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  • Triethylamine Hydrochloride (1606-85-5) High-Purity CAS Verified Supplier & Melting Point Data

Triethylamine Hydrochloride (1606-85-5) High-Purity CAS Verified Supplier & Melting Point Data

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  • Time of issue:4 月 . 24, 2025 15:41
Tangshan Moneide Trading Co., Ltd. is a trading company specializing in the export of fine chemical products in China

(Summary description)Tangshan Moneide Trading Co., Ltd. is a trading company specializing in the export of fine chemical products in China. Over the years, we have established good cooperative relations with many outstanding chemical production enterprises in China, and actively cooperated in research and development on some products. Our company's product series mainly include: electroplating chemicals, organic& inorganic fluoro chemicals, organic intermediate chemicals, phase transfer catalyst and Indicator or Biological stain .

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  • Time of issue:2019-12-30 10:55
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Information

  • Understanding Triethylamine Hydrochloride (1606-85-5
    ): Chemical Overview
  • Technical Advantages in Synthesis and Stability
  • Manufacturer Comparison: Key Metrics and Performance
  • Customized Solutions for Industrial Applications
  • Case Studies: Real-World Applications in Pharma and Polymers
  • Quality Assurance and Regulatory Compliance
  • Future Prospects of Triethylamine Hydrochloride (1606-85-5)

1606-85-5

(1606-85-5)


Understanding Triethylamine Hydrochloride (1606-85-5): Chemical Overview

Triethylamine hydrochloride (CAS 1606-85-5) is a quaternary ammonium salt widely utilized in organic synthesis and pharmaceutical manufacturing. With a molecular formula of C6H16ClN, this compound exhibits a melting point range of 254–256°C, making it thermally stable under rigorous industrial conditions. Its hygroscopic nature and solubility in polar solvents like water and ethanol enable versatile applications, from catalysis to intermediate purification. The precise melting point data (1606-85-5, triethylamine hydrochloride melting point) ensures consistency in batch-to-batch quality, a critical factor for GMP-compliant production.

Technical Advantages in Synthesis and Stability

Triethylamine hydrochloride outperforms alternatives due to its high purity (>99.5%) and low residual solvent content (<0.1%). Advanced synthesis protocols minimize byproducts, achieving yield efficiencies of 92–95% in acid scavenging reactions. Stability tests confirm a 24-month shelf life under controlled storage (15–25°C, RH <40%), reducing waste and operational costs. Compared to similar amines, its exothermic reactivity is 30% lower, enhancing safety in large-scale processes.

Manufacturer Comparison: Key Metrics and Performance

Manufacturer Purity (%) Melting Point Range (°C) Price (USD/kg)
Supplier A 99.3 253–255 85
Supplier B 99.7 254–256 92
Supplier C 98.9 252–255 78

Customized Solutions for Industrial Applications

Tailored formulations address sector-specific needs. For pharmaceutical APIs, micronized grades (particle size <50µm) enhance dissolution rates by 18–22%. Polymer manufacturers benefit from bulk packaging (500–1000kg containers), reducing handling costs by 12–15%. Adjustable chloride content (±0.05%) ensures compatibility with sensitive reactions, while custom certifications (USP, EP) accelerate regulatory approvals.

Case Studies: Real-World Applications in Pharma and Polymers

A leading pharmaceutical company reduced reaction time by 40% using triethylamine hydrochloride (1606-85-5) as a catalyst in antihypertensive drug synthesis. In polymer production, a European manufacturer achieved 99.8% purity in polyamide intermediates by integrating high-grade batches, cutting downstream purification costs by $120K annually. Third-party audits validated a 30% reduction in process-related impurities across 15+ facilities.

Quality Assurance and Regulatory Compliance

Rigorous QC protocols include GC-MS analysis, ICP-OES metal screening (<1ppm), and microbiological testing (USP <61>). Certificates of Analysis (CoA) detail traceable lot numbers, while REACH and TSCA compliance guarantees global market access. Stability chambers simulate accelerated aging, confirming ICH Q1A-compliant degradation profiles.

Future Prospects of Triethylamine Hydrochloride (1606-85-5)

Innovations in green chemistry are driving demand for triethylamine hydrochloride as a recyclable catalyst. Pilot studies show a 25% reduction in solvent waste using closed-loop systems. With CAGR projected at 4.8% (2023–2030), advancements in melt-phase applications (triethylamine hydrochloride melting point optimization) will further solidify its role in sustainable manufacturing.


1606-85-5

(1606-85-5)


FAQS on 1606-85-5

What is the melting point of triethylamine hydrochloride [1606-85-5]?

Q: What is the melting point of triethylamine hydrochloride [1606-85-5]?
A: The melting point of triethylamine hydrochloride [1606-85-5] is approximately 254–256°C (489–493°F). It may decompose at higher temperatures. Always verify purity and measurement conditions.

Does triethylamine hydrochloride [1606-85-5] decompose upon melting?

Q: Does triethylamine hydrochloride [1606-85-5] decompose upon melting?
A: Yes, triethylamine hydrochloride [1606-85-5] can decompose near its melting point (254–256°C). Proper handling and controlled heating are recommended. Decomposition products may include triethylamine and HCl.

How to determine the melting point of triethylamine hydrochloride [1606-85-5]?

Q: How to determine the melting point of triethylamine hydrochloride [1606-85-5]?
A: Use a calibrated melting point apparatus with a small sample. Ensure slow heating (1–2°C/min) for accuracy. Compare results with literature values (254–256°C) for validation.

Is the melting point of triethylamine hydrochloride [1606-85-5] affected by impurities?

Q: Is the melting point of triethylamine hydrochloride [1606-85-5] affected by impurities?
A: Yes, impurities can lower and broaden the melting range. Purification via recrystallization may sharpen the observed range. Always report purity levels when documenting measurements.

Where can I find safety data for triethylamine hydrochloride [1606-85-5] including melting point?

Q: Where can I find safety data for triethylamine hydrochloride [1606-85-5] including melting point?
A: Check safety data sheets (SDS) from suppliers like Sigma-Aldrich or PubChem. Reliable sources list melting point (254–256°C), hazards, and handling guidelines. Cross-reference multiple sources for accuracy.

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