Andrea Frangi: Catalogue data in Autumn Semester 2020

Name Prof. Dr. Andrea Frangi
Address
Inst. f. Baustatik u. Konstruktion
ETH Zürich, HIL E 45.1
Stefano-Franscini-Platz 5
8093 Zürich
SWITZERLAND
Telephone+41 44 633 26 40
E-mailfrangi@ibk.baug.ethz.ch
URLhttp://www.frangi.ibk.ethz.ch/
DepartmentCivil, Environmental and Geomatic Engineering
RelationshipAdjunct Professor

NumberTitleECTSHoursLecturers
101-0169-00LTimber Structures III Restricted registration - show details
Prerequisite: Timber Structures I (101-0168-00L)
3 credits2GA. Frangi, R. Jockwer, M. Klippel, S. M. Schoenwald, R. Steiger
AbstractConsolidation and supplementation of the basic knowledge acquired in Timber Structures I + II. Treatment of current topics and innovations in timber engineering. Structural design and refurbishment of complex timber structures with high requirements for earthquake resistance, sound insulation and fire protection. Description, analysis and discussion of an existing timber structure in groups.
ObjectiveIn-depth understanding of the theoretical and design aspects of timber construction. Dimensioning, structural design, optimisation and refurbishment of complex timber structures with high requirements for earthquake resistance, sound insulation and fire protection.
ContentMulti-storey timber buildings (general, cross laminated timber, high-rise buildings, fire protection, sound insulation), Post-tensioned timber constructions, building with hardwood, robustness of timber structures, earthquake-resistant timber structures, maintenance and renovation of structures.
Lecture notesAutography Timber Structures
Copies of lecture slides
LiteratureTimber design tables HBT 1, Lignum
Swiss Standard SIA 265
Swiss Standard SIA 265/1
Eurocode 5
Prerequisites / NoticeTimber Structures I + II
101-0637-01LTimber Structures I
Remark: Students in Civil Engineering must enrol this course as a year course Timber Structures I+II.
3 credits2GA. Frangi, I. Burgert, G. Fink, R. Steiger
AbstractConceptual design, detailing and structural analysis of multi-storey timber buildings as well as timber roof structures and halls.
ObjectiveComprehension and application of basic knowledge of structural timber design including material behaviour especially anisotropy, moisture and long duration effects and their consideration in structural analysis and detailing.
Conceptual design, detailing and structural analysis of multi-storey timber buildings as well as timber roof structures and halls.
ContentField of application of timber structures; Timber as building material (wood structure, physical and mechanical properties of wood and wood-based products); Durability; Principles of design and dimensioning; Connections (dowels, nails, screws, glued connections); Timber components and assemblies (mechanically jointed beams, trusses); Design and detaling of multi-storey timber buildings as well as timber roof structures and halls.
Lecture notesAutography Timber Structures
Copies of lecture slides
LiteratureTimber design tables HBT 1, Lignum
Swiss Standard SIA 265
Swiss Standard SIA 265/1
Eurocode 5
101-1187-00LColloquium in Structural Engineering0 credits2KW. Kaufmann, E. Chatzi, A. Frangi, B. Stojadinovic, B. Sudret, A. Taras, M. Vassiliou, T. Vogel
AbstractProfessors from national and international universities, technical experts from the industry as well as research associates of the institute of structural engineering (IBK) are invited to present recent research results and specific projects from the practice. This colloquium is adressed to members of universities, practicing engineers and interested persons in general.
ObjectiveLearn about recent research results in structural engineering.
121-0100-00LModule 1: Fire Science Restricted registration - show details
Only for MAS ETH in Fire Safety Engineering.
10 credits9GA. Frangi, P. Jenny, M. Klippel, B. Merci, A. Schälin, M. Siemon, B. Zoller
Abstract
Objective
121-0110-00LModule 2: Fire Safety Design Restricted registration - show details
Only for MAS ETH in Fire Safety Engineering.
10 credits9GA. Frangi, G. De Sanctis, K. Fischer, S. Marelli, B. Sudret
Abstract
Objective