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Fraunhofer Institute present Heat-resistant ceramic ink for data codes on metal components

Fraunhofer researchers have developed an extremely heat-resistant ceramic-based ink. For the first time, this enables metal components processed in the automotive industry at temperatures over 1,000 ºC to be marked with a code.

Fraunhofer Institute present Heat-resistant ceramic ink for data codes on metal components

Marking components so that each one can be tracked and traced is an important requirement for the digitalization of processes in the manufacturing industry. In metalworking industries, efforts in this area have previously failed because many metal components must be heated in individual process steps. Codes imprinted conventionally are destroyed when heated and can therefore no longer be read. Prof. Thomas Härtling, group manager for Optical Test Methods and Nanosensors, and his team at the Fraunhofer Institute for Ceramic Technologies and Systems IKTS have now developed an ink that can withstand temperatures of over 1,000 ºC in the oven without being damaged. The Ceracode© ink consists of heat-resistant ceramic particles and a glass component. In the oven, the melting glass ensures that the marking is fixed to the metal and yet is still easy to read. For the first time, Ceracode© ink makes it possible to provide metal components — particularly those that are heated during production in the automotive industry — with a highly stable marking. To develop the technology, Fraunhofer researchers applied their many decades of expertise with ceramics and ceramic-based materials.

Heat-resistant ink for metal
Take the following application scenario: during a spot check in an automotive production plant, a worker discovers a defective metal component. Its geometry does not meet the specifications and the part has not been shaped correctly. The component has a marking, known as a data matrix code, which uniquely identifies it via a serial number. The worker can read out this code using a scanner. On the display, a database opens and shows all the parameters for the component’s manufacturing process, such as the temperature and dwell time in the oven, geometric data and press pressure. It is now easy to identify the problem: the press pressure was not high enough during a particular process step. With just a few clicks, the worker can view all the other components that were processed with the incorrect press pressure and that are therefore defective. These are then quickly discarded — if necessary, a robot can do this fully automatically. The time-consuming work of inspecting all the components that may have been affected and manually removing rejects is a thing of the past, and the production process can continue straight away.


Fraunhofer Institute present Heat-resistant ceramic ink for data codes on metal components
Printed data matrix code on a metal component.

The digitalization of process chains
The combination of Ceracode© ink and the standardized data matrix code that is in widespread use in the industry is providing new momentum for the digitalization of production processes in metalworking industries. “The quality of every component or workpiece can be recorded along the value chain at any time, and defects can be identified right at the start of production and rectified in a targeted manner. This doesn’t just save companies energy — it also means they aren’t wasting raw materials and are able to reduce their carbon emissions,” explains Härtling. Overall, this makes the production process significantly more efficient and cost-effective. The process data stored in the database also makes it easier to set up adaptive process chains. If a manufacturer knows which physical parameters were used to produce a product, the subsequent steps and processes can be adapted and optimized in a flexible manner.

The project is also the result of a successful collaboration. While the Fraunhofer IKTS team developed the ink and continues to work on optimizing it further, project partner Senodis Technologies GmbH from Dresden is responsible for programming the software and commercialization. Senodis Technologies is a spin-off of Fraunhofer IKTS and focuses on deploying the wide-ranging potential of the ceramic-based ink to bring about new applications for industrial customers and press ahead with the digitalization of their value chains. It primarily targets customers from the metal, automotive and ceramics sectors.

Data exchange via Catena-X
In addition to optimizing production, the technology from Fraunhofer IKTS also paves the way for even more extensive information exchange between manufacturers, suppliers and subcontractors. In the automotive industry, these are already linked by means of a complex network. In future, information is set to be exchanged via the Catena-X network platform, which is currently under development. As a collaborative data ecosystem of the automotive industry, it aims to enable the secure and straightforward exchange of data between manufacturers, while also ensuring each participant retains sovereignty over their own data. Participating companies therefore only share the data that they actually want to disclose.

With Ceracode©, detailed information regarding the process parameters of metal components can now be incorporated into the Catena-X network for the first time. Here too, data that the manufacturer does not wish to share, such as internal details on the manufacturing process or the precise material composition of a component, will continue to remain protected in the company’s internal network.


Fraunhofer Institute present Heat-resistant ceramic ink for data codes on metal components
Industrial printer and readout unit in production environment.

Forgery-proof with Ceracode©
The system of heat-resistant ink and data matrix code has reached maturity and is already available on the market through project partner Senodis Technologies GmbH. Manufacturing companies can install the system and put it into operation with ease — even the process of retrofitting existing machinery poses no problem. The data matrix printers used as well as the scanners are compatible with existing industry standards.

In addition, the ink technology can be extensively adapted to the customer’s needs and application. One example is the protection of products against forgeries. “To do this, we add special pigments to the formula of the ceramic-based inks so that they are illuminated in a defined color under UV light. This is an interesting option for industrial customers who purchase parts consisting of particularly expensive metal alloys or components for safety-related systems,” explains Fraunhofer researcher Härtling.

As the next step, the Fraunhofer researchers are working on how to imprint curved or shaped metal components. Further developed image recognition algorithms will then be able to read out codes precisely even on irregular or curved metal surfaces.

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