O DY377 acidic metal extractant is an high-efficiency acidic solvent extraction reagent belonging to the specialized diglycidyl bisamide class. For the selective extraction, precise separation, and deep enrichment of transition metals, rare earth groups, and precious metals from complex industrial leaching liquors.
Its unique molecular structure contains tailored functional groups that enable highly targeted chelation kinetics. DY377 is globally utilized across advanced hydrometallurgical operations, battery recycling systems, and precious metal refineries to achieve ultra-pure element separation while drastically reducing processing steps and secondary waste streams.
Fórmula estrutural DY377:
C20H39NO4
| Aparência | Líquido viscoso amarelo |
| Gravidade Específica (25 ° C) | 0.90-0.92 |
| Ponto de inflamação (copo fechado) | >70℃ |
| Contente (50% m/m) | ≥47% |
| Viscosidade dinamica (25 ° C) | ≤100CP |
| Tempo de separação da fase de extração | ≤150s |
| Tempo de separação da fase de extração reversa | ≤100s |
Primary Applications & Metais alvo
Through precisely controlling the pH gradient and organic concentration, DY377 is suitable for directional multi metal extraction processes:
1. High-Efficiency Nickel and Cobalt Separation
In laterite nickel processing circuits and lithium-ion battery black mass recycling loops, DY377 acts as an excellent separator. It selectively segregates cobalt and nickel ions from highly concentrated sulfate or chloride systems, presenting an excellent alternative or complement to traditional phosphinic acid reagents.
2. Transition Metal Recovery & Wastewater Purification
DY377 displays robust extraction affinity for an array of transition elements, making it ideal for processing smelting byproducts and treating industrial effluents:
Cadmium, Manganese, and Molybdenum extraction. Titanium, Lead, Cobre, and Antimony separation.
3. Precious Metals Enrichment
The diglycidyl bisamide structure offers exceptional coordination stability with noble metal complexes. Refineries deploy DY377 to selectively trap and enrich trace concentrations of Gold, Platina, and Silver from complex anode slimes and electronic waste scrap leaching streams.
Key Performance Advantages of DY377
Low Operating Density & Viscosidade: With a specific gravity of and a low dynamic viscosity, DY377 mixes cleanly with standard diluents, minimizing emulsion issues and optimizing mass transfer rates.
Desengate rápido de fase: Achieves clear boundary separation within short cycle times. This prevents organic carryover loss and maximizes output volumes in continuous counter-current mixer-settler loops.
Flexible Reverse-Extraction (Decapagem): Loaded metal matrices can be easily back-extracted or reduced through optimized mineral acid profiles or reducing agent applications, returning a highly concentrated, pure aqueous stream ready for electrowinning or precipitation.
Enhanced Operational Safety: A high closed-cup flash point ensures a highly stable, fire-safe workspace in commercial solvent extraction plants.
Por falar nisso, nossos extratores de metal como abaixo, se você precisar, por favor, sinta-se livre para nos perguntar:
- P204 (D2EHPA ou HDEHP) Isso é usado na primeira etapa para remover impurezas do minério de níquel laterítico.
- P507 extrator de metais não ferrosos para cobre, zinco, cobalto-níquel, cádmio, ouro-prata, metais do grupo da platina, terras raras e assim por diante.
- DY272 Extratante de separação de níquel cobalto, pode retirar o cobalto da solução de níquel-cobalto, então deixe níquel puro.
- DY984N reagente de extração de solvente de cobre.
- QL256-2 Extrator de coextração de níquel cobalto manganês.
- DY316 Extrator de lítio.
- DY319 extrator de coextração de níquel-cobalto de alta eficiência para reciclagem de baterias, pode retirar níquel e cobalto juntos do eletrólito da bateria de lítio.
- DY366 Extrator de escândio.
- DY377 eficiente extrator de separação de níquel e diamante.
