Manganese Zinc Alloy Nanopowder

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Product Details:

Boiling point Varies with composition (approx 1382C)
Metal Type Ferromagnetic Alloy
Purity(%) 99%
Particle Size 50-100 nm
Grade Industrial grade
Usage & Applications Magnetic materials, electronic components, sensors, catalysts, MRI contrast agents, and advanced ceramics
Melting Point 1240C (approx)
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Manganese Zinc Alloy Nanopowder Price And Quantity

Manganese Zinc Alloy Nanopowder Product Specifications

Weight As per package requirement
Metal Type Ferromagnetic Alloy
Color Grey black
Product Type Nanopowder
Boiling point Varies with composition (approx 1382C)
Particle Size 50-100 nm
Grade Industrial grade
Size Nanoscale
Usage & Applications Magnetic materials, electronic components, sensors, catalysts, MRI contrast agents, and advanced ceramics
Density 5.05 Gram per cubic centimeter(g/cm3)
Purity(%) 99%
Chemical Composition Mn-Zn Alloy (Manganese-Zinc)
Material Manganese Zinc Alloy
Shape Spherical particles
Dimension (L*W*H) Custom/Not fixed (nanopowder form)
Melting Point 1240C (approx)

Manganese Zinc Alloy Nanopowder Trade Information

Payment Terms Paypal, Cash on Delivery (COD), Cash in Advance (CID), Cheque, Cash Advance (CA)
Supply Ability 50000 , Per Month
Delivery Time 7 Week
Main Export Market(s) Asia, Australia, Eastern Europe, Middle East, Central America, Africa, South America, Western Europe, North America
Main Domestic Market All India

Product Description

MF:	Mn:Zn
Chemical Name:	Manganese Zinc Alloy Nanopowder
Purity:	> 99.99%
APS:	<80 nm (Size Customization possible)
Form:	Nanopowder
Product Number:	NCZA124
CAS Number:	7439-96-5 / 7440-66-6

Size Options: also available in the micro size range and 325 Mesh, 200 Mesh, etc. (Ask for the customization)

Applications in Modern Technology

Manganese Zinc Alloy Nanopowder plays a fundamental role in diverse sectors such as magnetic materials, sensors, electronic components, catalysts, MRI contrast agents, and advanced ceramics. Its nanoscale size, high surface area, and ferromagnetic properties make it indispensable for applications demanding precision and high efficiency in both research and industrial environments.

Sophisticated Production Processes

The nanopowder is produced via advanced physical or chemical vapor deposition techniques, ensuring fine particle uniformity and precise control over morphology, density, and purity. These methods enable manufacturers to deliver a product that meets the rigorous standards required for high-technology applications, delivering stability and reliable performance under operational conditions.

FAQs of Manganese Zinc Alloy Nanopowder:

Q: How should Manganese Zinc Alloy Nanopowder be stored to maintain its stability?

A: The nanopowder should be stored in a cool, dry place, away from exposure to air and moisture to ensure stability. Use sealed high-density polyethylene bottles or bags provided by the manufacturer.

Q: What is the recommended process for handling and packaging this nanopowder?

A: Handling should involve minimizing exposure to strong oxidizers and moisture. The nanopowder is packaged in high-density polyethylene containers to preserve its reactivity and prevent contamination.

Q: Where is this nanopowder commonly used in industrial applications?

A: This material finds substantial use in manufacturing magnetic materials, electronic components, sensors, catalysts, MRI contrast agents, and advanced ceramics owing to its impressive magnetic and physical properties.

Q: When is Manganese Zinc Alloy Nanopowder preferred over other forms of manganese zinc?

A: It is preferred when nanoscale precision, high surface area, and enhanced magnetic permeability are required, such as in advanced electronic and sensor applications.

Q: What benefits does its high surface area offer in application?

A: A high surface area increases reactivity and efficiency, which is advantageous for catalytic functions, magnetic material fabrication, and in sensor technology for improved responsiveness.

Q: Is manganese zinc alloy nanopowder soluble in water, and what precautions should be taken?

A: No, the nanopowder is insoluble in water. When handling, avoid introducing moisture to maintain its physical properties and chemical stability.

Q: How does the production method affect the quality and uniformity of the nanopowder?

A: Advanced vapor deposition methods yield ultra-fine, uniform particles and high purity, ensuring consistent performance and reliability in demanding technological applications.

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