Oxygen probe
CarboProbe CP
CarboProbe CP oxygen probe developed for potters, ceramic kilns, industrial furnaces & incinerators
Zirconium oxide oxygen probes are an invaluable tool for potters wishing to control and optimize firing processes in their kilns. These probes enable precise measurement of the oxygen level in the kiln atmosphere, which is essential for controlling the reduction and oxidation (redox) reactions that directly influence the appearance and quality of ceramic parts.
Operating
principle
Oxygen probes work like an “electronic nose” for the oven. They use a special material that reacts to heat and measures the amount of oxygen present in the air.
By comparing the kiln interior with an external reference (reference air supplied by a small hand pump), they give a precise indication of the oxygen level. This helps the potter to adjust firing conditions as required.
Description of Econox CarboProbe CP probe
The CarboProbe CP is a compact, versatile oxygen probe designed by Econox for potters wishing to make precise, reliable oxygen measurements in their kilns.
It features a zirconium oxide sensor for fast, accurate measurement of oxygen concentration. Its robust construction, thanks to pure platinum electrodes, guarantees enhanced resistance to corrosion.
Compact and lightweight, it integrates easily into all types of potters’ kilns, combining reliability with ease of installation and use.
Technical
characteristics
The CarboProbe CP probe is designed to meet specific needs, while offering the reliability and Swiss manufacturing quality characteristic of Econox.
Technical specifications
Accuracy
The probes enable precise, real-time measurement of oxygen in the furnace.
Process control
They give potters greater control over firing conditions, reducing errors and unexpected variations.
Optimizing results
Good management of reduction and oxidation atmospheres enhances the aesthetic quality of parts, especially the colors of glazes and engobes.
Energy savings
By optimizing cooking cycles, probes help avoid unnecessary energy expenditure.
Firing documentation
Collected data can be archived to reproduce accurate results for future firings.
A smart investment for long-term savings
The acquisition of a zirconium oxide oxygen probe represents a strategic investment for potters. Although the initial cost may seem high, the long-term savings are substantial:
Reduced losses: Fewer defective parts thanks to better control of firing conditions.
Energy optimization: more efficient use of the furnace, reducing energy costs.
Improved quality: Consistent, high-quality results increase customer satisfaction and the value of creations.
Zirconium oxide oxygen probes revolutionize the work of potters, enabling them to explore complex firing techniques with precision and confidence. Their use results in unique, high-quality creations, while offering greater energy efficiency and reduced waste. They are therefore an ideal investment for potters and ceramists seeking to perfect their craft. By choosing this technology, potters are investing in a sustainable solution that improves their productivity while respecting their budget over the long term.
The CarboProbe CP is definitely a strategic choice for anyone looking for precise, reliable and durable solutions to control their baking process.
Concrete example of reduction and oxidation
Imagine a potter who wants to create spectacular glaze effects on a series of stoneware vases. He uses a glaze containing iron oxides, which can produce a variety of colors depending on atmospheric conditions.
Oxydation phase:
During the heating process, the potter maintains an oxygen-rich atmosphere. The probe indicates a high oxygen level, and the iron oxides remain in their oxidized state, producing red and brown hues on the glazes.
Reduction phase :
On reaching a high temperature, the potter reduces the air supply and introduces an additional fuel source (e.g. propane or wood) to create an oxygen-poor atmosphere. The probe signals a drastic reduction in oxygen. Under these conditions, iron oxides transform into their reduced states, producing blue, green or black colors.
By precisely controlling these phases with the probe, the potter achieves consistent, breathtaking results, while reducing the risk of defects.
Other
Use Cases
Thermal
treatment
Carbon (%C) measuring probes are essential in the heat treatment industry to measure carbon potential in carbonitriding and carburizing atmospheres.
Incineration
Oxygen probes play a key role in incineration, particularly in measuring the oxygen content (%O2) in the combustion gases. They ensure efficient combustion, optimal operation, and compliance with environmental standards.