TPCEB200-06 Low-Energy Self-Shielded Electron Beam System
1.Product Overview – TPCEB200-06 Low-Energy Self-Shielded Electron Beam System
The TPCEB200-06 Low-Energy Electron Beam System offers the following technical specifications:
Electron Beam Energy: 110–200 keV
Beam Current Options: 0–150 mA / 200 mA / 300 mA
Surface Dose Non-Uniformity: ≤ 5% (measured at 25 mm from window foil)
Production Line Length: 6.0 m / 8.8 m
Line Speed: 0–30 m/min
2. Key Advantages of the TPCEB200-06 Electron Beam System
(1) Ease of Use
The system features a modular design with a compact footprint, enabling easy on-site installation, simplified operation, and reduced downtime.
(2) Performance Advantages
With high beam current output, low energy consumption, excellent dose uniformity, and high duty cycle, the TPCEB200-06 delivers reliable and cost-effective EB curing performance for continuous industrial production.
3. Application Fields
The TPCEB200-06 low-energy electron beam curing system is widely used for:
Curing of wood flooring coatings
Decorative panels and furniture boards
Kitchen and bathroom boards
By combining precise dose control, high efficiency, and stable operation, the TPCEB200-06 is a reliable electron beam curing solution for manufacturers seeking improved product quality and sustainable production.
Key Technical Parameters for Electron Beam Equipment Selection
When selecting electron beam curing or irradiation equipment, several critical parameters must be evaluated to ensure optimal performance and product quality:
(1) Electron Beam Energy
Electron energy determines the penetration depth of the electron beam and is defined by the mass thickness of the processed material. Proper energy selection ensures complete curing without damaging substrates.
(2) Beam Current
Beam current indicates the number of electrons delivered per unit time. It directly affects irradiation dose and processing speed, making it a key factor for high-throughput production lines.
(3) Irradiation Dose
The irradiation dose represents the absorbed radiation energy (J/kg). It is closely related to material properties, coating formulations, and curing requirements, and directly influences final product performance.
(4) Irradiation Width
Irradiation width refers to the effective electron beam width, which should match the width of the processed material to ensure uniform treatment.
(5) Dose Uniformity
Dose uniformity reflects the consistency and stability of irradiation. High uniformity is essential for achieving consistent curing quality and is a direct indicator of electron beam system performance.
(6) Processing Efficiency and Product Quality
Overall efficiency and final product quality depend on a combination of electron beam system capability and coating or ink formulation, ensuring high performance with low energy consumption.
