Dr. Eng, PhD Michał Böhm


Introduction

I'm mainly focused on fatigue and material related problems. I'm open to any interesting topic, which might be a new challenge. If You are searching for help, please do not hesitate to contact me.
I have started my adventure with Mechanical Engineering in the year 2005 when I started the Master program in Mechanical Engineering at the Faculty of Mechanical Engineering at the Opole University of Technology. I obtained my PhD degree in Mechanics in 2014 also in Opole. During this time I was a multiple Rector/EU fund scholarship recipient for the best students/PhD candidates. I was the first student from our University which studied at our first partner Chinese University, the Beijing University of Technology in 2008 during a summer program for the Business and Language for foreigners program. I also took part in the Winter School program at the Technische Hochschule Ingolstadt in 2012. As for my international work at the University I have taken part in the creation of the Confucius Institute in Opole in 2008 and the BSc and MSc program for Mechanical Engineering students held in English at our University in 2017, in which I am currently the caretaker of international students. I am teaching two programs for Erasmus students one in Strength of Materials and the second in Engineering Vibration Analysis of Mechanical Systems.

Quick Academia Bio:
•Assistant, Faculty of Mechanical Engineering, Opole University of Technology, 2012-2015;
•Assistant professor, Faculty of Mechanical Engineering, Opole University of Technology, 2015-present;
•Expert in residual stress tests, AS mechanical laboratory, 2018-2020;
•Manager and contractor of projects financed by the Polish National Science Center and National Center for Research and Development.
Memberships in Scientific Societies:
•Polish Society of Theoretical and Applied Mechanics (member of the board and secretary of the Opole branch since 2015);
•European Structural Integrity Society.
Scientific and professional linked profiles:

I am mostly known for fatigue life estimation methods, especially defined in the frequency domain for  various materials such as steel, aluminum and composite materials. I have published altogether over 70 literature positions such as: various journal and conference papers as well as book chapters and books. I am currently working on a number of research topics focused mostly on the use of frequency domain methods as well as the problems of polymers and composite materials in terms of the influence of random loading. I am running a broad international scientific cooperation network with partners in Germany, Belgium, Italy and China. I have reviewed for multiple JCR high ranking journals. Currently I am a reviewer board member for many high impact journals such as Materials, Polymers, etc. and am the topic board member for the journal Crystals. I was also an editor for the special issue in this journal.
Full publication list

Scientific projects/grants I have been or still am working on:
Project title
Budget (PLN)
Source of
financing
Implementation
period Project
Implemented
within the
consortium
Role in the project
Main effects of the
project
Wpływ odkształceń sprężysto-
plastycznych na trwałość
obliczeniową wyznaczaną
metodą spektralną nr
2013/09/N/ST8/04332
(Influence of the elastic-plastic
deformations on the
calculated fatigue life
determined by means of the
spectral method)
81 400 PLN
Narodowe
Centrum Nauki
(National Science
Center)
2014
2016
No
Project Manager
A new method of
taking into
account elastic-
plastic
deformations in
the spectral
method of
determining
fatigue life
Uwzględnienie wpływu
wartości średniej    naprężenia
na obliczeniową trwałość
zmęczeniową w metodzie
spektralnej nr DEC-
2012/05/B/ST8/02520
(Consideration of the effect of
mean stress value on the
calculated fatigue live in terms
of spectral method)
436 560 PLN
Narodowe
Centrum Nauki
(National Science
Center)
2013
2016
No
investigator
A new method of
considering the
influence of the
mean stress value
in the spectral
method of
determining the
fatigue life
Zastosowanie momentów
zwykłych i centralnych
wyższych rzędów w algorytmie
wyznaczania trwałości
zmęczeniowej metodą
spektralną 2016/23/B/ST8/03408
(Application of the ordinary
and central moments of higher
order in the algorithm for
determining the fatigue life by
the spectral method)
476 400 PLN
Narodowe
Centrum Nauki
(National Science
Center)
2017
2020
No
investigator
Taking into
account the
influence of higher
order moments in
the spectral
method of
determining
fatigue life
Przeprowadzenie badań
przemysłowych i prac
rozwojowych nad
nowoczesnymi rozwiązaniami
dla spawalnictwa w Spółka AS
Nakonieczny Andrzej Werakso
Bartłomiej Nr projektu:
RPOP.01.01.00-16-0021/17-00
(Conducting industrial research
and development works on
modern solutions for welding in
the company AS Nakonieczny
Andrzej Werakso Bartłomiej)
4 188 345 PLN
Projekt
dofinansowany z
funduszów
Unijnych I Oś
priorytetowa:
Innowacje w
Gospodarce
Działanie 1.1:
Innowacje w
przedsiębiorstwac
h
(Local EU financed 
project for
companies within
the Opole region)
2018
2020
No
investigator
Development and
verification of an
innovative method
of testing intrinsic
stresses of welded
joints (DMS),
monolithic
materials as well as
castings and steel
products used as
structural elements
in industry and
construction, both
on the surface of
the tested element
and in the
spectrum of its
total cross-section
Opracowanie technologii
produkcji lekkiego wspornika
dla nowych nadwozi
samochodów osobowych
POIR.04.01.04-00-0093/17
(Development of a technology
for the production of a light
bracket for new passenger car
bodies)
4 004 389.75 PLN
Narodowe
Centrum Badań i
Rozwoju
(National Centre
for Research and
Development)
2018
2021
Yes
investigator
Development of a
new technology
for lightweight
automotive
brackets
Opracowanie nisko-
odpadowej technologii
platerowania wybuchowego
oraz technologii przetwarzania
wielowarstwowych,
wysokowytrzymałościowych
materiałów lekkich i
superlekkich z warstwami
reaktywnymi i funkcjonalnymi
oraz blach platerowanych
wybuchowo metalami
reaktywnymi i ich stopami.
2/412341/8/NCBR/2019
(Development of low-waste
technology of explosive
cladding and processing
technology of multi-layer, high-
strength light and super light
materials with reactive and
functional layers as well as
sheets of explosive cladding
with reactive metals and their
alloys.)
13 685 431 PLN
Narodowe
Centrum Badań i
Rozwoju
(National Centre
for Research and
Development)
2019
2021
Yes
investigator
Development of a
new technology
for explosive
cladding and
processing
technology for
multi-layer plating
with reactive layers
Centrum wiedzy o dostępności
i upowszechniania zasad
projektowania uniwersalnego
w obszarze designu i
przedmiotów codziennego
użytku POWR.03.05.00-IP.08-
00-CWD/20 (Knowledge
center about the accessibility
and dissemination of the
principles of universal design
in the area of design and
everyday objects)
2 374 500,45
PLN
Narodowe
Centrum Badań i
Rozwoju
(National Centre
for Research and
Development)
2021
2023
Yes
Project Manager
The main goal of the
project is to create a
Knowledge Center
about the
accessibility and
dissemination of
universal design
principles in the area
of design and
everyday objects at
the Opole University
of Technology as a
unit supporting the
application and
dissemination of
universal design
principles in the field
of higher education.
Pionierski model szacowania
trwałości zmęczeniowej
bazujący na procesie
Gaussowskim i uczeniu
maszynowym
2021/41/B/ST8/00257 (A
pioneering model of fatigue life
estimation based on the
Gaussian process and machine
learning)
381 860 PLN
Narodowe
Centrum Nauki
(National Science
Center)
2022
2025
No
investigator
This research project
aims to develop a
different, innovative
approach to
estimating fatigue
durability based on
the Gaussian
process with
machine learning.
The proposed model
based on the
Gaussian process is
a self-learning
approach capable of
adapting any fatigue
property of the
material
Opracowanie systemów „druk
3D - natrysk termiczny” do
zastosowań przy obciążeniu
dynamicznym i udarowym M-
ERA.NET 2
2020/02/Y/ST8/00093
(Development of “3D print-
thermal spray” systems for
applications with dynamic and
impact loading DePriSS)
969 950  EUR
Narodowe
Centrum Nauki
(National Science
Center) M-ERA.NET
2
2022
2025
Yes
investigator
The main goal of the
project is the
development of 3D
printing technology,
extending the
technology with a
thermal spray
system, creating a
layer resistant to
wear and corrosion.
The coating
composition and
process parameters
will be optimized. The
results will improve
the strength and
durability of
components
produced with
additive technology
and allow for a wider
range of applications,
including in energy,
aviation, automotive,
civil engineering, etc.

 
 
 
 
Location:
Department of Mechanics and Machine Design
at the Faculty of Mechanical Engineering,
Office room B315
Address:
ul. Mikołajczyka 5, 45-271 - Opole, Poland
email:
tel:
+48 77 449 84 18
Office hours:
 
Michał Böhm 2022