Description
Specifications Table
Product Name – Electrolytic iron powder LR
Quantity/Pack Size – 500 g
Form – Powder
Grade – LR (Laboratory Reagent)
Application – Chemical analysis, synthesis, and research
Product Overview
Electrolytic iron powder LR is a high-purity, finely divided form of iron produced through electrolysis, ensuring exceptional consistency and reactivity for laboratory applications. This lab-grade powder is characterized by its uniform particle size, high surface area, and minimal impurities, making it ideal for precise chemical reactions and analytical procedures. The LR (Laboratory Reagent) grade designation guarantees compliance with stringent quality standards, providing researchers with reliable and reproducible results. Its fine powder form allows for easy dispersion in solutions and mixtures, enhancing its utility in various experimental setups. The electrolytic production process ensures a higher degree of purity compared to conventional iron powders, reducing the risk of contamination in sensitive applications. This product is particularly valued in scenarios where iron’s catalytic properties or its role as a reducing agent are critical. The powder’s stability under normal storage conditions further extends its shelf life, maintaining its effectiveness over prolonged periods. Whether used in qualitative analysis, synthesis reactions, or as a standard reference material, this electrolytic iron powder delivers consistent performance that meets the exacting demands of modern laboratory work.
FAQs
1. What is the typical particle size range for this electrolytic iron powder?
The electrolytic iron powder LR generally features fine particles typically ranging between 1-10 microns, though exact specifications may vary slightly between batches. This particle size distribution contributes to its high reactivity and uniform dispersion in laboratory applications.
2. How does the electrolytic production method affect the powder’s properties?
The electrolytic process produces iron powder with significantly higher purity levels compared to mechanical grinding methods. This results in fewer impurities, more consistent particle morphology, and enhanced chemical reactivity, making it particularly suitable for sensitive analytical procedures.
3. Can this iron powder be used in high-temperature applications?
While primarily designed for room temperature laboratory use, this LR grade iron powder can withstand moderate heating. For applications involving sustained high temperatures above 200°C, specialized high-temperature grade iron powders would be more appropriate to prevent oxidation or structural changes.
4. What precautions should be taken when handling this powder?
As with all fine metal powders, proper handling includes using in a well-ventilated area, wearing appropriate PPE (gloves, goggles, and lab coat), and avoiding inhalation. The powder should be kept away from open flames or sparks due to its potential combustibility in dispersed form.
5. How does this compare to carbonyl iron powder in terms of purity?
Electrolytic iron powder typically offers comparable purity to carbonyl iron powder but with different particle characteristics. While carbonyl iron tends to have more spherical particles, electrolytic iron often features slightly higher surface area, which can be advantageous in certain catalytic applications.
