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Advanced materials are the building blocks of technological innovation, empowering us to push the boundaries of what's possible and create a future where extraordinary achievements become ordinary realities.

Advanced ceramic materials

for high - end applications

About

The MAX phase materials combine the best features of ceramics and metals. They are resistant to extreme temperatures, which means that it can be used to produce such structural elements of space vehicles as: connectors, valves or nozzles for engines. They are supposed to practically not wear out, despite extremely unfavorable conditions. In addition to the aviation and space industries, they may be also used in the railway industry.

New Technological Horizons: Applications of MAX Phase

MAX phases are ternary carbides or nitrides that offer unparalleled properties, combining the advantages of both ceramic and metallic structures due to their nanolammellar structure. The name „MAX” comes from the naming scheme used to describe these materials, where „M” stands for a transition metal, „A” stands for a group 13 and 14 elements, and „X” is either carbon or nitrogen. Thanks to their unique atomic structure, these materials demonstrate remarkable resistance to high temperatures, thermal shocks, corrosion, and are characterized by low density and good thermal conductivity. What’s more MAX phases can be easily machined to manufacture complex shape components.

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Details and prefabs with defined geometry
We are open for development of our products according to our clients specifications from the

materials we offer.

MAX phase targets for PVD technology
Magnetron sputtering MAX phase targets. We offer targets of different shapes and sizes tailored for the client’s apparatus.

Download PDF below:
TDS
SDS
Cr2AlC
MAX phase powder
Chromium Aluminum Carbide MAX phase powder. May be applied in powder metallurgy, thermal spraying, chemical synthesis precursor of MXenes and other fields.

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TDS
SDS
Ti3SiC2
MAX phase powder
Titanium Silicon Carbide MAX phase powder. May be applied in powder metallurgy, thermal spraying, chemical synthesis precursor of MXenes and other fields.

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TDS
SDS
Ti2AlC MAX phase powder
Titanium Aluminum Carbide MAX phase powder. May be applied in powder metallurgy, thermal spraying, chemical synthesis precursor of MXenes and other fields.

Download PDF below:
TDS
SDS
Ti3AlC2
MAX phase powder
Titanium Aluminum Carbide MAX phase powder. May be applied in powder metallurgy, thermal spraying, chemical synthesis precursor of MXenes and other fields. Download PDF below:
TDS
SDS

Products

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Team

WE ARE A TEAM OF RESEARCHERS THAT FOCUSES ON THE DEVELOPMENT OF ADVANCED CERAMIC SYSTEMS FOR VARIOUS APPLICATIONS, WHERE SUPERIOR MATERIAL PROPERTIES RESULT IN SIGNIFICANT IMPROVEMENT IN EFFICIENCY AND REDUCTION OF COSTS. WE ENCOURAGE YOU TO CONTACT US AS WE ARE READY TO HELP YOU IN IMPROVING YOUR PROCESSES
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Grzegorz Kubicki

CEO

I lead the team of young researchers that have the ambition of implementing their research into final products. My research activity focuses on combining novel materials such as MAX phases with technologies in areas of surface engineering and additive manufacturing

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Jakub Wiśniewski

Product Development
Development and characterization of new materials, as well as materials engineering in general, are my passion. My main research activity is FAST/SPS sintering of powder materials, especially MAX phase ceramics and MAX phase-based composites. I appreciate an open mind, curiosity, stubbornness in pursuing goals and continuous self-development. „When you’re standing in one place, you take a step back.”
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Joanna Półrolniczak

Customer Development
I am a technical university graduate, enjoy working with advanced materials with high application potential. I have the ability to make new contacts, define customer needs, maintain good relationships and use my contact network to achieve my goals.
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Mateusz Marczewski

Research Development
I am PhD in Materials Engineering, working on the development of materials for different applications by powder metallurgy. The possibility of carrying out my scientific research abroad get me acquainted with various working cultures and let me get experience in working at an international group, which significantly influenced his current team

Events and media

Wydarzenie deeptechsummit

2023-07-07

Na usta ciśnie nam się tylko jedno słowo. Duma. Od dwóch lat prowadzili badania nad wytwarzaniem materiałów MAX, są laureatami II edycji #AkceleratorŁukasiewicza, a teraz

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Iskry Lecą

2023-06-26

Nano-kanapka z metalu i ceramiki – brzmi to nawet smacznie, prawda? Naukowcy z Łukasiewicz – PIT, z zespołu badawczego cerMAXmet, w składzie Joanna Półrolniczak, Grzegorz

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Wywiad w TVP3

2023-06-26

Faza MAX to materiał łączący cechy ceramiki i metalu, wykorzystywany w przemyśle kosmicznym, lotniczym i kolejowym. Jest odporny na bardzo wysokie temperatury, więc można go

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Businness Insider

2023-05-29

Wygląda jak rozkruszona grudka węgla. Łączy w sobie najlepsze cechy ceramiki i metali. Jest odporny na ekstremalną temperaturę, rzędu tysiąca stopni Celsjusza. Materiał uzyskany przez

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Address

Ogrodowa 6, 62-022 Rogalinek
Poznań, Poland

Phone number

+48 732121245

E-mail

contact@cermaxmet.com

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