NICKEL CRUCIBLE: Masterfully crafted for exceptional resilience, this crucible embodies the strength and versatility of nickel, making it the preferred choice for demanding applications.
The primary application feature of nickel crucibles is their remarkable ability to resist corrosion and maintain thermal stability even in the harshest conditions. In environments characterized by high temperatures and potent alkalis, the crucible excels by providing:
Core Advantage Analysis: Unveiling the superior strengths of our nickel crucibles, a testament to cutting-edge metallurgy and innovative design.
1. Resistance to strong alkali corrosion (core characteristic): A hallmark feature that sets this crucible apart, ensuring longevity and reliability in challenging environments.
Unique advantage: Demonstrates unparalleled performance in alkaline mediums, particularly molten solutions like NaOH and KOH. It surpasses ordinary metal materials, including iron and stainless steel, establishing itself as the **ultimate container** for alkali fusion sample processing.
Application scenarios: Perfectly suited for chemical laboratories in tasks such as the pretreatment of samples, decomposition of rare earth oxides, and the sintering of lithium battery positive electrode materials. It thrives in high-temperature operations where robust alkali interaction is required.
2. High Temperature Stability (Critical Support): A vital feature that ensures operational stability even when faced with intense heat, fortifying the product's reliability.
Operating Temperature: It can endure temperatures up to 1200ºC with short bursts reaching as high as 1455ºC. This is complemented by excellent thermal conductivity and shock resistance, a comparative advantage over ceramic crucibles.
Applicable Processes: Ideal for processes like precious metal melting, single crystal growth, and high-temperature synthesis, particularly where rapid temperature changes occur, showcasing its adaptability and precision.
| Nickel CRUCIBLE SPECIFICATIONS |
| Product Name |
Nickel Crucible |
| Keywords |
Integrated Nickel Crucible |
| Material |
Nickel |
| Chemical Composition |
|
| Purity |
99.6% |
| Surface |
Bright Soft Surface |
| Thickness |
Customizable |
| Density |
8.95g/cm3 |
| Color |
Silver Gray |
| Melting Point |
1455 Degrees Celsius |
| Boiling Point |
2913 Degrees Celsius |
| Condition |
Vacuum Annealed |
| OEM |
Customizable |
| Size |
Customizable |
| Packaging |
According To Customer Needs |
| We support customization of Hafnium Plate of various specifications and uses |
UNMATCHED HIGH-TEMPERATURE RESILIENCE:
The quintessential nickel crucible is renowned for its remarkable corrosion resistance and unparalleled thermal stability. It shines in high-temperature, strong-alkali conditions, offering an exceptional performance characterized by:
In-Depth Benefit Exploration
1. Unyielding Resistance to Potent Alkali Corrosion (Key Attribute)
Distinctive Edge: Demonstrates superior performance in molten alkaline solutions such as NaOH and KOH, surpassing conventional metal materials like iron and stainless steel. It stands out as the **ideal vessel** for alkali fusion sample processing.
Versatile Applications: Perfect for chemical laboratory sample preparation, decomposition of rare earth oxides, and sintering of lithium battery cathode materials. It's indispensable in high-temperature scenarios necessitating strong alkali contact.
OUTSTANDING CHEMICAL DURABILITY:
Robust High-Temperature Endurance (Critical Feature)
Temperature Threshold: Capable of enduring sustained temperatures up to ≤ 1200ºC, with short bursts reaching as high as 1455ºC. Balances thermal conductivity with thermal shock resistance, setting it apart from ceramic crucibles.
Ideal for Processes: Appropriate for precious metal melting, single crystal growth, and high-temperature synthesis where rapid temperature fluctuations are essential.
EXCEPTIONAL DEFORMATION RESISTANCE:
Why is it the Most Distinctive Feature?
Irreplaceable Strength: While most metal crucibles like iron and aluminum succumb to corrosion under high-temperature, strong alkali exposure, ceramic crucibles, though resistant, lack thermal conductivity and risk cracking. Nickel crucibles provide a superior option in such demanding environments.
Market Demand Highlights: The escalating need for alkaline melting applications across metallurgy, chemical engineering, and new energy sectors (like rare earth purification and lithium battery material processing) positions nickel crucibles as indispensable in these fields.
SUPERIOR PROCESSING PERFORMANCE:
Nickel achieves an exceptional balance of hardness and ductility, facilitating the effortless formation into filaments or thin foils. This adaptability ensures tantalum crucibles are precisely crafted to meet diverse application specifications.
ENDURING REUSABILITY:
With diligent maintenance, nickel crucibles serve as a long-lasting, reusable partner, significantly cutting operational costs and enhancing economic efficiency.
Q1. How do you guarantee the quality of your products?
A1. All products will go through a rigorous testing process, and we can provide you with a quality test report if you need it.
Q2. Can I get a sample before placing an order?
A2. Of course! If it is a normal size and we have stock in our warehouse, we will provide samples for free.
Q3. Is the alloy corrosion-resistant?
A3. Yes. Their corrosion resistance makes the industry use them in extreme environments such as aerospace and chemical industries.
Q4. What is the minimum tolerance you can do?
A4. Customized according to international specifications or customer requirements.
Usually, the tolerance of machined parts is ±0.002mm
Q5. Are you a manufacturing supplier?
A5. Yes, we are a manufacturer.
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