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ATOMFAIR® VO386 industrial 3-chamber vacuum oven featuring independent vertical compartments and warning safety labels.

3-Chamber Vacuum Oven 150°C Lithium Battery ATOMFAIR®

$15,566.00

Institutional Procurement & Supply Compliance: As a verified US supplier, Atomfair accepts formal institutional Purchase Orders (POs), contract billing schedules, and custom procurement loops for university and national laboratories, and corporate R&D departments globally.

Atomfair VO386 three independent chamber vacuum oven for battery baking. SUS304 steel, 150°C ±3°C, fluctuation ±1°C, vacuum retention 95% in 24h. Order now.

SKU: AFMSLDXM470
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Description

ATOMFAIR® ATOMFAIR-VO386 THREE-LAYER VACUUM OVEN

RESEARCH GRADE MATERIAL

Product Overview
The ATOMFAIR® Atomfair-VO386 Vacuum Oven is an elite, industrial-grade thermal platform purpose-built for the advanced manufacturing and pilot-scale development of energy storage devices. Functioning as a high-efficiency three-layer baking system, this multi-tier infrastructure is meticulously optimized for precision electrode sheet drying and vacuum-enclosed battery cell conditioning. The advanced engineering design integrates absolute independent chamber control across each separate shelf level, allowing distinct thermal profiles, vacuum drawdowns, and inert gas filling sequences to cycle concurrently via a centralized PLC network. Built with heavy-duty materials and active forced-air kinematics, it achieves top-tier sealing and spatial uniformity for elite clean energy R&D laboratories.

Technical Specifications
PARAMETER DETAILS
Product Model Atomfair-VO386
Chassis Layer Configuration 3-Layer Independent Working Cavities
Temperature Range Ambient Temperature ~ 150 °C Nominal Boundary
Temperature Uniformity ± 3 °C Maximum Spatial Variance Limit
Temperature Fluctuation ± 1 °C Transient Control Precision
Heating Method Forced Hot Air Circulation Heating Topology
Transient Heating Rate Room Temperature to 80 °C in < 20 min (No-Load Metric)
Vacuum Pressure Retention ≥ 95% Rate over a 24-Hour Period at -0.1 MPa Ultimate Depth
Internal Shell Metallurgy SUS304 Advanced Rigid Stainless Steel
Outer Body Architecture Heavy-Duty Cold-Rolled Steel Plate with Electrostatic Powder Coating
Automation & Interface Integrated Programmable Logic Controller (PLC) with Digital HMI Touch Screen
Electrical Supply Demand Three-Phase AC 380V, 8 kW Operational Load
Pneumatic Air Supply 0.5 – 0.8 MPa Clean Compressed Air Input Range
Hardware Protective Links Dual-Stage Thermal Cut-Off Security | Active Fan Overheat Circuitry
Alternative Options Explore our related catalog or custom dimensions. For urgent technical custom requests or bulk inquiries, please contact our support team.

Key Features & Advantages
  • Three-Tier Multi-Phase Processing: Engineered with a three-layer separate temperature matrix, allowing operators to run completely different conditioning timelines on each shelf simultaneously.
  • Automated Cycle Sequencing: High-performance PLC system automates the transitions between electrical hot-air heating, deep vacuum drawdowns, and nitrogen or inert gas backfilling.
  • Rigid Structural Sealing Guard: Employs an integrated single-frame alignment design to minimize stress fractures, securing a stable 24-hour pressure retention rate of ≥ 95%.
  • Advanced Dual-Stage Safeties: Incorporates standalone hardware cut-offs alongside internal fan overheating monitors to prevent sample degradation from unintended over-pressure states.

APPLICATION SCOPE: Crafted specifically for the vacuum baking of advanced pouch cell anodes, drying raw lithium composite sheets, and tempering completed electrode configurations under clean energy laboratory specifications.
PACKAGING: Securely packed inside an industrial-grade export wood frame enclosure, fully cushioned with custom-molded high-density thermal and vibration isolation elements to safeguard the PLC touch interface.
IMPORTANT NOTICE: Verify that the compressed air input remains consistently within the 0.5 – 0.8 MPa limit to operate the automated gas valves smoothly. Never bypass the electronic dual-stage over-temperature protections during long continuous runs.
TAILORED SOLUTIONS FOR RESEARCH
Contact our engineering team for technical support or official quotations.
EMAIL: inquiry@atomfair.com
Manufacturer: Atomfair LLC
Brand: ATOMFAIR®

The oven operates with a three-phase 380V supply and requires a regulated compressed air source between 0.5 and 0.8 MPa. Its vacuum retention performance depends on maintaining seal integrity and proper door closure to achieve ≥95% pressure retention over 24 hours at -0.1 MPa.

  • Electrical Safety Constraint: The three-phase 380V supply must be properly grounded and the dual-stage over-temperature protection must remain active during all heating operations.
  • Thermal Management Constraint: Forced air circulation pathways must be unobstructed to prevent fan overheat protection from triggering an automatic shutdown.
  • Vacuum Retention Constraint: All chamber seals and doors must be free of damage and closed securely to sustain a vacuum level of -0.1 MPa with a 24-hour retention rate of at least 95%.
  • Compressed Air Quality Constraint: The compressed air supply must be dry and pressure-regulated to 0.5–0.8 MPa to ensure reliable pneumatic valve actuation.
  • Installation Environment Constraint: The oven must be placed in a well-ventilated area with ambient temperature within the specified range to avoid overheating the control system.

The oven uses independent three-chamber control with an automatic cycle for heating, vacuum pumping, and gas filling. Proper initialization ensures safe and reliable baking of lithium battery electrodes and cells.

Required Equipment: Compressed air supply (0.5–0.8 MPa), Touch screen control panel, Custom material rack

  1. Inspect Chambers
    Inspect each chamber for cleanliness and ensure no debris or moisture is present before loading samples.
  2. Connect Air Supply
    Connect the regulated compressed air line to the oven inlet and confirm pressure is within 0.5–0.8 MPa.
  3. Set Parameters
    Set the desired temperature, heating time, vacuum duration, and gas fill parameters for each chamber via the touch screen interface.
  4. Load Samples
    Load electrode sheets or battery cells onto the material rack and place the rack into the appropriate chamber.
  5. Seal Chambers
    Close each chamber door firmly to create a vacuum-tight seal before starting the cycle.
  6. Start Automatic Cycle
    Initiate the automatic cycle on the touch screen to begin sequential heating, vacuum pumping, and gas filling.
  7. Cool and Vent
    Allow the chambers to cool naturally after cycle completion, then slowly vent the vacuum before opening the doors.

How does the independent three-chamber design of the Atomfair-VO386 impact temperature uniformity and heating rate compared to a single-chamber vacuum oven?

The three-chamber design achieves temperature uniformity of ±3°C and fluctuation of ±1°C per chamber independently, with a heating rate from ambient to 80°C in under 20 minutes under no-load. Each chamber operates with its own heating, vacuum, and gas filling cycle, enabling different baking profiles simultaneously. This trades individual chamber volume for process flexibility and isolation without degrading thermal performance.

Which lithium battery electrode and cell configurations can be baked in the Atomfair-VO386 vacuum oven without process contamination?

The three independent chambers with separate heating, vacuum, and gas filling cycles allow simultaneous baking of different electrode sheets or cell formats without cross-contamination. The SUS304 stainless steel inner chambers support a range of battery chemistries, and custom material racks are available for specific geometries. The temperature range from ambient to 150°C covers standard drying profiles for electrodes and assembled cells.

What power and compressed air infrastructure is required for the Atomfair-VO386 vacuum oven, and what safety protections are included?

The oven requires a three-phase 380V, 8KW power supply and a compressed air source at 0.5–0.8 MPa. Safety protections include dual-stage over-temperature protection with automatic power cut-off and fan overheat protection. The PLC-controlled automatic cycling manages heating, vacuum, and gas filling sequencing to minimize operator intervention and risk.

This three-chamber vacuum oven provides independent temperature control per chamber, enabling simultaneous processing of different battery electrode baking profiles, with high vacuum retention ensuring consistent drying over extended cycles.

Positive

  • Independent three-chamber control: Each chamber operates with its own heating, vacuum, and gas-filling cycle, allowing different baking processes to run concurrently for improved throughput and process flexibility.
  • High vacuum retention: At -0.1MPa, the oven maintains ≥95% pressure retention over 24 hours, ensuring stable vacuum conditions critical for moisture-sensitive electrode and cell drying.

Trade-offs

  • Limited maximum temperature: The maximum operating temperature of 150°C restricts use for processes requiring higher thermal exposure, such as certain binder curing or solvent removal steps above this threshold.
  • Requires compressed air supply: The oven needs an external compressed air source at 0.5–0.8 MPa for pneumatic controls or gas filling, adding infrastructure requirements and potential supply consistency demands.

Every advanced material, component, equipment, and instrument in our catalog is backed by rigorous testing. We maintain strict internal quality management frameworks and align with CE conformity metrics to deliver transparent, reproducible performance data via our public open-science repository.

To request raw batch performance data, submit formal vendor registration paperwork, or execute a fast-turnaround R&D manufacturing loop, contact us at inquiry@atomfair.com.

Item is dispatched under the Atomfair Shipping & Delivery Framework (Free worldwide shipping on orders over $59 USD). Return is governed by the Atomfair Return & Refund Policy (7-day technical return window).

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