Hexagonal mesh grids - Nickel

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Product Details:

Structural Formula Ni
Molecular Weight 58.69 g/mol
Density 8.90 Gram per cubic centimeter(g/cm3)
Shape Hexagonal grid
Storage Store in dry, well-ventilated area
Boiling point 2913C
Melting Point 1455C
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Hexagonal mesh grids - Nickel Product Specifications

Smell Odorless
Purity 99.9%
Main Material Nickel
Other Names Nickel mesh, Ni mesh grid
Chemical Name Nickel
Molecular Formula Ni
Standard ASTM B162/B163
Form Mesh/grid
Solubility Insoluble in water, soluble in dilute acids
Taste Tasteless
Poisonous Yes
EINECS No 231-111-4
Shape Hexagonal grid
Boiling point 2913C
Storage Store in dry, well-ventilated area
Classification Transition Metal
Type Hexagonal mesh grid
Melting Point 1455C
Application Used for electron microscopy grids, filtration, industrial sieving, and battery electrodes
HS Code 75089090
Molecular Weight 58.69 g/mol
Structural Formula Ni
Grade High purity (99.9% Ni)
Usage Support structure in analytical applications and as a conductive mesh
Density 8.90 Gram per cubic centimeter(g/cm3)
CAS No 7440-02-0

Hexagonal mesh grids - Nickel Trade Information

Payment Terms Paypal, Telegraphic Transfer (T/T), Cash in Advance (CID), Cheque
Main Domestic Market All India

Product Description

Hexagonal mesh grids offer an alternative to the standard square mesh pattern, providing maximum support for any given mesh repeat distance. Each grid has a mark on the rim to allow precise orientation of the grid in the electron microscope.

Superior Nickel Mesh for Precision Applications

Engineered for reliability, our hexagonal nickel mesh grids feature high tensile strength and exceptional electrical conductivity. Their corrosion resistance is particularly suited for alkaline environments, making them a preferred choice in laboratories and industries. Customizable size and format enable seamless integration into electron microscopy, filtration systems, and battery designs. Each mesh meets stringent ASTM standards, ensuring consistency and durability in demanding settings.

Advanced Manufacturing Process

We utilize pure nickel wire, either woven or expanded, to produce grids with precise hexagonal openings. The process ensures uniformity and optimum strength across every sheet or roll. Polished or uncoated surfaces optimize conductivity and durability. With high melting (1455C) and boiling points (2913C), the mesh remains stable under rigorous conditions, maintaining a silvery, odorless, and tasteless profile that is safe for handling.

FAQs of Hexagonal mesh grids - Nickel:

Q: How are hexagonal nickel mesh grids manufactured?

A: These grids are produced by weaving or expanding pure nickel wire into precise hexagonal patterns. The process creates uniform openings and ensures high tensile strength for each mesh, following ASTM B162/B163 standards.

Q: What benefits does nickel provide for mesh grid applications?

A: Nickel offers excellent corrosion resistance, especially in alkaline environments, and high electrical conductivity. Its superior tensile strength and durability make it ideal for analytical and industrial processes requiring reliable support and performance.

Q: When should I use polished versus uncoated nickel mesh grids?

A: Polished grids improve electrical conductivity and reduce surface irregularities, making them ideal for sensitive analytical uses. Uncoated grids are suitable for applications where raw material properties are preferred, such as filtration in non-critical environments.

Q: Where are hexagonal nickel mesh grids commonly used?

A: These grids are widely used in electron microscopy as sample supports, in filtration systems for fine particles, as sieves in industrial processes, and as conductive elements in battery electrode assemblies.

Q: What customization options are available for nickel mesh grids?

A: You can customize the grid opening size (25500 microns), wire diameter (0.0250.2 mm), thickness (0.051 mm), width, and length. This enables adaptation to specific project or instrument requirements.

Q: How should nickel mesh grids be stored to maintain quality?

A: To preserve their properties, store the mesh grids in a dry, well-ventilated area. This protects them from moisture and potential contaminants, maintaining their structural integrity and surface quality over time.

Q: What is the process for using nickel mesh grids in electron microscopy?

A: In electron microscopy, the grids serve as substrates to support specimens. Their hexagonal openings and conductive properties facilitate clear imaging and minimize interference, making them essential for high-resolution analytical applications.

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