Details

FH-Prof. DI Dr.techn. Markus Vill

Head of Academic Course Technical Building Equipment, Structural Engineering and Rehabilitation Technology for the Real Estate Industry
Academic Staff


T: +43 1 606 68 77-2541
F: +43 1 606 68 77-2549

Room: P.1.01
Favoritenstraße 226
1100 Wien

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Lectures 2021/22

Building and Design

> Reinforced Concrete Construction and Massive Const…
Civil Engineering and Construction Management more

Reinforced Concrete Construction and Massive Construction 1 ILV

Lector: Priv.-Doz. DI Dr. techn. Patrick Huber, BSc., FH-Prof. DI Dr.techn. Markus Vill

1SWS
3ECTS

Lecture contents

- introduction in reinforced concrete
- material properties of reinforcement and concrete
- load-carrying behavior of reinforced concrete
- safety concepts
- basics for detailing of the reinforcement
- analysis of the ultimate limit state for bending and bending with axial force
- exercise examples

Assessment methods

written examen after the end of the lecture consisting of a theoretical part (20 minutes) and a part with design examples (90 minutes)
Allowed documents:
theory part: none
calculation part: recommended reading and notes

Teaching methods

lecture with ppt presentation
derivations and exercise examples on the white board

Language

German

> Reinforced Concrete Construction and Massive Const…
Civil Engineering and Construction Management more

Reinforced Concrete Construction and Massive Construction 2 ILV

Lector: Omar El-Mahrouk, BSc, Priv.-Doz. DI Dr. techn. Patrick Huber, BSc., FH-Prof. DI Dr.techn. Markus Vill

2SWS
4ECTS

Lecture contents

Design of reinforced concrete beams against shear and torsion
Interaction of bending and shear
Shear design of slabs (members without shear reinforcement)
Design of slabs against punching
Design of members of plain or less-reinforced concrete members

Assessment methods

Final Examen (theory and calculation examples)
20 minutes theory (20 points)
90 minuten calculation examples (80 points)
homework for extra point (5-10 points)

For a positive completion of the course 60 points are needed.

Teaching methods

lecture, PPP-presentation, whiteboard, practice-oriented examples

Language

German

> Bridge Building ILV
Civil Engineering and Construction Management more

Bridge Building ILV

Lector: FH-Prof. DI Dr.techn. Markus Vill

1SWS
2ECTS

Lecture contents

Introduction
Introduction
History of Bridge Design
Basis for the design
Overview Materials and structural systems
Loads
Basis for the Design of cross sections
Design of sustainable bridge structures
Basis for bridge equipment
Introduction construction methods

Assessment methods

written examination

Teaching methods

ILV, Presentation with project team work

Language

German

> Reinforced Concrete Construction and Massive Const…
Civil Engineering and Construction Management more

Reinforced Concrete Construction and Massive Construction 4 ILV

Lector: FH-Hon.Prof Hofrat DI Dr. Walter Potucek, FH-Prof. DI Dr.techn. Markus Vill

1SWS
4ECTS

Lecture contents

Calculation of structures
construction and calculation of plates, profiled slabs, columns and walls,
partially loaded areas,
bearing walls
special cases of the construction of beams, frameworks (beam-column),
stairs,
foundations
walls
execution of structures in reinforced concrete
basics of prestressed concrete

Assessment methods

Final examen, training-works, continuous assessment

Teaching methods

lecture, white-board, ppp-presentation, exemples of construction, trainings of construction

Language

German

> Reinforced Concrete Construction and Massive Const…
Civil Engineering and Construction Management more

Reinforced Concrete Construction and Massive Construction 1 ILV

Lector: Priv.-Doz. DI Dr. techn. Patrick Huber, BSc., FH-Prof. DI Dr.techn. Markus Vill

1SWS
3ECTS

Lecture contents

-characteristic values for steel and concrete
-mode of action of reinforced concrete
-Basics for the analysis of the ultimate limit state
-Basics for the construction of the reinforcement
-Analysis of the ultimate limit state for
-bending
-bending with axial force
-training-works

Assessment methods

ILV: S + final exam, (90 min) and case study; FL perm. M, S. Basis vor the Evaluation ist lecture "Statik und Festigkeitslehre 1VO".
20% of test can consist of the content of "Statik und Festigkeitslehre".

Teaching methods

2,5 LP VO + 0,5 LP distance learning

Language

German

> Reinforced Concrete Construction and Massive Const…
Civil Engineering and Construction Management more

Reinforced Concrete Construction and Massive Construction 2 ILV

Lector: Omar El-Mahrouk, BSc, Priv.-Doz. DI Dr. techn. Patrick Huber, BSc., FH-Prof. DI Dr.techn. Markus Vill

2SWS
4ECTS

Lecture contents

Lecture:
Ultimate limit state for sollicitations by vertical force (shear), torsion, combined effects (torsion and shear), minimum and maximum reinforcement degree, unreinforced and lightly reinforced concrete structures.
serviceability limit state: limitation of crack-widths, calculation of deformations.

distance learning: design of a simple structure of reinforced concrete

Assessment methods

Lecture: Final Exam; Distance Learning; continuous assessment

Teaching methods

lectures, white board, power point-presentations
project work in small groups, presentation of results

Language

German

> Reinforced Concrete Construction and Massive Const…
Civil Engineering and Construction Management more

Reinforced Concrete Construction and Massive Construction 3 VO

Lector: FH-Prof. DI Dr.techn. Markus Vill

1SWS
1ECTS

Lecture contents

Special cases of the dimensioning, constructions of structural elements of buildings, bearing systems, quality management, execution of structures, Basics of the prestressed concrete

Assessment methods

ILV: S + final examen; FL perm. M, S

Teaching methods

lecture, white board, ppt.presentations

Language

German

> Bridge Building ILV
Civil Engineering and Construction Management more

Bridge Building ILV

Lector: FH-Prof. DI Dr.techn. Markus Vill

1SWS
2ECTS

Lecture contents

Introduction
History of Bridge Design
Basis for the design
Overview Materials and structural systems
Loads
Basis for the Design of cross sections
Design of sustainable bridge structures
Basis for bridge equipment
Introduction construction methods

Assessment methods

written examination 60 min.

Teaching methods

ILV, Presentation with project team work

Language

German

> Reinforced Concrete Construction and Massive Const…
Civil Engineering and Construction Management more

Reinforced Concrete Construction and Massive Construction 4 ILV

Lector: FH-Hon.Prof Hofrat DI Dr. Walter Potucek, FH-Prof. DI Dr.techn. Markus Vill

1SWS
4ECTS

Lecture contents

Special cases for the design, building structures, quality management, construction of concrete structures, basic information of prestressed concrete structures

Assessment methods

ILV: oral examination with assessment of project team work

Teaching methods

Presentaion with project team work

Language

German

> Bridge Building ILV
Civil Engineering and Construction Management more

Bridge Building ILV

Lector: DI Herbert Kothmayer, FH-Prof. DI Dr.techn. Markus Vill

2SWS
2ECTS

Lecture contents

- Design and pre-dimensioning of beam bridges made of reinforced and prestressed concrete (slab, slab beam, box girder, trough cross-section) including frame bridges
- Bridge equipment (bearings, edge beams, expansion joints, drainage)
- Design and preliminary dimensioning of substructures (abutment, support bench, wings, foundation)
- Checks for ultimate and serviceability limit states

Assessment methods

Final exam
written examination, 120 min, division of the examination subjects to approx. 50% Kothmayer, approx. 50% Vill; for a positive conclusion 60% of the total points of the whole examination are necessary. In case of non-achievement the whole examination has to be repeated.

Teaching methods

ILV

Language

German

> Repair of Engineering Structures ILV
Civil Engineering and Construction Management more

Repair of Engineering Structures ILV

Lector: Dipl.-Ing.(FH) Reinhard Pamminger, DI. Dr.techn. Anton Pech, FH-Prof. DI Dr.techn. Markus Vill

2SWS
4ECTS

Lecture contents

- Surface preparation
- Concrete replacement
- Crack filling
- Cavity filling
- Surface protection
- Remove drill cores St 927/15
- Perform tear strength test
- Record flatness
- Determine roughness depth
- Preparation of measurement and execution documents for compensation gradients
Masonry drying section: Fundamentals of moisture in masonry, analyses and restoration concepts, procedures against capillary moisture rise and accompanying measures

Assessment methods

Final exam
Due to the Covid 19 situation and the holding of LV according to the traffic light regulation of the BMBWF, the examination modalities can also be adapted at short notice during the current semester.

Teaching methods

Masonry drying section: Lecture

Language

German

> Building and Industrial Construction 2 VO
Civil Engineering and Construction Management more

Building and Industrial Construction 2 VO

Lector: FH-Prof. DI Dr.techn. Markus Vill, DDI Wolfgang Wallisch

2SWS
2ECTS

Lecture contents

Hall systems; Prefabricated parts; Connections in prefabricated construction; Inserts in concrete structures; Foundations in hall construction; Construction work and construction supervision; Use of glass as a building material in building construction; Prestressed systems

Assessment methods

Final exam
Final exam (written)
The whole examination (Vill, Wallisch) must be positive (at least 60% of the maximum score)
Time: 90 min

Teaching methods

Lecture with calculation and practical examples

Language

German

Publications

The publications of Markus Vill written at FH Campus Wien can be found in our publication database, others in the personal web space.