Search results for: THERMO-MECHANICAL PROPERTIES

• Complex Concrete Structures (CE) - 2021/2022

  e-Learning Courses

  • P. Ziółkowski

  The following issues in the field of concrete structures will be discussed in the lecture part: Mechanical properties of concrete and reinforcing steel; Calculation of reinforced concrete cross-sections bending; Calculation of reinforced concrete cross-sections shear; Serviceability limit state in reinforced concrete structures; Reinforced concrete slabs, one-way and cross-reinforced; Reinforced concrete stairs; Reinforced...

• Complex Concrete Structures (CE) - 2023/2024

  e-Learning Courses

  • P. Ziółkowski
  • R. Ossowski

  The following issues in the field of concrete structures will be discussed in the lecture part: Mechanical properties of concrete and reinforcing steel; Calculation of reinforced concrete cross-sections bending; Calculation of reinforced concrete cross-sections shear; Serviceability limit state in reinforced concrete structures; Reinforced concrete slabs, one-way and cross-reinforced; Reinforced concrete stairs; Reinforced...

• Advanced Mechanics of Marine Structures I, MSc, Summer 2022-2023, [L,T], PG_00051723

  e-Learning Courses

  • B. Rozmarynowski

  1.  Literature overview,  definition of marine and offshore structures, ocean engineering technologies and mechanical aspects, structural systems applied, jack-up drilling platforms and structural elements. 2. Tensor algebra fundamentals,  stress and small strain states of a solid, constitutive relations. 3. SDOF and MDOF dynamic systems, damping and added masses in offshore vibrations,  generalised eigenvalue problem, forced vibrations...

• Contemporary directions of development in mechanical engineering

  e-Learning Courses

  • K. Kosowski
  • J. Głuch

  Presentation of new ways of development of different specialisations belonging to mechanical engineering 

• [NCh, IMa] Properties of novel materials

  e-Learning Courses

  • T. Klimczuk

  {mlang pl} Dyscyplina: nauki chemiczne, inżynieria materiałowa Zajęcia  fakultatywne Prowadzący:  prof. dr hab. inż. T. Klimczuk, WFTiMS Liczba godzin: 15 Forma zajęć: wykład {mlang} {mlang en} Discipline: chemical sciences, materials engineering facultative course Academic teacher: prof. dr hab. inż. T. Klimczuk, WFTiMS Total hours of training:15 teaching hours Course type: lecture {mlang}

• Electronics for Mechanical Engineering (2023)

  e-Learning Courses

  • P. Kurgan

  Name of the course: Electronics (M:32011W0)Specialization: Design and Production Engineering (WM), 1st degree - bachelor/eng., stationary, 2018/2019 - winter semester (currently sem. 4) Number of hours: 30hECTS points: 2 Teacher (lecture/laboratories): Piotr Kurgan

• Electronics for Mechanical Engineering (2024)

  e-Learning Courses

  • P. Kurgan

• Composite materials - fabrication, properties and prospects of application

  e-Learning Courses

  • B. Bochentyn

• Composite materials - fabrication, properties and prospects of application 2023

  e-Learning Courses

  • B. Bochentyn

• Contemporary directions of development in mechanical engineering kopia 1

  e-Learning Courses

  • J. Głuch

• Advanced welding processes, Lecture, Laboratory, Mechanical Engineering, sem. 02, 2023/2024, PG_00057410

  e-Learning Courses

  • G. Rogalski
  • A. Świerczyńska
  • M. Landowski

• Welding Technology, W, L, Mechanical Engineering, first-cycle studies, sem. 04, 2022/2023

  e-Learning Courses

  • J. Tomków
  • A. Świerczyńska

• Welding Technology, W, L, Mechanical Engineering, first-cycle studies, sem. 04, 2023/2024

  e-Learning Courses

  • J. Tomków
  • A. Świerczyńska

• Advanced welding processes, W, L, P, Mechanical Engineering, second-cycle studies, sem. 02, 2022/2023

  e-Learning Courses

  • G. Rogalski
  • A. Świerczyńska
  • M. Landowski

• Dielektryki-en WFTIMS

  e-Learning Courses

  • R. J. Barczyński

  Dielectric materials - properties, applications, structure.

• Manufacturing Engineering, PG_00050286, DaPE, 2023, s. zimowy (Archiwizowany 2023-11-02)

  e-Learning Courses

  • M. Deja

  Acquainting with basic manufacturing techniques in terms of technological effects and properties of the workpiece surface layer. Analysis of manufacturing costs, designing the technological process.

• Fuel, Oils and Greases, W, E, sem.01, zimowy 22/23

  e-Learning Courses

  Division and origin of fuels. Fossil energy resources in Poland and in the world. Production and structure of fuel consumption. Main directions of crude oil processing. Classification and physical properties of gaseous and liquid fuels - natural gas, gasoline, kerosene, diesel oil, heating oil. Classification and characteristic indicators of solid fuels - hard coal, lignite, peat. Fuel contaminants and methods of their removal....

• Fuel, Oils and Greases, W, E, sem.03, zimowy 22/23

  e-Learning Courses

  • P. Bzura

  Division and origin of fuels. Fossil energy resources in Poland and in the world. Production and structure of fuel consumption. Main directions of crude oil processing. Classification and physical properties of gaseous and liquid fuels - natural gas, gasoline, kerosene, diesel oil, heating oil. Classification and characteristic indicators of solid fuels - hard coal, lignite, peat. Fuel contaminants and methods of their removal....

• Electrical Engineering [Design and Production Engineering][2022/23]

  e-Learning Courses

  • F. Kutt
  • M. Michna
  • R. Ryndzionek
  • I. Mosoń
  • Ł. Sienkiewicz

  Additional teaching materials for Electrical Engineering for design and production engineering course at the Faculty of Mechanical Engineering - 4'th semester, undergraduate

• Inorganic Chemistry Lecture

  e-Learning Courses

  • A. Pladzyk
  • A. Brillowska-Dąbrowska

  Aim of the course is to give a general knowledge of the chemistry of the elements and the inorganic compounds, puting the attention on the relationships between structure, properties and reactivity.

• Professional practice, P, DaPE, sem.07, winter, 23/24 (PG_00040197)

  e-Learning Courses

  • G. Banaszek

  The student undergoes apprenticeship in order to develop the skills of practical use of knowledge obtained during education at the Faculty of Mechanical Engineering and Ship Technology.

• Technical Mechanics 2 (PG_00049753), I stop, En, [W,C], zima 22/23

  e-Learning Courses

  • B. Rozmarynowski

  Lectures and tutorials devoted to basic issues of Strength of Materials (stress and strain states, the Hook's law, geometrical properties of an area, bending, shearing, torsion, deflection lines  of beams, buckling and yielding criteria).

• CNC Programming: W/L/P; DaPE; 6th semester, 1st grade, Summer 22/23 (M:320405W0)

  e-Learning Courses

  • D. Chuchała

  Design and Production Engineering (Faculty of Mechanical Engineering and Ship Technology), 1st degree, 6th semester Lectures, laboratories and project exercises

• Electrical Engineering [Design and Production Engineering][2023/24]

  e-Learning Courses

  • F. Kutt
  • I. Mosoń

  Additional teaching materials for Electrical Engineering for Design and Production Engineering of the Faculty of Mechanical Engineering and Ship Technology course, conducted at the Faculty of Electrical and Control Engineering - 4'th semester, undergraduate

• Technology and Energy Conversion Machines - Nowy

  e-Learning Courses

  • D. Stepanenko

  The course covers the basics of mechanical, electrical and thermal energy production in industry and maritime transport. Describes installations supporting high-power engines. Particular attention has been paid to the fuel systems of internal combustion engines. The treatment of engine exhaust gases is described.

• Technology and Energy Conversion Machines - Nowy kopiuj 1

  e-Learning Courses

  • Z. Kneba

  The course covers the basics of mechanical, electrical and thermal energy production in industry and maritime transport. Describes installations supporting high-power engines. Particular attention has been paid to the fuel systems of internal combustion engines. The treatment of engine exhaust gases is described.

• Vehicle Suspension Design, W, TiL II st., sem. 03, letni 23/24 (PG_00062882)

  e-Learning Courses

  • J. Kropiwnicki

  Role of the suspension. Suspension kinematics and compliances theoretical background and practical measuring schemes. Suspension design an overview of suspension design properties and review of current design philosophy. Review of typical designs. Current design trends. Practical implications. Case studies introduction to modelling and simulation software and discussion of practical case studies.

• Vehicle Suspension Design, W, MiBM II st., sem. 03, letni 23/24 (PG_00062882)

  e-Learning Courses

  • J. Kropiwnicki

  Role of the suspension. Suspension kinematics and compliances theoretical background and practical measuring schemes. Suspension design an overview of suspension design properties and review of current design philosophy. Review of typical designs. Current design trends. Practical implications. Case studies introduction to modelling and simulation software and discussion of practical case studies.

• Technology and Energy Conversion Machines

  e-Learning Courses

  • Z. Kneba

  The course covers the basics of mechanical, electrical and thermal energy production in industry and maritime transport. Describes installations supporting high-power engines. Particular attention has been paid to the fuel systems of internal combustion engines. The treatment of engine exhaust gases is described.

• Fundamentals of thermodynamics and heat transfer, W/C, GTM (WCh), sem.04, zimowy 23/24 (PG_00048767)

  e-Learning Courses

  • T. Muszyński

  Table of contents presented on the course: Basic terms.The first law of thermodynamics for closed and open systems.The properties of perfect, semi-perfect and real gases.Gas rights. Thermal and caloric state equation.Thermodynamic transformations of a perfect gas.Gaseous thermodynamic cycles. The second law of thermodynamics.Steam and steam cycles.Basics of heat exchange.

• Chemistry and Nanochemistry 2022.

  e-Learning Courses

  • M. Prześniak-Welenc
  • M. Bobrowski

  The course consists of lectures (15 x 2 hours) and laboratories (5 x 3 hours).The goal of this course is to teach general chemistry and adequately apply it to nano-size systems, their synthesis and analysis. An emphasis is laid on an analysis of electronic structure of molecules and prediction of  resulting properties and reasons of consequent behaviour in chemical reactions. The course also encloses laboratory classes, where the...

• Fluid Mechanics and Hydraulics EE Msc sem. I r.a. 22/23

  e-Learning Courses

  • P. Zima
  • A. M. Mustafa

  Basic definitions. Physical properties of liquids. Forces acting on fluids. Hydrostatics - basic equations. Pressure on a flat and curved wall. Buoyancy. Archimedes' law. Balance of submerged bodies. The balance of floating bodies. Hydrodynamics. Hydrodynamic quantities. Continuity equation for the liquid stream. Bernoulli equation. Basic laws of hydrodynamics. Equation of mass behavior, preservation of the amount of motion, Bernoulli's...

• Fluid Mechanics and Hydraulics EE Msc sem. I r.a. 23/24

  e-Learning Courses

  • P. Zima

  Basic definitions. Physical properties of liquids. Forces acting on fluids. Hydrostatics - basic equations. Pressure on a flat and curved wall. Buoyancy. Archimedes' law. Balance of submerged bodies. The balance of floating bodies. Hydrodynamics. Hydrodynamic quantities. Continuity equation for the liquid stream. Bernoulli equation. Basic laws of hydrodynamics. Equation of mass behavior, preservation of the amount of motion, Bernoulli's...

• Introduction to Numerical Simulation

  e-Learning Courses

  • M. Rewieński

  Course description: This interdisciplinary course provides an introduction to computational techniques for the simulation of a broad range of engineering and physical systems.  Concepts and methods discussed are widely illustrated by applications drawn from electrical, mechanical, and chemical engineering. Topics include: mathematical formulations of simulation problems; sparse direct and iterative linear system solution techniques,...

• Systems Engineering Requirements for Rotating Machines (PG-00060237)

  e-Learning Courses

  • J. Szwedowicz

  Turbiny wiatrowe, gazowe, mikroturbiny, silniki lotnicze, turbosprężarki i inne systemy mechaniczne to przykłady maszyn wirujących, które wymagają wysoko wykwalifikowanych inżynierów. Powinni oni zrozumieć złożoność procesów projektowania i produkcji, w tym wytwarzania przyrostowego, oraz konserwacji prognostycznej opartej na inżynierii cyfrowej dla bezawaryjnej pracy silnika. Wind, gas, micro turbines, aircraft engines, turbochargers,...

• [IMe] Modern optimisation methods

  e-Learning Courses

  • K. Tesch

  {mlang pl} Dyscyplina:  Inżynieria Mechaniczna Zajęcia obowiązkowe dla doktorantów I roku Prowadzący:   dr hab. inż. K. Tesch Liczba godzin: 20h Forma zajęć: wykład {mlang} {mlang en} Discipline: Mechanical Engineering Obligatory course for 1st year PhD students Academic teacher:  dr hab. inż. K. Tesch Total hours of training: 20 teaching hours Course type: lecture {mlang}

• [IMe] Modern optimisation methods

  e-Learning Courses

  • K. Tesch

  {mlang pl} Dyscyplina:  Inżynieria Mechaniczna Zajęcia obowiązkowe dla doktorantów I roku Prowadzący:   Prof. dr hab. inż. K. Tesch Liczba godzin: 20h Forma zajęć: wykład {mlang} {mlang en} Discipline: Mechanical Engineering Obligatory course for 1st year PhD students Academic teacher:  Prof. dr hab. inż. K. Tesch Total hours of training: 20 teaching hours Course type: lecture {mlang}

• Hydraulics and Pneumatics

  e-Learning Courses

  • L. Osiecki

  The lecture covers the theoretical basics of hydraulic and pneumatic drive, simple systems encountered in practice and the elements included in these systems. Examples of applications of both types of drive in mechanical engineering are also presented, as well as their advantages and disadvantages compared to other types of drive.

• Fluid Mechanics, L/L/E, DaPE, sem. 04, summer 21/22 (PG_00050282)

  e-Learning Courses

  • K. Tesch
  • M. Banaszek

  LECTURES Introduction and basic definitions. Properties of fluids. Models of fluids. Fluids in equilibrium. Determination of hydrostatic forces. Archimedes" law. Methods of fluid flow description. General motion of fluid. Deformation of fluid element. Vortex motion of fluid. Principles of conservation of mass, momentum and energy. Balance of entropy. Navier-Stokes equation. Bernoulli equation. Similarity of flow phenomena. Potential...

• Self-healing and shape memory polymers

  e-Learning Courses

  • J. Haponiuk

  The course "Self-Healing and Shape Memory Polymers" is a specialized elective designed for Chemical Engineering PhD students. This advanced course delves into the innovative realms of self-healing materials and shape memory polymers (SMPs), representing a significant breakthrough in material science and engineering. Throughout the course, students learn about the problems of failure of polymeric materials and explore the fundamental...

• Magnetism from fundamentals to spintronics 22/23

  e-Learning Courses

  • L. Piotrowski

  1. Basic magnetic quantities2. Magnetism of atoms and molecules, atoms in external magnetic fields3. Solid state magnetism, types of magnetic materials (dia-, para-, and ferromagnetism)4. Ferromagnetism and domain structures5. Magnetism of small particles, single domain particles (StonerWohlfarth model), thin films6. Experimental techniques of magnetic properties and magnetisation state determination. Domain structurevisualisation...

• Physical Chemistry_GTM_20_21_winter

  e-Learning Courses

  • A. Kloskowski
  • Ł. Nierzwicki
  • M. Śmiechowski
  • W. Chrzanowski
  • Ł. Marcinkowski

  The aim of the subject is to familarize the student with fundamental physico-chemical laws in chemical thermodynamics, phase equilibria and chemical equilibria together with ability of solving relevant text problems involving calculations, as well as teachnig him/her effective and safe carrying out simple experiments/measurements of physico-chemical quantities and proper presentation and interpretation of their results. LECTURES Chemical...

• Wymagania inżynierii systemów dla maszyn wirujących (PG-00060237)

  e-Learning Courses

  • J. Szwedowicz

  Turbiny wiatrowe, gazowe, mikroturbiny, silniki lotnicze, turbosprężarki i inne systemy mechaniczne to przykłady maszyn wirujących, które wymagają wysoko wykwalifikowanych inżynierów. Powinni oni zrozumieć złożoność procesów projektowania i produkcji, w tym wytwarzania przyrostowego, oraz konserwacji prognostycznej opartej na inżynierii cyfrowej dla bezawaryjnej pracy silnika. Kurs zapewnia fundamentalną wiedzę wymaganą w przemyśle...

• PG-00060238 Standardy integralności mechanicznej dla inżynierii cyfrowej opartej na danych

  e-Learning Courses

  • J. Szwedowicz

  Kurs w zrozumiały sposób wyjaśnia praktyki inżynierskie dotyczące oceny mechanizmów awarii elementów mechanicznych, metody Stress-Life i Strain-Life, techniki liczenia cykli. Wyjaśnione modele oparte na wiedzy analitycznej są odniesione do potrzeb monitorowania silnika, które generuje dane pracy urządzeń u klientów. Dane te są wykorzystywane w rozwiązaniach inżynierii cyfrowej, takich jak digital twin (dla części) lub digital thread...

• [IMe] Selected problems of heat and mass transfer

  e-Learning Courses

  • D. Mikielewicz

  {mlang pl} Dyscyplina:  Inżynieria mechaniczna (PG + IMP PAN) Zajęcia obowiązkowe Prowadzący:  prof. dr. hab. inż. Dariusz Mikielewicz Liczba godzin: 20 h Forma zajęć: wykład {mlang} {mlang en} Discipline: mechanical engineering (GUT + IFFM PAS) Obligatory course Academic teacher: prof. dr. hab. inż. Dariusz Mikielewicz Total hours of training: 20 teaching hours Course type: lecture {mlang}

• Measurements in civil engineering, transport, environmental engineering, mining and power engineering 22/23

  e-Learning Courses

  • P. Zima

  The course is primarily open to all PhD students at Gdansk University of Technology. This course is compulsory for PhD students assigned to Civil Engineering and Transport as well as Environmental Engineering, Mining and Power Engineering tracks at Doctoral School of GUT. This course allows the PhD students to obtain the knowledge related to the experimental equipment and types of experiments carried out at GUT in the field of...

• Measurements in civil engineering, transport, environmental engineering, mining and power engineering 23/24

  e-Learning Courses

  • P. Zima

  The course is primarily open to all PhD students at Gdansk University of Technology. This course is compulsory for PhD students assigned to Civil Engineering and Transport as well as Environmental Engineering, Mining and Power Engineering tracks at Doctoral School of GUT. This course allows the PhD students to obtain the knowledge related to the experimental equipment and types of experiments carried out at GUT in the field of...

• [IMe] Modern optimisation methods

  e-Learning Courses

  • K. Tesch

  {mlang pl} Dyscyplina:  Inżynieria mechaniczna (PG+IMP PAN) Zajęcia obowiązkowe Prowadzący: dr hab. inż. Krzysztof Tesch, prof. uczelni Liczba godzin: 20 h Forma zajęć: wykład {mlang} {mlang en} Discipline: mechanical engineering (GUT + IFFM PAS) Obligatory course Academic teacher: dr hab. inż. Krzysztof Tesch, prof. uczelni Total hours of training: 20 teaching hours Course type: lecture {mlang}

• 2022_[IMe]_SELECTED_PROBLEMS_of_MACHINE_DYNAMICS

  e-Learning Courses

  • K. J. Kaliński
  • M. K. Gerigk

  {mlang pl} Dyscyplina:  Inżynieria mechaniczna (PG + IMP PAN) Zajęcia obowiązkowe  Prowadzący:  prof. dr. hab. inż. Krzysztof Kaliński Liczba godzin: 20 h Forma zajęć: wykład + ćwiczenia {mlang} {mlang en} Discipline: mechanical engineering (GUT + IFFM PAS) Obligatory course Academic teacher: dr. hab. inż. Mirosław Gerigk Total hours of training: 20 teaching hours Course type: lecture + exercises {mlang}

• Mathematical and numerical modelling,W,IDE-EMSS,IIst,sem.01,lato,2023/24 (PG_00057379)

  e-Learning Courses

  • K. J. Kaliński

  Modelling of controlled mechanical systems by the mixed method of rigid and flexible finite elements: The finite element volume problems. Dynamics of multibody systems. Modelling of stationary closed loop systems. Modelling of systems whose configuration changes with time. Modelling of nonlinear controlled systems. Optimal control at energy performance index: Control of continuous nonstationary systems in domain of generalised...