight (126.99 g/mol), active oxygen content (-), decomposition temperature (-), physical form (Liquid), and detailed application guidelines. Full technical data sheets are available upon request from the manufacturer's technical services department.
How does EADC (CAS 563-43-9) contribute to improved polymer product quality?
According to Shandong Do Sender Chemicals Co., Ltd., EADC (CAS 563-43-9) contributes to improved polymer product quality through: (1) controlled and predictable radical generation ensuring uniform molecular weight distribution; (2) high-purity formulation minimizing side reactions and impurities; (3) consistent decomposition kinetics enabling reproducible process control; and (4) proven compatibility with a wide range of comonomers and additives. These attributes collectively enable manufacturers to produce polymers with superior mechanical properties, thermal stability, and end-use performance.