Iron Boride sputtering targets are high-purity iron boride ceramic sputtering targets, a core material for preparing high-performance hard, wear-resistant thin films and functional coatings using physical vapor deposition (PVD) technology.
We offer a variety of high-purity iron boride targets, supporting customization to your equipment and process requirements. We also provide professional backplate bonding services for brittle ceramic targets. Contact us now for solutions.
Extremely high purity, precise composition
Dense structure, uniform grains
Low magnetic permeability, high sputtering efficiency
Outstanding hardness, wear and corrosion resistance
Complete range of specifications, customization supported
Superhard Wear-Resistant Coatings: Used for surface coating of cutting tools, molds, and precision components, significantly improving their hardness, wear resistance, and service life, resisting harsh working conditions.
Surface Protection and Modification: Depositing protective films on critical aerospace and automotive components, providing excellent corrosion resistance and oxidation barriers, enhancing material stability.
Functional Thin Film Preparation: Serving scientific research and cutting-edge industries, this application prepares functional thin films with special electromagnetic properties or catalytic activities to meet the exploration needs of fields such as new energy and semiconductors.
Tool and Decorative Coating: Applied to the surface treatment of high-end decorative parts and wear-resistant tools, it imparts a luxurious appearance while ensuring extremely high surface durability and scratch resistance.
Q1: Iron boride is a ceramic target material. What special precautions should be taken when using it?
A1: Yes. Ceramic targets generally have poor thermal conductivity and are brittle. Therefore, we strongly recommend using it in conjunction with an oxygen-free copper backing plate to optimize heat dissipation, prevent cracking, and strictly control the sputtering power to avoid target cracking or failure due to localized overheating.
Q2: Why is it emphasized that this target material has “low magnetic permeability”?
A2: Low magnetic permeability is key to ensuring the efficient and stable operation of magnetron sputtering processes.
Q3: What exactly does “target material in conjunction with a backing plate” mean?
A3: Backing plate bonding refers to using high-purity solder (such as indium) to firmly bond the brittle ceramic target blank to a high thermal conductivity metal backing plate (usually oxygen-free copper) into a single unit.
Q4: How to store and maintain unused targets?
A4: It is recommended to store targets in a dry, clean inert gas environment or in a vacuum bag to prevent surface oxidation or moisture absorption.
Each batch is supplied with:
Certificate of Analysis (COA)
Technical Data Sheet (TDS)
Material Safety Data Sheet (MSDS)
Size Inspection Report
Third-party testing reports available upon request
We focus on the research and development and production of high-performance ceramic sputtering targets, deeply understanding the core requirements of advanced materials such as iron boride in demanding applications. From precise component ratios and advanced molding and sintering processes to rigorous backing plate bonding and full-process quality inspection, we ensure that every target possesses excellent reliability and consistency.
Molecular Formula: FeB
Molecular Weight: 67.84 g/mol
Appearance: Grayish-black target
Density: 6.76 g/cm³
Melting Point: 2100 °C
Crystal Structure: Orthorhombic
Inner Packaging: Vacuum-sealed bags and boxed to prevent contamination and moisture.
Outer Packaging: Cartons or wooden crates selected based on size and weight.
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