- Docente: Franco Persiani
- Credits: 9
- SSD: ING-IND/04
- Language: Italian
- Moduli: Franco Persiani (Modulo 1) Raimondo Alberto Bernabeo (Modulo 2)
- Teaching Mode: Traditional lectures (Modulo 1) Traditional lectures (Modulo 2)
- Campus: Forli
- Corso: First cycle degree programme (L) in Aerospace Engineering (cod. 8263)
Learning outcomes
The course aims at providing students with:
- a general overview of different types of aircraft architectures and aeronautical structures
- an overview of airframe loads, design requirements and aeronautical regulations
- simplified methods for evaluating stresses in aircraft structures
- basic know-how about typical aircraft structures problems, like instability of thin panels and stringers
Course contents
Part I
Introduction.
Aircraft architecture. Wing geometry.
Aircraft structures classification.
Stresses evaluation in thin-walled structures.
Beam sections geometric
characteristics evaluation (centre of gravity, inertia moments,
etc.).
Normal and shear stresses evaluation
in thin-walled beams. Shear centre.
Airframe loads.
Load factor determination.
Symmetrical manoeuvres loads. Flight
envelope.
Gust analysis and gust
envelope.
Horizontal tail static and dynamic
balancing loads.
Unsymmetrical loads due to a roll
manoeuvre.
Landing loads: 1 and 2 degrees of
freedom dynamic models; landing loads evaluation depending on
aircraft attitude.
Part II
Aircraft structures.
Truss structures;
beams.
General overview of different types
of fuselages, engine mounts, cantilever and strut-braced wings,
single and multiple spar wing structures.
Semimonocoque structures.
Description and
definition.
Loads evaluation for a thin panel
with a constant shear flow.
Evaluation of stringers normal
stresses and panels shear stresses in a semimonocoque structure.
Shear centre.
Multicell beam
sections.
Ribs and frames
analysis.
Tapered
structures.
Cut-outs
effects.
Joints and fittings.
Bolted and riveted joints. Loads
evaluation. Joints and fittings safety margins
evaluation.
Structures instability.
Introduction.
Long and short columns instability:
Euler equation and Johnson relations.
Buckling of flat sheet in compression
and bending.
Buckling of stiffened sheet in
compression: effective sheet width.
Pure tension field
beams.
Curved sheet in
compression.
Readings/Bibliography
Since January 2009 lessons notes and written tests (both in italian
language)are available atAMS campus.
This material is partially available at the following web
page:
http://www.ingfo.unibo.it/servizi/Programmi/2007-2008/costr_aer/costruzioni_aeronautiche.html
The following texts are recommended for further
investigations:
- T.H.G. Megson, "Aircraft Structures for engineering students", Arnold (London) 1999
- E.F. Bruhn, "Analysis and design of flight vehicle structures", Jacobs Publishing inc. 1973
- M.C.Y. Niu, "Airframe structural design. Practical design information and data on aircraft structures", Conmilit Press Ltd. 1988
- M.C.Y. Niu, "Airframe stress analysis and sizing", Conmilit Press Ltd. 1988
- M.C.Y. Niu, "Composite airframe structures", Conmilit Press Ltd. 1988
- D.J.Peery, J.J. Azar, "Aircraft Structures", McGraw-Hill 1982
- V. Giavotto, "Strutture aeronautiche", edizioni CLUP Milano 1976
- D.P. Raymer, "Aircraft design: a conceptual approach", AIAA Education series, NewYork (NY) 1999
- A. Lausetti, "L'aeroplano progetto-strutture-installazioni", Levrotto& Bella
- G. Gabrielli, "Lezioni sulla scienza del progetto degli aeromobili", vol. II, Levrotto & Bella
Teaching methods
Lessons and practical applications.
Assessment methods
Written and oral examination: oral examination is subject to the written test approval.
During the written testit is forbidden to refer to any book, note or solved exercise.
Teaching tools
Slideshows (PPT and/or PDF formats)
Lesson Notes
Examples and solved exercises
Office hours
See the website of Franco Persiani
See the website of Raimondo Alberto Bernabeo