Our N4/Ni201 and N6/Ni200 nickel wires, with purities of 99.9% and 99.6% respectively, are engineered to tackle the toughest industrial challenges. These high-purity nickel alloys are built for high-temperature environments, offering exceptional corrosion resistance, electrical conductivity, and mechanical strength. Whether you’re working on chemical processing equipment, aerospace components, or battery electrodes, our nickel wires deliver top-notch performance. Let’s dive into what makes these wires special, explore their applications, analyze industry trends, and highlight why our company is the best choice for your high-temperature industrial needs.
Our N4/Ni201 and N6/Ni200 nickel wires are high-purity alloys designed for demanding industrial applications. N4/Ni201, with a minimum 99.9% nickel content and ultra-low carbon (≤0.02%), excels in extreme temperatures up to 1230°C and highly corrosive environments like caustic alkalis and seawater. N6/Ni200, with 99.6% purity and ≤0.15% carbon, offers outstanding electrical conductivity, making it ideal for electrodes and electrical components in moderate-temperature settings up to 315°C. Both wires are available in diameters from 0.025mm to 8mm (N4/Ni201) or 5mm (N6/Ni200) and in forms like wire, strip, or mesh, customizable to your project’s needs.
What sets our nickel wires apart is their ability to perform under pressure. N4/Ni201’s superior thermal stability and corrosion resistance make it a go-to for chemical processing and aerospace, while N6/Ni200’s high conductivity shines in battery manufacturing and electronics. Both offer excellent weldability and mechanical strength, making them easy to work with in complex designs. From high-purity filters to EV battery connectors, our wires deliver reliability you can count on.
| Grade | Nickel (Ni)+ Cobalt (Co) | Copper (Cu) | Silicon (Si) | Manganese (Mn) | Carbon (C) | Magnesium (Mg) | Sulfur (S) | Phosphorus (P) | Iron (Fe) |
| 99.9% | ≤0.015 | ≤0.03 | ≤0.002 | ≤0.01 | ≤0.01 | ≤0.001 | ≤0.001 | ≤0.04 | |
| 99.6% | 0.1 | 0.1 | 0.05 | 0.1 | 0.1 | 0.005 | 0.002 | 0.1 |
Physical & Mechanical Properties
| Grades | N4/Ni201 | N6/Ni200 |
| Density | 8.9g/cm³ | 8.9g/cm³ |
| Melting Point | 1455°C | 1445-1470℃ |
| Coefficient of Thermal Expansion | 13.0µm/m·°C | 13.3×10⁻⁶/℃ |
| Thermal Conductivity | 10.1W/m·K | 90.7 W/m·K |
| Electrical Resistivity | 0.103×10⁻⁶Ω·/m (at 20℃) | |
| Electrical Conductivity | 14.6% IACS | |
| Tensile Strength | ≥450MPa | ≥450 MPa |
| Yield Strength | ≥200MPa | ≥150 MPa |
| Elongation at Break | ≥40% | ≥40% |
| Hardness | ≤150 |
The high-purity nickel wire market is thriving, driven by demand in chemical processing, electronics, aerospace, and renewable energy. Recent data values the global nickel wire market at USD 1.2 billion in 2024, with projections to reach USD 2.5 billion by 2033, growing at a CAGR of 9.1%. The high-purity segment (99.6%–99.9%), where our N4/Ni201 and N6/Ni200 wires sit, accounted for 50% of demand in 2023, fueled by applications in batteries and high-temperature industrial systems. The Asia Pacific region leads with a 45% market share, driven by manufacturing hubs and growing energy sectors.
Key trends include the rise of electric vehicles (EVs) and renewable energy, which are boosting demand for conductive and corrosion-resistant materials. The EV battery market is expected to grow at a CAGR of 22% through 2030, increasing the need for wires like N6/Ni200 for electrodes and connectors. In aerospace, the push for lightweight, durable materials is driving demand for N4/Ni201 in high-temperature components. Challenges like volatile nickel prices and strict quality standards persist, but our company stays ahead with a robust supply chain and ISO 9001 certification, ensuring consistent quality and availability.
Emerging opportunities lie in green technologies like hydrogen production, where our wires support electrolytic systems, and in advanced electronics, where high conductivity is critical. As industries prioritize sustainability and performance, our N4/Ni201 and N6/Ni200 wires are well-positioned to meet these evolving needs.
Applications of N4/Ni201 and N6/Ni200 Nickel Wires
Our N4/Ni201 and N6/Ni200 nickel wires are versatile materials that excel in a range of high-temperature and corrosive environments. Here’s where they make the biggest impact:
Chemical Processing: N4/Ni201’s resistance to caustic alkalis and chlorine makes it ideal for filters and reactors in chemical plants, while N6/Ni200 supports electrolytic systems.
Battery Manufacturing: N6/Ni200’s high conductivity is perfect for electrodes and connectors in lithium-ion and nickel-based batteries for EVs and energy storage.
Aerospace: N4/Ni201’s thermal stability up to 1230°C suits high-temperature components like turbine parts and sensors, while N6/Ni200 supports wiring in moderate-temperature systems.
Electronics: Both wires are used in heating elements, resistors, and connectors, with N6/Ni200 excelling in high-conductivity applications and N4/Ni201 in corrosion-prone settings.
Marine Engineering: N4/Ni201’s seawater resistance makes it ideal for marine hardware and offshore equipment like desalination systems. Ascending...
Renewable Energy: Both wires are used in green hydrogen production and energy storage systems, where conductivity and corrosion resistance are key.
This versatility ensures our nickel wires meet the needs of industries pushing the boundaries of technology and durability.
Comparison Parameters Table
Parameter | N4/Ni201 Nickel Wire | N6/Ni200 Nickel Wire | Other Nickel Alloys |
|---|---|---|---|
Purity | ≥99.9% | ≥99.6% | ≥99.0%–99.5% |
Carbon Content | ≤0.02% (low, prevents embrittlement) | ≤0.15% | ≤0.25% (higher risk of embrittlement) |
Corrosion Resistance | Excellent (alkalis, chlorine, seawater) | Excellent (alkalis, neutral salts) | Moderate (less effective in harsh conditions) |
Temperature Resistance | Up to 1230°C | Up to 315°C | Varies, often lower (~200°C–300°C) |
Electrical Conductivity | High (ideal for electronics) | Very high (ideal for electrodes) | Moderate |
Mechanical Strength | Strong, suitable for forming and welding | Good, suitable for forming and welding | Varies, often less durable |
Applications | Chemical processing, aerospace, filters | Electrodes, batteries, electronics | General industrial, less specialized |
Customization Range | 0.025mm–8mm, wire/strip/mesh | 0.025mm–5mm, wire/strip/mesh | 0.05mm–3mm, limited forms |
In the high-purity nickel wire market, our company stands out as a leader. Our N4/Ni201 and N6/Ni200 wires, with purities of 99.9% and 99.6%, outperform many alternatives that typically range from 99.0% to 99.5%. The higher purity of N4/Ni201 ensures superior corrosion resistance and thermal stability, while N6/Ni200’s conductivity is unmatched for electrical applications. Unlike others, our low-carbon N4/Ni201 avoids embrittlement at high temperatures, and N6/Ni200 offers consistent performance in demanding environments.
Our manufacturing process is a key differentiator. Using advanced refining, drawing, and heat-treatment techniques, we produce wires with consistent properties and exceptional reliability. While others may offer limited customization, we provide a wide range of diameters (0.025mm to 8mm for N4/Ni201, 0.025mm to 5mm for N6/Ni200) and forms like wire, strip, or mesh, tailored to your specifications. Our ISO 9001 certification and rigorous quality control ensure every batch meets the highest standards.
Our supply chain is built for reliability. With a global network and years of experience, we deliver on time, even for large or custom orders, while many in the industry face disruptions. Our customer support team offers technical guidance and quick responses, helping you integrate our wires seamlessly. We also provide flexible pricing and handle orders of all sizes, from small prototypes to large-scale production, making us a trusted partner for any project.
Why Choose Our N4/Ni201 and N6/Ni200 Nickel Wires?
Our N4/Ni201 and N6/Ni200 nickel wires are designed to excel in high-temperature industrial applications. Their high purity delivers top-tier performance, while their versatility makes them a fit for everything from chemical filters to battery electrodes. Here’s why they’re the smart choice:
Superior Corrosion Resistance: N4/Ni201 thrives in harsh chemical and marine environments.
High Conductivity: N6/Ni200 is ideal for electrodes and electrical components.
Thermal Stability: N4/Ni201 handles up to 1230°C, N6/Ni200 up to 315°C.
Customizable Options: Available in various diameters and forms to suit your needs.
Reliable Supply: Backed by ISO 9001 standards and timely delivery.
Looking to the Future
The future is bright for our N4/Ni201 and N6/Ni200 nickel wires. With EVs, renewable energy, and aerospace advancing rapidly, demand for high-purity, high-performance materials is set to grow. We’re committed to staying ahead, investing in R&D to enhance our wires’ capabilities and exploring new applications in green hydrogen, advanced electronics, and more. As industries prioritize efficiency and sustainability, our wires are ready to meet the challenges of tomorrow.
Our N4/Ni201 and N6/Ni200 nickel wires aren’t just products—they’re solutions for industries driving innovation. Whether you’re building high-temperature aerospace components, efficient battery systems, or durable chemical filters, our wires deliver the performance and reliability you need. Contact us today to see how we can support your next project with materials built to last.
About Us:
Our 12,000㎡ factory is equipped with complete capabilities for research, production, testing, and packaging. We strictly adhere to ISO 9001 standards in our production processes, with an annual output of 1,200 tons. This ensures that we meet both quantity and quality demands. Furthermore, all products undergo rigorous simulated environment testing including high temperature, high pressure, and corrosion tests before being dispatched, ensuring they meet customer specifications.
For all our clients, we offer timely and multilingual after-sales support and technical consulting, helping you resolve any issues swiftly and efficiently.
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FAQs:
What are N4/Ni201 and N6/Ni200 nickel wires?
N4/Ni201 is a 99.9% pure nickel wire with low carbon content, and N6/Ni200 is a 99.6% pure nickel wire, both offering excellent corrosion resistance and conductivity for industrial applications.What are the primary applications of N4/Ni201 and N6/Ni200 nickel wires?
They’re used in high-temperature industrial applications, including chemical processing, electronics, aerospace, and battery manufacturing for components like filters, electrodes, and heating elements.Why are N4/Ni201 and N6/Ni200 suitable for high-temperature environments?
N4/Ni201 withstands temperatures up to 1230°C, while N6/Ni200 is reliable up to 315°C, ensuring stability in demanding industrial settings.How do these wires perform in corrosive environments?
Both offer excellent resistance to alkalis, neutral salts, and seawater, with N4/Ni201 excelling in harsher chemical conditions due to its higher purity.What are the key properties of N4/Ni201 and N6/Ni200 nickel wires?
High corrosion resistance, excellent electrical and thermal conductivity, good weldability, and strong mechanical properties for versatile industrial use.Which industries benefit from these nickel wires?
Chemical processing, electronics, aerospace, marine engineering, and renewable energy sectors rely on their durability and performance.How does the purity level impact their performance?
N4/Ni201’s 99.9% purity enhances corrosion resistance and thermal stability, while N6/Ni200’s 99.6% purity optimizes conductivity for electrodes and electrical components.Can N4/Ni201 and N6/Ni200 nickel wires be customized?
Yes, they’re available in diameters from 0.025mm to 8mm (N4/Ni201) and 0.025mm to 5mm (N6/Ni200), in forms like wire, strip, or mesh, tailored to project needs.
