Compact zirconia sintering furnace UGIN e.ON Sinter Base
Référence: FCE01SIN0002
UGIN DENTAIRE e.ON Sinter Base zirconia sintering furnace — compact, high-performance, safer daily use
Brand: UGIN DENTAIRE
SKU: FCE01SIN0002
The e.ON Sinter Base is a compact zirconia sintering furnace designed as a bench-top unit: minimal footprint, strong performance, and complete programming to structure your lab cycles.
Its architecture with 4 MoSi₂ heating elements supports homogeneous ramping and stability for better repeatability (densification, shrinkage, fit). The unit also features an automatic door safety system to protect the chamber and reduce thermal shock on prosthetic parts.
A compact furnace designed for daily zirconia production
Zirconia sintering is not only about maximum temperature: the final quality depends on cycle stability, consistent loading, and repeatable parameters. Sinter Base is ideal if you need a serious compact furnace that can handle programmed cycles (up to 40 steps) with graphical tracking, while remaining easy to integrate on the bench.
The supplied sintering tray with lid and zirconia beads helps keep loading clean and organized—up to 20 units depending on geometry and placement strategy.
Automatic door safety system
A properly secured door means less thermal stress and more consistent results.
- Chamber protection: helps preserve internal components.
- Reduced thermal shock: supports stability for prosthetic parts.
- Safer routine: fewer “high-risk” handling moments during daily workflows.
Lab tip: set an internal rule—never open the chamber at high temperature—and standardize a safe cooldown threshold before handling.
4 MoSi₂ elements: homogeneity and stability
The furnace is equipped with 4 MoSi₂ pins (molybdenum disilicide), a classic choice for high-temperature zirconia sintering.
- Distributed heating: supports more uniform chamber temperature.
- More stable cycles: helpful for consistent densification and shrinkage.
- Repeatability: when loading and bead-bed preparation are standardized.
Recommendation: define one “reference cycle” per zirconia brand and duplicate it as favorites with controlled variations.
What makes the difference in zirconia sintering (in the lab)
Loading & beads
A clean bed of zirconia beads, well-distributed loading, and consistent spacing are key to uniform heat transfer and dimensional stability.
Structured cycle
With 40 programs and up to 40 steps each, you can standardize profiles by material (translucent, high-strength) and keep a clear internal protocol.
Visual tracking
Graphical cycle display helps verify ramps/holds/cooldown consistency and supports basic QC documentation when changing zirconia batches.
Technical specifications — clear manufacturer summary
| Display | 7″ high-definition color touchscreen |
|---|---|
| Maximum temperature | 1600 °C |
| Ramp rate | Up to 40 °C/min (max) |
| Heating elements | 4 elements (pins) in MoSi₂ |
| Included accessories | 1 sintering tray with lid + zirconia beads (up to 20 units) |
| Programs | 40 free programs, up to 40 steps per program |
| Monitoring | Graphical cycle visualization |
| Interface languages | French, English, Italian, Spanish |
| Chamber dimensions | 110 × 110 × 110 mm |
| Dimensions (H × W × D) | 540 × 400 × 450 mm |
| Weight | 58 kg |
| Maximum power | 1830 W |
| Power supply | 230 V (50/60 Hz) |
Process & Quality — a simple method to stabilize your results
To get the best from a sintering furnace, the key is turning settings into a process: consistent loading, validated cycles, clean consumables, and basic traceability.
Define a reference cycle per zirconia brand/batch. Keep a consistent test geometry (thickness, connector) to compare outcomes over time.
Stabilize quantity and placement in the tray on a clean bead bed. Consistent spacing improves thermal uniformity.
Use the graphical curve as a control tool: if drift appears, validate with a witness piece before running clinical cases.
Tip: renew the bead bed if contaminated and keep a dedicated tray for each “material family” when needed.
Related products
For a consistent zirconia workflow (pre-drying, part support, and disc supply), these references are frequently used alongside sintering.
User manual & documentation
Access the official procedures: installation, cycle programming, loading recommendations, and maintenance.
Shipping
In the box: 1 UGIN DENTAIRE e.ON Sinter Base sintering furnace (220–230 V) + 1 sintering tray with lid and zirconia beads (manufacturer configuration). Documentation included.
Note: bench-top installation (compact format). Provide ventilated space and a compliant 230 V power supply.
FAQ — e.ON Sinter Base
Why choose a compact “base” furnace for zirconia?
Sinter Base is a strong choice if you need a bench-top unit with a small footprint and reliable daily production cycles. It combines full programming (40 programs, up to 40 steps) with graphical tracking to standardize your zirconia routine.
For very high throughput or ultra-fast cycles, a dedicated “fast” model may be more suitable. For consistent, structured production, Sinter Base remains a solid option.
How to use the “up to 20 units” capacity without sacrificing quality?
Capacity depends on part geometry. Distribute units on a clean bed of zirconia beads, avoid any contact between parts, and keep spacing consistent. Do not overload, and maintain a constant loading approach from batch to batch.
If you change zirconia batch or material type (translucent vs high-strength), validate a witness cycle before launching clinical series.
What is the purpose of the automatic door safety system in daily work?
It helps protect chamber components and reduce thermal shock on prosthetic parts. In practice, it supports a more stable routine with fewer sudden exposures to ambient air when the chamber is hot.
Pair it with a lab rule: open only within a “safe temperature zone” defined by your protocol.
Which habits help extend the life of MoSi₂ heating elements?
Respect cooldown steps, avoid opening at high temperature, and keep the chamber clean (dust, tray contamination). Ensure stable 230 V power and correct ventilation.
If the curve looks abnormal or unstable, stop production, check element condition, then revalidate a reference cycle with a witness piece.
Compact zirconia sintering furnace UGIN e.ON Sinter Base