Scientific
Assistant |
Room: |
PB-A 204
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0000-0002-1358-8267
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Researchgate
Publons
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Address:
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Universität Siegen
Fakultät IV, Department
Maschinenbau
Lehrstuhl für
Festkörpermechanik
Paul-Bonatz-Str. 9-11
57076 Siegen
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Route:
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calculate with
Google maps |
Phone: |
+49 271 740
4644 |
E-Mail: |
soeren.bieler@uni-siegen.de |
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Consultation-hour:
Friday 10:30 - 11:30 am
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Fields of
activity:
- Experimental
investigations of dynamical
material properties in a
high strain rate
regime
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Publications:
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Bieler,S., Haller, S.,
Brandt, R., Weinberg, K.:
Experimental Investigation
of Unidirectional
Glass-Fiber-Reinforced
Plastics under High Strain
Rates. MDPI; Applied
Mechanics (2023)
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Kang,S.-G., Gainov, R.,
Heußen, D., Bieler, S.,
Sun, Z., Weinberg, K.,
Dehm, G.,
Ramachandramoorthy, R.:
Green laser powder bed
fusion based fabrication
and rate-dependent
mechanical properties of
copper lattices
Geometrically Nonlinear
Optimum Solid Structures at
Random Force Strengths.
Materials & Design
(2023)
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Werner, M., Bieler, S.,
Weinberg, K.: Topology
Optimization with Matlab:
Geometrically Nonlinear
Optimum Solid Structures at
Random Force Strengths.
Solids (2023)
- Bieler,
S.,Weinberg, K.: Split
Hopkinson pressure bar
experiments on additve
manufactured lattice
structures with different
volume fractions. DYMAT
26th Technical Meeting
(2022)
- Bieler, S.,
Weinberg, K.: Behavior of
additvely manufactured
lattice structures under
compressive loading. PAMM
22 (1),(2022),
202200305
- Bieler, S.,
Kang, S.G., Heußen, D.,
Ramachandramoorthy, R.,
Dehm, G., Weinberg, K.:
Investigation of copper
lattice structures using a
Split Hopkinson Pressure
Bar. PAMM 21 (1),(2021),
202100155
- Aghayan,
S., Bieler, S. &
Weinberg, K.:
Determination of the
high-strain rate elastic
modulus of printing resins
using two different Split
Hopkinson pressure bars.
Mechanic of Time-Dependent
Materials (2021).
- Bieler, S.,
Weinberg, K. : Correction
of Wave Signals for PMMA
Split Hopkinson Pressure
Bar Setups. PAMM 20 (1),
(2020), 202000143
- Aghayan,
S., Bieler, S., Reppel, T.,
Weinberg, K. : Experiment
on wave propagation in soft
resins. PAMM 19 (1),
(2019), e201900187
- Aghayan,
S., Reppel, T., Bieler, S.,
Weinberg, K. : Experiments
on wave propagation in soft
materials. PAMM 18 (1),
(2018), e201800346
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Presentations:
- Lattice structures a an
energy absorbing component
for impact loads, GAMM 2024:
94th Annual Meeting,
Universität Magdeburg, March, 18.-22.
2024.
- Behavior of additively
manufactured lattice
structures under dynamic
loading, GAMM Fachausschuss
Experimentelle
Festkörpermechanik, TU
Chemnitz, May
9th 2023.
- Split
Hopkinson pressure bar
experiments on additive
manufactured lattice
structures with different
volume fractions,
DYMAT 2022: 26th
Technical Meeting,
Frauenhofer EMI Freiburg,
September 11.-14. 2022.
- Behavior of
additively manufactured
lattice structures under
compressive loading,
GAMM 2022:
92nd Annual Meeting, RWTH
Aachen, August 15.-19.
2022.
- Correction of
wave signals for PMMA Split
Hopkinson pressure bar
setups, GAMM 2022:
91nd Annual Meeting,
Kassel, March 15.-19.
2021.
- Untersuchung der
Wellenausbreitung in
Materialien der additiven
Fertigung mithilfe einer
Split-Hopkinson Pressure
Bar, Sitzung des
Arbeitskreises für
Stoffgesetze, TU Berlin,
Juni 14th
2019.
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Supervised
courses:
- Mechanics of materials
I
- Mechanics of materials
II
- Viscoelasticity
theory
- Höhere
Festigkeitslehre
- Elastostatics
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Supervised Diploma,
Bachelor-and Master
Thesis:
- FEM-Analyse
nichtlinearer Prüfkörper
mittels Abaqus zur
Split-Hopkinson Pressure
Bar-Optimierung
(Masterarbeit, S. Runkel
2022)
- Analyse und Optimierung
hydrostatischer
Lünettenbacken aus PA 12
mittels FEM unter
Berücksichtigung der
temperaturabhängigen
Werkstoffeigenschaften
(Masterarbeit, J.
Kuhlenberg, 2022)
- Simulationsgestützte
Bewertung
thermo-mechanischer
Spannungen in
Isolationsmaterialien für
die Leistungselektronik
(Masterarbeit, H. Foester,
2021)
- Ermittlung dynamischer
Materialeigenschaften
additiv gefertigter
Probengeometrien durch den
Split-Hopkinson Pressure
Bar Versuch (Studienarbeit:
E. Sahin, F. Aydin,
2020)
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