317.532 Experimental Mechanics and Characterization of the Hierarchical Structure of Biological Tissues
This course is in all assigned curricula part of the STEOP.
This course is in at least 1 assigned curriculum part of the STEOP.

2023S, VO, 2.0h, 3.0EC

TUWEL course

Properties

Semester hours: 2.0
Credits: 3.0
Type: VO Lecture
Format: Presence

Learning outcomes

After successful completion of the course, students are able to describe and explain experimental methods for structural and mechanical characterization of biological tisses. Students will further be able to describe and explain the most important state-of-the-art instruments used for such characterization as well as details on sample preparation, data analysis and potential sources for errors and/or artefacts.

Subject of course

The following techniques will be explained in terms of measurement principles and common data analysis procedures:

Introduction and Macromechanical tests
Micro- and Nanoindentation (conventional and AFM-based), Reference point microindentation, techniques, instrumentation, measurements, contact mechanics and resulting analysis techniques, pitfalls and problems
Atomic force microscopy (AFM) imaging modes, force mode (indentation, force spectroscopy mode) and combination with mechanical testing and sample preparation considerations for AFM experiments
Scanning electron microscopy, review of measurement principle, secondary electron imaging mode, backscattered imaging mode and quantitative backscattered imaging mode
Focused Ion Beam milling of hard tissue structures and theory, current research, limitations and challenges
Miniature and micro-mechanical tests of biological tissues
Micro-computed tomography, morphological parameters, porosity, crack propagation
Small angle x-ray scattering, principles, measurement of bone hydroxyapatite crystal T-parameter, collagen banding and collagen strain measurement during tensile loading
Raman-spectroscopy & FTIR, measurement principles and application to bone
Polarized light microscopy, Second harmonic generation, Quantitative polarized light microscopy and collagen orientation

Teaching methods

Lecture supported by digital presentations; discussion of case studies

Mode of examination

Oral

Lecturers

Institute

E317 Institute of Lightweight Design and Structural Biomechanics

Course dates

Day	Time	Date	Location	Description
Thu	09:00 - 11:00	02.03.2023 - 11.05.2023	Seminarraum BE 01	Experimental Mechanics and Characterisation of Biological Tissues
Fri	09:00 - 11:00	03.03.2023 - 12.05.2023	Seminarraum BE 01	VO Experimental Mechanics and Characterisation of Biological TissuesTissue Biomechanics

Show single appointments

Experimental Mechanics and Characterization of the Hierarchical Structure of Biological Tissues - Single appointments

Day	Date	Time	Location	Description
Thu	02.03.2023	09:00 - 11:00	Seminarraum BE 01	Experimental Mechanics and Characterisation of Biological Tissues
Fri	03.03.2023	09:00 - 11:00	Seminarraum BE 01	VO Experimental Mechanics and Characterisation of Biological TissuesTissue Biomechanics
Thu	09.03.2023	09:00 - 11:00	Seminarraum BE 01	Experimental Mechanics and Characterisation of Biological Tissues
Fri	10.03.2023	09:00 - 11:00	Seminarraum BE 01	VO Experimental Mechanics and Characterisation of Biological TissuesTissue Biomechanics
Thu	16.03.2023	09:00 - 11:00	Seminarraum BE 01	Experimental Mechanics and Characterisation of Biological Tissues
Fri	17.03.2023	09:00 - 11:00	Seminarraum BE 01	VO Experimental Mechanics and Characterisation of Biological TissuesTissue Biomechanics
Thu	23.03.2023	09:00 - 11:00	Seminarraum BE 01	Experimental Mechanics and Characterisation of Biological Tissues
Fri	24.03.2023	09:00 - 11:00	Seminarraum BE 01	VO Experimental Mechanics and Characterisation of Biological TissuesTissue Biomechanics
Thu	30.03.2023	09:00 - 11:00	Seminarraum BE 01	Experimental Mechanics and Characterisation of Biological Tissues
Fri	31.03.2023	09:00 - 11:00	Seminarraum BE 01	VO Experimental Mechanics and Characterisation of Biological TissuesTissue Biomechanics
Thu	20.04.2023	09:00 - 11:00	Seminarraum BE 01	Experimental Mechanics and Characterisation of Biological Tissues
Fri	21.04.2023	09:00 - 11:00	Seminarraum BE 01	VO Experimental Mechanics and Characterisation of Biological TissuesTissue Biomechanics
Thu	27.04.2023	09:00 - 11:00	Seminarraum BE 01	Experimental Mechanics and Characterisation of Biological Tissues
Fri	28.04.2023	09:00 - 11:00	Seminarraum BE 01	VO Experimental Mechanics and Characterisation of Biological TissuesTissue Biomechanics
Thu	04.05.2023	09:00 - 11:00	Seminarraum BE 01	Experimental Mechanics and Characterisation of Biological Tissues
Fri	05.05.2023	09:00 - 11:00	Seminarraum BE 01	VO Experimental Mechanics and Characterisation of Biological TissuesTissue Biomechanics
Thu	11.05.2023	09:00 - 11:00	Seminarraum BE 01	Experimental Mechanics and Characterisation of Biological Tissues
Fri	12.05.2023	09:00 - 11:00	Seminarraum BE 01	VO Experimental Mechanics and Characterisation of Biological TissuesTissue Biomechanics

Examination modalities

Oral exam at the end of the term or further along the line on appointment. Estimated duration: … minutes

Exams

Day	Time	Date	Room	Mode of examination	Application time	Application mode	Exam
Wed	09:00 - 10:30	29.05.2024	Seminarraum BE 01	oral	01.05.2024 17:00 - 27.05.2024 22:00	TISS	Exam EMCT

Course registration

Begin	End	Deregistration end
02.02.2023 09:00	31.03.2023 23:00	31.03.2023 23:00

Curricula

Study Code	Obligation	Semester	Precon.	Info
066 453 Biomedical Engineering	Not specified

Literature

No lecture notes are available.

Language

English