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Summer SchoolAdditive Manufacturing and Joining Technologies

Additive Manufacturing and Joining Technologies

Summer School - On campus
July 14 - July 25, 2025

The course also can be arranged as the tailor-made programe for a group of minimum 10 students upon request (the dates and terms can be discuss individually)

Advanced Technologies for Materials Processing
Advanced Technologies for Materials Processing
  • Brief description

    In the course of the programme implementation the following tasks are solved: 1) mastering the technology of electric arc growing from wire; 2) mastering the technology of laser growing from powder material; 3) mastering the technology of friction stir welding; 4) familiarisation with the processes occurring during the implementation of technologies.

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Duration: 2 weeks

ECTS credits: 5.0

Participation fee: 50 000 RUB

Deadline for registration: May 18, 2025

  • Cultural program

    We offer our students excursions to the most famous palaces, monuments, museums of St. Petersburg, as well as other cultural activities.

  • Entrance requirements
    • • Good command of English. All classes and extracurricular activities are carried out in English;
    • • Students from different area (material science, mechanical engineering, physics, etc) finishing a Bachelor or in Master;
    • • Engineers from industries interested in an introduction and a general overview on AM and JT;
    • • Scientists and/or senior engineers interested in advanced topics and actual challenges in AM and JT.
  • Course description

    Block 1: basics

    • • Overview of metallic additive manufacturing and friction based joining techniques;
    • • Fundamentals on different technologies (PBF, DED, WAAM, FSW …);
    • • Physics and mechanics of thermomechanical processes (thermomechanics basics, phase transformation, residual stresses …);
    • • Metallurgical and mechanical properties.

    Block 2: advanced

    • • Physics of the energy-matter interaction;
    • • Advanced metrology in additive manufacturing;
    • • Friction based processes and impact on microstructures and properties;
    • • Microstructure and advanced physical properties;
    • • Focus on steels and aluminium, nickel and titanium alloys,
    • Within the school, students will have the opportunity to develop their own project under the guidance of specialists in telecommunications, biophotonics and fiber optics. The development of the project will consist of both the theoretical part (the schematic part and the corresponding calculations), and the practical part where students can assemble and test their own device.

    Block 3

    • •Experimental demonstrations and field trips to industrial companies.

    Block 4

    • •Intensive course of Survival Russian language.

REGISTER ONLINE

Professors and lecturers:

  • Anton Naumov, associate professor, Polytech, Russia

Contacts:

Summer and Winter Schools Team