+48 71 320 20 44
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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

Head of the Department of Laser Technologies, Automation and Production Organization
prof. Tomasz Kurzynowski

OUR RESEARCH

OUR PROJECTS IN THE AREA OF AM

  • AM-Crash
  • BioniAMoto
  • InnsLOT
  • PowdeREUSE
  • AddAluMat
  • BIOAddMed
  • Covid-19
  • Others
The aim of AM-Crash was 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-camt-wust
“Bionic lightweight Additively Manufactured structural nodes for Automotive industry (BioniAMoto)” is an project funded by The National Centre for Research and Development.
The aim of the BioniAMoto is to achieve comparable mechanical properties for aluminium alloys processed in AM, compared to conventional type of material, mass reduction of manufactured structural nodes, remaining its stiffness and toughness at least on the same or higher level. Additionally, during the project different ways to join AM part with extruded profiles will be evaluated,without implementing extra thermal stress (eg. shaped joint, bonding, or clinching).
bioanimoto
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 undertaken 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
“Novel method of polyamide powders reconditioning for re-use in selective laser sintering process ” funded by The National Centre for Research and Development.
Selective laser sintering (SLS) is an additive manufacturing technology, also known as 3D printing, where a polymer powder is added layer by layer and then melted by a laser beam. The feedstock material in the SLS is mainly polyamides, which represent more than 90% of the market today (polymer powder market reached $539m in 2019). During the production process, only about 10% of the volume of the working chamber is used, and the main drawback is the inability to directly reuse the material because of chemical changes due to thermal degradation. The goal of the project is to demonstrate the ability to regenerate waste powders in SLS and obtain ready components with acceptable characteristics, while reducing costs for short production runs. This solution is primarily a new approach in the field of environmental protection, which allows the elimination of post-process waste to a large extent and is an important aspect in the industry in prototypes and tooling production, consumer goods, medical devices, and the automotive sector. 
powdereuse
The project will develop a technology for processing functional aluminium alloys (5xxx series) using Laser Powder Bed Fusion (PBF-LB/M) technology and the possible use of additives to aluminium alloy powders to obtain a uniform structure of processed objects used in a wide range of industrial applications. A selected demo part from the chosen industry (including automotive and/or marine) will be subject to topological optimization produced in the LPBF technology. Components of these alloys can be used as production and spare parts.
addalumat
The aim of the project was 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.
bioaddmed
The main goal of the project was to develop a method of immediate incremental production of spare parts and alternative medical equipment and personal protective equipment in a dispersed environment in crisis situations, including research and development work for the prevention of the spread of SARS-CoV-2 infection. This allowed us to shorten the waiting time for a product to less than 12 hours from the moment the need arises, including designing a 3D model.
“Support for homonymous hospitals in the fight against the spread of SARS-CoV-2 virus infection and in the treatment of COVID-19”, 2020-2021, financed by Polish National Centre for Research and Development
Covid19_OrgCARD_rev2
Learn more about CAMT, visit our website.

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

    Kontakt | Contact

    Politechnika Wrocławska

    Wrocław University of Science and Technology

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

    Biuro | Office

    B-4 / 1a.23

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