Witness the remarkable journey of tantalum particles, as they boldly venture into cutting-edge technological arenas. Their unparalleled utility shines brightest in environments demanding exceptional resilience, whether confronting extreme temperatures, relentless corrosion, or requiring impeccable precision.
As tantalum particles make their way into the forefront of emerging technology fields, they showcase an unparalleled utility in settings that demand the highest standards of performance. These fields include operations characterized by extreme heat, severe corrosion, and the need for exacting precision.
| TANTALUM GRANULES SPECIFICATIONS |
| Product Name |
TantalumParticles |
| Keywords |
Tantalum Metal Particles |
| Material |
Tantalum |
| Shape |
Particle |
| Chemical Composition |
Tantalum |
| Purity |
99.95% |
| Size |
Customized |
| Surface |
Polished |
| Color |
Metal Grey |
| Standard |
ASTM |
| Density |
16.68g/cm3 |
| Package |
Custom Made |
| Melting Point |
3017Celsius |
| Boiling Point |
5458 Celsius |
| Poisson's Ratio |
0.34 |
| We support customization of Tantalum Plate of various specifications and uses |
1. ELECTRONICS AND SEMICONDUCTOR INDUSTRY
Thin Film Deposition
Physical Vapor Deposition (PVD): A vital technique for crafting high-purity tantalum films, this process is essential in forming a barrier layer that protects semiconductor copper interconnections, effectively preventing copper diffusion.
Electron Beam Evaporation (E-beam Evaporation): A critical process for achieving a uniform tantalum film deposition on wafer surfaces, making it indispensable for the intricate world of chip manufacturing.
Capacitor Manufacturing
Utilizing tantalum powder with a high specific surface area, tantalum electrolytic capacitors are crafted to deliver both compact size and large capacity. These capacitors are integral in a wide array of applications, from mobile devices to computers and automotive electronics.
Sputtering Target Material
The transformation of tantalum particles into sintered target materials is pivotal for magnetron sputtering coating. This technique is instrumental in the fabrication of integrated circuits and the production of sophisticated display films.
Q1. How can we ensure the quality of the product?
A1.All products will go through a strict testing process, if you need, we can provide you with a quality testing report.
Q2.Can I get a sample before I place an order?
A2.Of course! If it is a normal size and we have stock in the warehouse, we will supply a sample free of charge.
Q3. What property makes hafnium ideal for high-temperature applications?
A3. Its high melting point makes it ideal for such applications. It actually can withstand up to 2200°C without losing strength.
Q4. Are hafnium alloys corrosion-resistant?
A4. Yes. Their corrosion-resistant properties have made people in the industry use them in extreme environments like aerospace and chemical industries.
Q5. What is the impact of hafnium on the semiconductor industry?
A5. The addition of hafnium in thin films is a game changer. It enhances the dielectric constant hence improving the performance of advanced semiconductor devices.
Q6. How does hafnium compare with tungsten in aerospace?
A6. Both metals have a sturdy build, making them ideal for high-stress applications. However, a combination of tungsten and hafnium creates resistive ignition for better efficacy.
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