+48 71 320 20 44
camt@3dmeeting.pl
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ABOUT ADDITIVE MANUFACTURING MEETING TEAM

CAMT-FPC | WROCŁAW UNIVERSITY OF SCIENCE AND TECHNOLOGY

ABOUT US

 

The CAMT-FPC (Centre of Advanced Manufacturing Technologies – Fraunhofer Project Center / CAMT-FPC) was founded in 2008 at the Faculty of Mechanical Engineering of the Wroclaw University of Science and Technology. It is a part of the Fraunhofer International Center Research in the area of laser and additive manufacturing technologies, created jointly with the Fraunhofer Gesellschaft (Dresden, Germany). In association with foreign scientific partners, as well as Polish and international companies in automotive, aerospace, medical and pharmaceutical industry, we are researching in the area of design, development, and application of laser, additive and hybrid technologies.

 

COMPETENCIES

 

Our core competencies include the use of Additive Manufacturing Technologies for the production of individualized components and fully functional parts with complex internal and external structures, including components use in challenging operating conditions (thermal, mechanical and corrosive environment).
CAMT-FPC conducts R&D projects in the area of materials and mechanics control for broad spectrum of engineering materials (ceramics, polymers, metals, and superalloys) suitable for use in various industries (automotive, aerospace, medicine, energy) manufactured by Additive Manufacturing Technologies (SLM, EBM, SLS, FDM, etc.).

ORGANIZATION

Director of CAMT-FPC
prof. Edward Chlebus

BADMAT Laboratory

Laboratory Manager prof. Tomasz Kurzynowski

MVLAB Laboratory

Laboratory Manager prof. Jacek Reiner

Reverse Engineering Laboratory

Laboratory Manager prof. Bogdan Dybała

LRPD Laboratory

Laboratory Manager Tomasz Boratyński, PhD. Eng.


OUR RESEARCH

OUR PROJECTS IN THE AREA OF AM

  • AM-Crash
  • ICEMTA
  • InnsLOT
  • AMgAvio
  • BIOAddMed
  • AMpHOra
  • Bioimplant
  • Others
The aim of AM-Crash is to achieve equivalent mechanical properties of LAM components compared to standard deep-drawn parts. This will create significant cost and lead-time benefits using LAM parts for prototype vehicles during car development for crash tests, for small batch series components and for spare parts. The identical structural behavior of LAM components and deep-drawn sheet metal will be achieved by a multifactorial approach combing a specific LAM processing with suitable post treatment and joining/integration technologies.
AM-Crash
“International Center for Excellence in Manufacturing Technologies and Applications (ICEMTA)” is an investment project aimed at creating new Center of Excellence in Manufacturing Technologies and Their Applications. As part of the project, our unit modernized the existing equipment and carried out a number of investments that allow conducting activities in new research areas. Installations within the ICEMTA project include: the L-BPF industrial system, a specialized SEM microscope with EBSD, an XRD diffractometer, a high-temperature vacuum furnace, a robotic, flexible production line for simulation of industry 4.0 tasks, new laser cladding systems and others.
Strona_paralax-2
Nowadays, complex, thin-walled nickel-based engine parts are produced in Pratt & Whitney Kalisz by machining and joining. These processes are expensive in terms of the operating time and material usage. The project will undertake research activities aimed at reducing material usage and operation times by replacing machining with additive manufacturing technology (3D printing).
“Development of innovative additive manufacturing method for the production of complex, thin-walled, nickel-based aircraft engine components (InnsLOT)”, 2018-2020, financed by Polish National Centre for Research and Development – TechMatStrateg programme.
przemysl
The project aim is to develop processing of magnesium alloys for aerospace applications by SLM/DMLS (Selective Laser Melting / Direct Metal Laser Sintering) technology. During the project, the potential of obtaining in SLM process magnesium alloys with high mechanical properties, at least close to that obtained for conventional ones, will be evaluated.
“Magnesium-based alloys processed with selective laser melting technology for aeronautical applications (AMgAvio)”, 2017-2019, financed by Polish National Centre for Research and Development – LIDER programme 0109/L-7/2015.
badania
The aim of the project is to adapt  additive manufacturing technology for production of individualized medical products in the form of drug delivery systems, based on polymeric biomaterials (cellulose derivatives), for applications in the pharmaceutical and medical industries. Results of the AddMed project is a process innovation – a complex manufacturing technology for personalized drug delivery systems, including preparation of nanocomposite filament and it’s processing using additive manufacturing process, up to the point when final products are ready for clinical research
„Additive manufacturing of personalised medical products based on polymer biomaterials”, 2019-2021, financed by Polish National Centre for Research and Development – LIDER programme 0098/L-9/2017.
Bio_IMPLANT
The project is co-realized with PZL Mielec, part of Sikorsky Company. The objective of the project is the development of methods for designing and manufacturing of aircraft components with additive technologies. The results of the research will contribute to the implementation of the AM methods allowing for weight reduction of aircraft parts while maintaining or improving their strength, which in the end will improve safety and reduce fuel consumption, essential for reduction of environmental pollution.
„Additive Manufacturing Processes and Hybrid Operations Research for Innovative Aircraft Technology Development (AMpHOra)”, 2014-2018, co-financed by Poland National Centre for Research and Development – operational program number: INNOLOT/I/6/NCBR/2013.
The project aim was to develop a therapy for patients after tumor removal in the craniomaxillofacial area. The proposed solution involves new implants, which geometry restores original shapes of patients’ facial bones, what is hard to achieve by manual procedures with autologous bone or synthetic graft substitute. The implants will be scaffolds – tissue-supporting structures, filled with stem cells (from fat tissue), growth factors and antibiotics.
„Bioimplants for the treatment of bone loss in oncological patients (BioImplant)’, 2010-2014, financed by Polish National Centre for Research and Development – programme POIG.01.01.02-00-022/09.
Bio_IMPLANT
  • “Development and application of laser powder micro-metallurgy for manufacture of materials with special properties  modified with rhenium”; 2012–2016; PBS1/A5/12/2012; funded by the National Centre for Research and  Development;
  • “Development, manufacturing and validation of Integrated System for Rescue Operation Management with  application of innovative rapid manufacturing technologies”; 2012–2015; PBS1/A6/12/2012; funded by the National  Centre for Research and Development;
  • “Development of laser welding technologies for the passengers passive safety systems in automotive applications”;  2012–2015; S/77/13; funded by the National Centre for Research and Development (InnoTech programme);
  • “Layers and coatings with rhenium, its compounds and alloys – properties, areas and methods of applications”; 2015–  2018; CUBR/II/4/NCBR/2015; funded by the National Centre for Research and Development in co-operation with  KGHM Polska Miedz S.A.;
  • “Development of the industrial method for automatic assessment of the technological parameters and classification of  grains by image analysis”; 2015–2018; PBS3/A8/38/2015; funded by the National Centre for Research and  Development;
  • “Laser drilling technology of cooling channels in multilayer structures used in modern gas turbines aircraft engines”;  2013–2015; INNOTECH-K2/IN2/46/182494/NCBR/13; funded by the National Centre for Research and  Development (InnoTech programme);
  • “Wroclaw Centre of Excellence” (WCE – Teaming H2020) 2015-2016 664508-WCE; funded by EU;
  • “Application of advanced optoelectronic systems for automatic industrial quality control of thermochromics response  of matrix liquid crystal with narrow precallibration thermotropic mesophase used for biomedical testers”; 2013–2015;  funded by the National Centre for Research and Development (InnoTech programme);
  • “Optomechanical and laser technologies for industrial and medical applications”; 2010–2012; POIG.02.01.00-02-  113/08, funded by the National Centre for Research and Development;
  • “Lastech – laser technologies for manufacturing functional 3D and surface structures”; 2009-2013; POIG.01.03.01-  02-160/09, funded by the National Centre for Research and Development.

TEAM

  • Tomasz Kurzynowski, Prof.

    SLM specialist, contact with the industry

  • Anna Woźna, Ph.D.

    Logistics Coordinator

  • Michał Karoluk

    Team Member

  • Karol Kobiela

    Team Member

  • Irina Smolina, Ph.D.

    Program Coordinator

  • Malgorzata Rusinska, Ph.D.

    Partnership Coordinator

  • Michał Olejarczyk, Ph.D.

    Polymers AM specialist

  • Andrzej Pawlak, Ph.D.

    Metal AM specialist

  • Patrycja Szymczyk, Ph.D.

    Head of Organizing Committee, AM specialist in medical applications

  • Prof. Edward Chlebus

    Director of CAMT-FPC

CONTACT

OUR OFFICE

Wrocław University of Science and Technology

Bud. B-4 / pok. 1a.23
camt@3dmeeting.pl
tel. +48 71 320 20 44

OUR LABORATORY

Center of Advanced Manufacturing Technologies

Fraunhofer Project Center
ul. Łukasiewicza 5
50-371 Wrocław


Contact

Wrocław University of Science and Technology

CAMT Fraunhofer Project Center
Łukasiewicza 5st.
50-371 Wrocław

Office

Bulding B-4 / room 1a.23

camt@3dmeeting.pl
tel. +48 71 320 20 44

 

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  • REGISTRATION
    • PARTICIPANT
  • ABOUT US
  • PARTNERS
  • MORE
    • VENUE | HOTELS
    • 2019 EDITION
    • 2018 EDITION
    • 2017 EDITION
    • FAQ
  • CONTACT
  • enEN
    • plPL
Additive Manufacturing Meeting 2019