Key Features of Silicon Carbide Heater
- Offers excellent oxidation and corrosion resistance in harsh environments.
- Provides rapid heating and cooling for efficient thermal cycling.
- Maintains stable resistance throughout its service life.
- Suitable for both oxidizing and reducing atmospheres.
- Available in various shapes and sizes for customized applications.
Precision Heating Solutions with Silicon Carbide
Silicon carbide heaters are high-performance heating elements known for their rapid heating, excellent thermal conductivity, and durability at high temperatures. Resistant to oxidation and corrosion, they are widely used in kilns, glass production, metallurgy, semiconductors, electronics, and chemical processing. With customizable shapes and consistent resistance, silicon carbide heaters ensure precise temperature control, reduce downtime, save energy, and help customers achieve stable, cost-effective thermal processing in the most demanding environments.
High-Precision Silicon Carbide Heaters for Semiconductor Manufacturing
Our silicon carbide heaters provide precise, stable, and energy-efficient heating for semiconductor, industrial, and laboratory environments.
Delivers precise and uniform heating for semiconductor wafer processing and thin film deposition.
Supports high-purity, high-temperature wafer processing with outstanding thermal stability and chemical resistance.
Ensures consistent surface heating critical for wafer annealing, oxidation, and deposition processes.
Designed for exceptional thermal stability and efficient heating in high-temperature industrial environments.
Advanced Silicon Carbide Heater for High-Temperature Applications
Silicon carbide heating elements and heating element rods are trusted across semiconductor, glass, metal, ceramics, and laboratory industries, providing precise, stable, and energy-efficient heating for critical high-temperature processes.
Semiconductor Wafer ProcessingSilicon carbide heaters provide precise and stable high-temperature environments essential for wafer annealing, oxidation, and thin film deposition.
Glass Manufacturing and FormingSilicon carbide heating elements deliver uniform, high-efficiency heating for glass melting, bending, and thermal forming processes.
Ceramics Firing and SinteringSilicon carbide elements enable consistent and rapid heating required for ceramic material sintering, firing, and glazing.
Laboratory High-Temperature FurnacesSilicon carbide heating elements are widely used in lab furnaces, offering excellent thermal stability and long service life for research and testing.
Why Choose Newthink Silicon Carbide Heater?
Choosing Newthink means choosing stable quality, for we deliver exactly what you need.
To meet your large order demands and ensure steady delivery times for silicon carbide heating elements.
We collaborate with leading institutes to provide expert guidance in material selection, product design, and thermal performance optimization.
Our silicon carbide heaters meet extreme dimensional requirements—flatness up to 0.0005 mm—to ensure thermal uniformity and precise system integration.
We provide design-to-delivery support for specialized heater geometries, helping R&D and engineering teams achieve unique application specifications.
ISO9001-certified production and shipments to 40+ countries guarantee consistent quality and trusted performance across industries.
Engineered for rapid thermal response and lower energy consumption, our silicon carbide heaters help customers optimize process efficiency and reduce operational costs.
Silicon Carbide Heater Workshop
Newthink has 14 years of experience in advanced ceramic production. At our Ceramic Heater workshop, industry-leading equipment for cutting, forming, and surface finishing enables the precision manufacturing of silicon carbide heaters. Every process stage, from raw material inspection to final performance testing, is strictly monitored to ensure stable quality and reliable delivery.
Heating Solutions for Industrial and Semiconductor Applications with Silicon Carbide Heater
Using SiC heaters brings significant economic advantages to customers by reducing energy consumption, extending equipment lifespan, minimizing maintenance downtime, and improving production efficiency. Their stable high-temperature performance and customizable designs help lower operational costs, increase throughput, and achieve a lower total cost of ownership across a wide range of industrial and semiconductor applications.
Meet Us at Exhibitions and Factory Visits
Newthink actively participates in major industrial and advanced ceramics exhibitions worldwide throughout the year, such as TECNA in Italy, CERAMITEC in Germany and Vietnam, Highly-functional Ceramic Expo in Japan, meeting directly with our customers.
Our doors are always open—you’re warmly invited to visit our factory, witnessing firsthand our dedication to quality. Through frequent interactions and strong relationships built at these global events and visits, we’ve earned deep trust from clients in over 40 countries and regions.
Common Silicon Carbide Heater Shapes
The types of silicon carbide heaters listed below are commonly used in industrial furnaces and the semiconductor industry.
- Data Sheet
| Shape Type | Description |
| Straight Rod (SC Type) | A simple straight rod used for general heating applications. |
| Dumbbell Type (GC Type) | Thicker ends and a thinner middle section, designed for higher mechanical strength. |
| U-shaped | Two heating rods connected at the cold ends, ideal for furnaces requiring dual-end support. |
| W-shaped | Three rods connected into a W-shape, increasing the heating area and uniformity. |
| Spiral Type | A helical heating element for compact spaces or localized high-intensity heating. |
| Gun Type | One end heated and one end cooled, used for concentrated heating applications. |
| H-shaped | Two rods bridged together in an H structure for enhanced mechanical stability. |
| M-shaped | A structure similar to a double-W, designed for special uniform heating requirements. |
| L-shaped | A straight rod with a lateral extension, used for specific furnace designs. |
| Ring Type | A circular heating element ideal for uniform heating in round furnace zones or wafer processes. |
| Disc Type | A flat disc-shaped heater used for substrate heating and small-area thermal processes. |
| Multi-Leg Type (3-leg, 4-leg) | Multiple legs increase heating uniformity and mechanical support. |
| Customized Shapes | Special shapes based on customer drawings, such as grooved or nested structures. |
| Barrel-Type Susceptor Heater | Barrel-shaped heater commonly used in epitaxy reactors. |
| Pancake Heater | Flat pancake-shaped heater suitable for CVD and MOCVD applications. |
| Single-Wafer Susceptor Heater | Specialized heater designed to heat individual semiconductor wafers. |
| Tube Heater | Tubular-shaped element ideal for atmosphere furnaces and tubular furnaces. |
Related Products
Sic-Coated Wafer Carrier TrayProvides secure and stable support for wafers during high-temperature processes like RTA, PVD, and CVD.
Heat ExchangerThe furnace is equipped with heat conduction and heat dissipation devices to maintain a constant temperature.
Made by chemical vapor deposition, this susceptor delivers ultra-clean surfaces and consistent performance for semiconductor heating systems.
SiC Wafer BoatDesigned for batch wafer processing with high-temperature and oxidation resistance in LPCVD and diffusion applications.
Operating temperature, atmosphere quality, power loading, installation quality, and maintenance process are some of the most important ones. Following guidelines can maximize the life of silicon carbide heaters.
Installed and operated under standard conditions, silicon carbide heaters may run for years, with much less maintenance cost compared to conventional heating elements.
Yes, silicon carbide heating elements are stable in air, inert gases like nitrogen or argon, and certain vacuum applications and offer greater versatility for a wide range of industrial processes.
They certainly are. Silicon carbide heaters are available in standard geometries (e.g., rod, dumbbell, U-shaped, spiral) and can also be made to order according to exact furnace size, power level, and process needs.
