SPACE STRUCTURES Prof. Alessandro Airoldi INTRODUCTION TO THE COURSE.
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Transcript of SPACE STRUCTURES Prof. Alessandro Airoldi INTRODUCTION TO THE COURSE.
![Page 1: SPACE STRUCTURES Prof. Alessandro Airoldi INTRODUCTION TO THE COURSE.](https://reader036.fdocuments.in/reader036/viewer/2022062314/56649e6c5503460f94b6abbe/html5/thumbnails/1.jpg)
SPACE STRUCTURESProf. Alessandro Airoldi
INTRODUCTION TO THE COURSE
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2Space Structures - Prof. Alessandro Airoldi
Introduction to the course
Objectives of the course
Stressed skin constructions in aircraft structures
Loads in space structures
Examples of space structures
Contents and organisation of the course
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3Space Structures - Prof. Alessandro Airoldi
Objectives of the course
Approaches to the analysis of structures in aerospace
constructions
Introduction to the course
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4Space Structures - Prof. Alessandro Airoldi
Introduction to the course
Aerospace constructions Aerospace structures
THRUST
INE
RT
IAL
LO
AD
AERODYNAMIC LOADS AERODYNAMIC
LOADS
INERTIAL LOAD
Structure works to transfer the applied
loads
Force equilibrium (D’Alembert principle)
Such considerations apply to all type of structures (not only aerospace structure)
Objectives of the course
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5Space Structures - Prof. Alessandro Airoldi
Introduction to the course
Stiffness
THRUST
INE
RT
IAL
LO
AD
AERODYNAMIC LOADS AERODYNAMIC
LOADS
INERTIAL LOAD
Objectives of the course
Requirements:Limitation to the relative displacements due to functional requirements (e.g. aerodynamics)
Avoid frequency coupling (resonance)
StrengthAvoid permanent deformation and the collapse of the structures under operative load
Shape ConstraintsAERODYNAMICS, INTERNAL VOLUMES FOR PAYLOADS
OBJECTIVE: perform structural functions, fullfilling requirements, respect constraints with
MINIMUM WEIGHT
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6Space Structures - Prof. Alessandro Airoldi
Introduction to the course
Objectives of the course
Why analysis ?
Analysis of existing structures helps understanding the functions of structural elements, critical issues in design, the available solution for design (synthesis)
Design is an iterative process, which involve analysis of design hypothesis at different level of detail
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7Space Structures - Prof. Alessandro Airoldi
Introduction to the course
Objectives of the course
Enhance the capability to apply the approaches of structural mechanics to the structural types that are employed in aerospace structure. Given the applied loads:
-methods for the evaluation of internal stress and strain states
-methods for the evaluation of stiffness, displacements, natural frequencies
Learn the main features of aerospace structures: comprehension of structural roles, capability to critically analyse a structure
Achieve the bases for a proper use of structural calculation software: knowledge of principles, technologies, limitations
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8Space Structures - Prof. Alessandro Airoldi
Introduction to the course
Stressed skin constructions in aircraft structuresThe peculiar and severe requirements for aircraft structures led to the development of a very effective structural typology:
Thin load bearing skin (stressed skin), reinforced by longitudinal stringers and internal frames
SEMI-MONOCOQUE STRUCTURES
They still represent the basic structural concept in aerospace structures, together with
TRUSS STRUCTURES
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9Space Structures - Prof. Alessandro Airoldi
Introduction to the course
Stressed skin constructions in aircraft structures
Motivations for the development of stressed skin constructions can be traced to the beginning of flight
TRUSS STRUCTURE
INTERNAL FRAMES (RIBS) AND LONGITUDINAL REINFORCEMENT (SPARS)
FABRIC COVER
Biplane (1916)
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10Space Structures - Prof. Alessandro Airoldi
Introduction to the course
Stressed skin constructions in aircraft structures
2
2
1VCS
Qp
High pitch angle
Low pitch angle
WING TORSION
Torsional stiffness: critical issue in wing design
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11Space Structures - Prof. Alessandro Airoldi
Introduction to the course
Stressed skin constructions in aircraft structures
Torsional stiffness of biplane wings
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12Space Structures - Prof. Alessandro Airoldi
Introduction to the course
Stressed skin constructions in aircraft structuresHurricane had originally a fabric cover (1935)
All metal stressed skin provided in 1939
Load bearing skin provides a closed high-stiffness path for shear stress, contribute to bending stress and stiffness
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13Space Structures - Prof. Alessandro Airoldi
Introduction to the course
Stressed skin constructions in aircraft structures
Semi-monocoque structure (1943)
Thin load bearing skin (stressed skin), reinforced by longitudinal stringers and internal frames
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14Space Structures - Prof. Alessandro Airoldi
Introduction to the course
Stressed skin constructions in aircraft structures
Modern airliner structure
COMPOSITE VERTICAL TAIL WITH SEMI-MONOCOQUE MORPHOLOGY
CLOSELY SPACED FRAME AND RIBS (internal diaphragm in fuselage and wing
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15Space Structures - Prof. Alessandro Airoldi
Introduction to the course
Stressed skin constructions in aircraft structuresWing box and ribs
Integrally stiffened composite skin
REAR SPAR
FWD SPAR
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16Space Structures - Prof. Alessandro Airoldi
Introduction to the course
Stressed skin constructions in aircraft structures
Type of diaphragms and
instability
TRUSS STRUCTURES
C – SHAPED BEAMS WITH VARIABLE SECTION AND CUTOUTS
CLOSED LOOP OF BEAMS WITH L, C, Z or other shape SECTIONS
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17Space Structures - Prof. Alessandro Airoldi
Introduction to the course
Stressed skin constructions in aircraft structures
Tail structure and bulkheads
AIRBUS A 300 TAILBULKHEAD WORKING UNDER PRESSURE LOADS
A380 COMPOSITE BULKHEAD
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18Space Structures - Prof. Alessandro Airoldi
Introduction to the course
Stressed skin constructions in aircraft structures
Supersonic fighters
WINGS BECOME VERY THIN AND STRINGERS ARE MERGED IN A SERIES OF SPARS
FUSELAGE FRAMES ARE MORE SPACED DUE TO NEED OF LARGE CUT-OUTS (Cockpit, cut-out inspections of engines, air inlets)
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19Space Structures - Prof. Alessandro Airoldi
Introduction to the course
Loads in space structures
Natural environment: climatic, thermal, chemical and vacuum conditions, required cleanliness, levels of radiation and the meteoroid and space debris environment.
ground handling launch manoeuvres and disturbances re-entry descent and landing Additional induced loads, which include static pressure within the payload
volume, temperature and thermal flux variations
Mechanical and thermal loads that are induced by operation of spacecraft:
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20Space Structures - Prof. Alessandro Airoldi
Introduction to the course
Loads in space structures
Ground handling and transportation loads
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21Space Structures - Prof. Alessandro Airoldi
Introduction to the course
Loads in space structures
Ground handling and transportation loads
<<
a
-la
RaRb Rc Rd
g
a
weigth
forcesinertia
mg
maa
mgL
l 1
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22Space Structures - Prof. Alessandro Airoldi
Introduction to the course
Loads in space structures
Launch
3.7g
7 g
4.2 g
THRUST
INE
RT
IAL
LO
AD
Launch phase corresponds to the most severe loads
Launcher structure is heavily compressed
SATURN V
ARIANE V
MODIFIED ICBM LAUNCHER
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23Space Structures - Prof. Alessandro Airoldi
Introduction to the course
Loads in space structures
Loads are typically transient loads, vibration loads
When load are applied for an extended period of time they can be considered static (g loading / steady state accelerations)
The design load factors are represented by Quasi Static Loads, which are the most sever combination of dynamic and steady state acceleration
Ariane V QSL
COMPRESSIVE LOADS ARE THE HIGHESTLATERAL LOADS BEND THE STRUCTURE AND CAN NOT BE NEGLECTED
Axi
al g
load
s
Late
ral g
loa
ds
<<
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24Space Structures - Prof. Alessandro Airoldi
Introduction to the course
Loads in space structuresInternal forces in a launcher (first stage for the application of a beam model )
Generation of oscillatory axial tensile at engine shut down
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25Space Structures - Prof. Alessandro Airoldi
Introduction to the course
Loads in space structuresLaunch loads also act on spacecraft, which represent the launcher payload. Spacecraft are constrained to launchers by means of structures called adapter (or dispenser).
-ma
QSL are the design loads for launcher structure, adapters and spacecrafts. Strength requirements imply a margin of safety > 1
THE TYPE OF LAUNCHER DEFINES THE LOAD CONDITIONS FOR THE SPACECRAFT
Ariane IV QSL AT PAYLOAD
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26Space Structures - Prof. Alessandro Airoldi
Introduction to the course
Loads in space structuresFor spacecraft a fundamental (stiffness) requirement is avoiding resonant coupling with vibrations by launcher
Dynamic decoupling must be attained: spacecraft structure must exhibit natural frequency higher than the ones of launcher induced vibrations
THE TYPE OF LAUNCHER DEFINES THE STIFFNESS REQUIREMENTS FOR THE
SPACECRAFT
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27Space Structures - Prof. Alessandro Airoldi
Introduction to the course
Loads in space structuresOther loads: Pressure fluctuation due to engine operations and unsteady aeordynamic
phenomena Shock (e.g. during jettison of stages) Thermo-elastic actions due to thermal flux Collision with meteoroids and space debris
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28Space Structures - Prof. Alessandro Airoldi
Introduction to the course
Examples of space structures: SPACE SHUTTLE
SRB External tank
Orbiter
Unique combination of semi-monocoque, pressure vessels, truss structures structural concepts
Many different materials used:
-Aluminium alloy
- high strength steel
-Titanium
-Boron/aluminium composite
-Carbon/epoxy composites
-Fibreglass
-Ceramics
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29Space Structures - Prof. Alessandro Airoldi
Introduction to the course
Solid bustersMAIN STRUCTURE:
SEGMENTED STRUCTURE (11 SEGMENT)HIGH STRENGTH STEEL 13 mm THICK
JOINED BY STEEL PINS
JUNCTIONS WRAPPED BY FIBERGLASS
SEALED WITH RUBBER BANDS
SUCH MAIN STRUCTURE IS CLOSED BY THE FWD AND AFT SEGMENT DOMES
IT IS THE EXTERNAL STRUCTURE BETWEEN THE FORWARD AND THE AFT SKIRT
EXTERNAL COVER, SUCH AS NOSE CAP AND SKIRTS ARE MADE OF WELDED ALUMINUN
Examples of space structures: SPACE SHUTTLE
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30Space Structures - Prof. Alessandro Airoldi
Introduction to the course
PRE-FORMED ALUMINUM ELEMENTS (PANELS, MACHINED THICK ELEMENTS)
PRESENCE OF INTEGRALLY MACHINED STRINGERS AND RING FRAMES
RING FRAMES STABILIZE THE TANK AT HIGH COMPRESSIVE LOADS
External TankTWO TANKS: OXYGEN AND HYDROGEN
INTERTANK STRUCTURE IS A MORE CONVENTIONAL SEMIMONOCOQUE STRUCTURE (PANELS-SKIN-FRAMES MECHANICALLY JOINTED)
Examples of space structures: SPACE SHUTTLE
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31Space Structures - Prof. Alessandro Airoldi
Introduction to the course
Orbiter
Examples of space structures: SPACE SHUTTLE
BASED ON SEMIMONOCOQUE PRINCIPLES
LARGE PARTS MADE OF ALUMINUM ALLOY
PECULIAR ASPECTS
CONVENTIONAL FORWARD FUSELAGE STRUCTURE HOSTS WELDED PRESSURISED CREW MODULE
CENTRAL SECTION FRAMES MADE OF BORON/ALUMINUM TRUSS STRUCTURE
THRUST BEARING TRUSS STRUCTURE WITH BORON/EPOXY REINFORCEMENTS
WINGS WITH HONEYCOMB SKIN COVER
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32Space Structures - Prof. Alessandro Airoldi
Introduction to the course
Orbiter
Examples of space structures: SPACE SHUTTLE
FORWARD FUSELAGE: EXTERNAL SHELL STRUCTURE (SEMIMONOCOQUE CONCEPT)
INTERNAL PRESSURIZED VESSEL
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33Space Structures - Prof. Alessandro Airoldi
Introduction to the course
Examples of space structures: SPACE SHUTTLE
Orbiter
CENTRAL SECTION
LONGHERON CARRY BENDING LOADS
HIGH STIFFNESS- STRENGTH REQUIRMENT FOR FRAMES: TRUSS WITH BORON/ALUMINUM TUBES
CONCEPTS OF STRESSED SKIN CONSTRUCTION LARGELY EMPLOYED
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34Space Structures - Prof. Alessandro Airoldi
Introduction to the course
Examples of space structures: SPACE SHUTTLE
Orbiter
GRAPHITE\EPOXY PAYLOAD BAY DOORS
REINFORCED BY FRAMES AND END TORQUE BOXES
HIGH STRENGTH 3D TRUSS STRUCTURE TO SUSTAIN THE THRUST LOAD OF MAIN ENGINES
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35Space Structures - Prof. Alessandro Airoldi
Introduction to the course
Examples of space structures: SPACE SHUTTLE
Orbiter
CONVENTIONAL ALUMINUM STRUCTURE WITH MULTI SPAR AND RIB ARRANGEMENT
HONEYCOMB SKIN REINFORCED BY ALUMINUM HAT-SHAPED STRINGERS
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36Space Structures - Prof. Alessandro Airoldi
Introduction to the course
SEMI-MONOCOQUE AL 7075 INTERTANKS AND SKIRTS
AL 2219 – T87 TANK WITH ANTI-SLOSH BAFFLES (diaphragms that reduces fuel movements)
First Stage
Examples of space structures: SATURN V
Separate serial tanks within semimonocque structure
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37Space Structures - Prof. Alessandro Airoldi
Introduction to the course
INTEGRALLY STIFFENED TANKS MADE OF DIFFUSION-WELDED AL 2014 PARTS
Second Stage
Examples of space structures: SATURN V
COMMON BULKHEAD: AL 2014 SHEET + FIBERGLASS/ PHENOLIC HONEYCOMB CORE
Integral serial tanks with common bulkhead
SKIRTS, INTERSTAGES, THRUST STRUCTURE: AL7075 SEMIMONOCOQUE
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38Space Structures - Prof. Alessandro Airoldi
Introduction to the course
Third Stage
Serial tanks with common bulkhead
VERY SIMILAR TO 2° STAGE STRUCTURE
Examples of space structures: SATURN V
INTEGRALLY STIFFENED TANKS AND SEMIMONOCOQUE STRUCTURES
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39Space Structures - Prof. Alessandro Airoldi
Introduction to the course
Examples of space structures: SPACECRAFTS
PRIMARY STRUCTURES
IN SPACECRAFTS THE DISTINCTION BETWEEN PRIMARY AND SECONDARY STRUCTURES IS IMPORTANT:
Experimental spacecraft designed at John Hopkins University: multisensor platform including a Spatial Infrared Telescope
TRANSMIT LOADS TO THE BASE OF THE SATELLITE THROUGH SPECIFICALLY DESIGN COMPONENTS (CENTRAL TUBE, HONEYCOMB PLATFORM, BAR TRUSS, ETC.).
PROVIDE THE ATTACHEMENT POINTS FOR THE PAYLOAD AND THE ASSOCIATED EQUIPMENTS.
FAILURE OF THE PRIMARY STRUCTURE LEADS TO COLLAPSE OF SATELLITE
SECONDARY STRUCTURES
BAFFLE, THERMAL BLANKET SUPPORT AND SOLAR PANELS MUST ONLY SUPPORT THEMSELVES AND ARE ATTACHED TO THE PRIMARY STRUCTURE WHICH GUARANTEE THE OVERALL STRUCTURAL INTEGRITY.
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40Space Structures - Prof. Alessandro Airoldi
Introduction to the course
Examples of space structures: SPACECRAFTS
SEVERAL DIFFERENT STRUCTURAL TYPES:-TRUSS (ALSO IN HIGH STIFFNESS/STRENGTH COMPOSITE MATERIAL)- HONEYCOMB PANELS (OFTEN USED FOR ELECTRONIC SUPPORT AND SOLAR CELL SUPPORT)-MACHINED BEAMS AND PLATES
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41Space Structures - Prof. Alessandro Airoldi
Introduction to the course
Examples of space structures: SPACECRAFTS
MANNED SPACECRAF INCLUDES -TRUSS STRUCTURES-SEMI-MONOCOQUE CONCEPTS (THIN WALLED STRUCTURES WITH STIFFENERS AND FRAMES)-STIFFENED PRESSURE VESSELS
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42Space Structures - Prof. Alessandro Airoldi
Introductory lessons
• Central role of two different but very effective structural types: semi-monocoque and truss structures
• pressure vessels design concepts and honeycomb structures
Beam models can be applied at level of the vehicle structure, for the analyses of truss systems, for the analyses of ribs and frames
Plate theory is required to understand the behavior of panels and covers
Extensive knowledge of
- different structural typologies and engineering solutions
- different theoretical models and analysis approaches to meet severe requirements in a multiplicity of conditions
Examples of space structures:Structural concepts
Basic structural elements (models)
Required skills in aerospace structures
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43Space Structures - Prof. Alessandro Airoldi
Introductory lessons
1. MECHANICS OF DEFORMABLE BODIES
2. BEAM MODELS AND BEAM SYSTEMS
3. SEMI-MONOCOQUE STRUCTURES
4. DISPLACEMENT APPROACHES AND APPROXIMATE METHODS
5. STRUCTURAL INSTABILITY
6. PLATES
7. FE METHOD
Course Content and Organisation:Lectures (theory)
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44Space Structures - Prof. Alessandro Airoldi
Introductory lessons
Course Content and Organisation:
Course Material & Textbooks
Slides of the lectures will be provided during the course
MALVERN, MECHANICS OF CONTINUOUS MEDIUM
T.H. MEGSON, AIRCRAFT STRUCTURES FOR ENGINEERING STUDENTS, BUTTERWORTH-HEINEMANN, 1972
J.N. REDDY, ENERGY PRINCIPLES AND VARIATIONAL METHODS IN APPLIED MECHANICS, WILEY 2002
K.J. BATHE, FINITE ELEMENT PROCEDURES, PRENTICE HALL 1982
Continuum mechanics, general principles
Semi-monocoque structures, force and displacement approach to beam systems
V. GIAVOTTO, STRUTTURE AERONATICHE CITTA’ STUDI
Energy methods, Ritz Method, Plate Theory
Finite elements
Covers several parts of the course
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45Space Structures - Prof. Alessandro Airoldi
Introductory lessons
Course Content and Organisation:Exercise classes
1. MECHANICS OF DEFORMABLE BODIES
2. BEAM MODELS AND BEAM SYSTEMS
3. SEMIMONOCOQUE STRUCTURES
4. PLATES (THIN & THICK PLATES, LAMINATES, PRESSURE VESSELS HONEYCOMB)
5. STIFFNESS APPROACH AND APPROXIMATE METHODS
6. FE METHOD
7. NON-LINEAR PROBLEMS AND INSTABILITY
1. STRESS AND STRAIN MEASURES
2. 3D BEAM SYSTEMS
3. SEMIMONOCOQUE STRUCTURES
4. DISPLACEMENT APPROACHES AND APPROXIMATE METHODS
The exercises that will be proposed during the classes will be all available on-line
![Page 46: SPACE STRUCTURES Prof. Alessandro Airoldi INTRODUCTION TO THE COURSE.](https://reader036.fdocuments.in/reader036/viewer/2022062314/56649e6c5503460f94b6abbe/html5/thumbnails/46.jpg)
46Space Structures - Prof. Alessandro Airoldi
Introductory lessons
Course Content and Organisation:Written Examination
Based on the same type of exercises that have been presented, solved and discussed during classes
Capability to critically apply concepts as well as to organize and carry out calculations
Admission to oral examination is possible only if the written text will obtain a positive mark
Oral Examination
Comprehension of structural concepts, analytical and numerical approach
Will include proofs of main theorems and formulation development