Technion Presents: The Printer of the Future

Technion Presents: The Printer of the Future

מדפסת התלת מימד למתכות בטכניון. צילום: שרון צור, דוברות הטכניון.

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Products produced by the new printer. Photographed by: Sharon Tsur, the Technion’s Spokesperson’s Office.
Products produced by the new printer. Photographed by: Sharon Tsur, the Technion’s Spokesperson’s Office.

Introducing the first 3-D printer of its kind in Israel: The system is intended to print metal components such as titanium for the aerospace industry, dental implants, bone substitutes, and more; it is based on the melting of metal powder particles by an electron beam (EBM). The Office of the Chief Scientist (OCS) assisted the Israel Institute of Metals (IMM) – a research institute operating under the Technion R&D Foundation – in the purchase of this revolutionary technology, which cost 850 thousand Euros.

The 3-D metal printer at the Technion. Photographed by: Sharon Tsur, the Technion’s Spokesperson’s Office.
The 3-D metal printer at the Technion.
Photographed by: Sharon Tsur, the Technion’s Spokesperson’s Office.

A revolutionary 3-D printing system has recently been put into operation at the Israel Institute of Metals (IMM) – a research institute operating under the Technion R&D foundation. It is the first printer of its kind in Israel designed for metal components based on the melting of metal powder particles by an electron beam (EBM).

Three-dimensional metallic component manufacturing printing technology, or “stratification” (its professional term), is considered an innovative field that has come to be known as the “third industrial revolution”. This technology enables the production of components with high geometrical intricacies, eliminating the need for complicated and tailor-made machining processes for every part (no tooling). This technology is predicted to become an integral part of research and production in aerospace, and health care industries (medical and dental medicine), as it is  relevant to any area where tiny metallic component production are required, especially those characterized by a particularly complex geometry or are designed to work in extreme conditions.

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The system at the Technion has already been used to print a fuel tank prototype for a nano-satellite – also developed at the Technion. Future plans include the printing of engine blades, knee implants and more.

The new system, manufactured by Sweden’s ARCAM Company, uses an electron beam (EBM) to melt metal powder particles. Its innovative melting process is safer, cheaper and more reliable than the prevailing method used today, which are based on laser beams. Another advantage of this new system is its ability to work with a variety of metal alloys, since the transition between them is much simpler than laser-based systems. The total cost of the system (purchase, installation, training and input and output devices) amounts to approximately 850,000 Euros, and it was partially funded by the Office of the Chief Scientist in the Ministry of Economy.

Until today, there were only three 3-D metal printers in Israel, all operating on the older laser technology. The new system at the Technion is, as a matter of fact, the very first 3-D metal printer ever installed in an Israeli academic institution. “IMM, which is at the forefront of research in this area in Israel, enjoys good exposure to Israeli industry, making it the most natural place for leading and deploying innovative technology of this kind in the country,” explains the Director of the Institute, Haim Rosenson. “The establishment of three-dimensional printing center at IMM will help promote this industry in Israel, provide for current and future needs, and encourage the conversion of manufacturing facilities to production using advanced technologies.”