Eurocode 9 - Design of aluminium structures - Part 1-1: General structural rules

EN 1999 applies to the design of buildings and civil engineering and structural works in aluminium. It complies with the principles and requirements for the safety and serviceability of structures, the basis of their design and verification that are given in EN 1990 - Basis of structural design. EN 1999 is only concerned with requirements for resistance, serviceability, durability and fire resistance of aluminium structures. Other requirements, e.g. concerning thermal or sound insulation, are not considered. EN 1999 is intended to be used in conjunction with: - EN 1990 "Basis of structural design" - EN 1991 "Actions on structures" - European Standards for construction products relevant for aluminium structures - prEN 1090-1: Execution of steel structures and aluminium structures - Part 1: Requirements for conformity assessment of structural components5 - prEN 1090-3: Execution of steel structures and aluminium structures - Part 3: Technical requirements for aluminium structures5 EN 1999 is subdivided in five parts: EN 1999-1-1 Design of Aluminium Structures: General structural rules. EN 1999-1-2 Design of Aluminium Structures: Structural fire design. EN 1999-1-3 Design of Aluminium Structures: Structures susceptible to fatigue. EN 1999-1-4 Design of Aluminium Structures: Cold-formed structural sheeting. EN 1999-1-5 Design of Aluminium Structures: Shell structures.

Eurocode 9 - Bemessung und Konstruktion von Aluminiumtragwerken - Teil 1-1: Allgemeine Bemessungsregeln

1.1.1   Anwendungsbereich von EN 1999
(1)P   EN 1999 gilt für den Entwurf, die Berechnung und die Bemessung von Bauwerken und Tragwerken aus Aluminium. Sie entspricht den Grundsätzen und Anforderungen an die Tragfähigkeit und Gebrauchs¬tauglichkeit von Tragwerken, sowie den Grundlagen für ihre Bemessung und Nachweise, die in EN 1990  Grundlagen der Tragwerksplanung   enthalten sind.
(2)   EN 1999 behandelt ausschließlich Anforderungen an die Tragfähigkeit, die Gebrauchstauglichkeit, die Dauerhaftigkeit und den Feuerwiderstand von Tragwerken aus Aluminium. Andere Anforderungen, wie z. B. Wärmeschutz oder Schallschutz, werden nicht behandelt.
(3)   EN 1999 gilt in Verbindung mit folgenden Regelwerken:
   EN 1990 Grundlagen der Tragwerksplanung
   EN 1991 Einwirkungen auf Tragwerke
   Europäische Normen für Bauprodukte, die für Aluminiumtragwerke Verwendung finden
   prEN 1090-1: Ausführung von Stahltragwerken und Aluminiumtragwerken  Teil 1: Konformitäts¬nachweis für tragende Bauteile )
   prEN 1090-3: Ausführung von Stahltragwerken und Aluminiumtragwerken  Teil 3: Technische Anforderungen für Aluminiumtragwerke5)
(4)   EN 1999 ist in fünf Teile gegliedert:
EN 1999-1-1   Bemessung und Konstruktion von Aluminiumtragwerken: Allgemeine Bemessungsregeln.
EN 1999-1-2   Bemessung und Konstruktion von Aluminiumtragwerken: Tragwerksbemessung für den Brandfall
EN 1999-1-3   Bemessung und Konstruktion von Aluminiumtragwerken: Ermüdungsbeanspruchte Tragwerke
EN 1999-1-4   Bemessung und Konstruktion von Aluminiumtragwerken: Kaltgeformte Profiltafeln
EN 1999-1-5   Bemessung und Konstruktion von Aluminiumtragwerken: Schalentragwerke

Eurocode 9 - Calcul des structures en aluminium - Partie 1-1: Regles générales

(1)    L'EN 1999-1-1 donne les regles fondamentales de calcul des structures en alliage d'aluminium corroyé et des recommandations limitées pour les alliages de fonderie (voir la section 3).
NOTE   L'épaisseur minimale du matériau peut etre définie dans l'Annexe Nationale. Les limites ci-dessous sont recommandées – si elles ne sont pas explicitement établies dans la présente norme :
-   - composants d'épaisseur supérieure ou égale a 0,6 mm ;
-   - composants soudés d'épaisseur supérieure ou égale a 1,5 mm ;
-   - liaisons a l'aide de :
· boulons et goupilles en acier de diametre supérieur ou égal a 5 mm ;
· boulons et goupilles en aluminium de diametre supérieur ou égal a 8 mm ;
· rivets et vis taraudeuses de diametre supérieur ou égal a 4,2 mm.
(2)    Les sujets ci-dessous sont traités dans l'EN 1999 1-1 :
Section 1 : Généralités
Section 2 : Base de calcul
Section 3 : Matériaux
Section 4 : Durabilité
Section 5 : Analyse structurale
Section 6 : Etats limites ultimes des barres
Section 7 : Etats limites de service
Section 8 : Calcul des assemblages
Annexe A    Classes d'exécution
Annexe B     Bout en T équivalent en tension
Annexe C    Sélection des matériaux
Annexe D    Corrosion et protection des surfaces
Annexe E   Modeles analytiques pour le rapport contrainte-déformation
Annexe F   Comportement de la section transversale au-dela de la limite d'élasticité
Annexe G    Capacité de rotation
Annexe H    Méthode d'analyse des rotules plastiques pour poutres continues
Annexe I   Déversement des poutres et flambement par torsion et torsion-flexion des barres en compression
Annexe J   Propriétés des sections transversales
Annexe K    Effets de traînage de cisaillement dans le calcul des barres
Annexe L   Classification des liaisons
Annexe M    Liaisons collées par adhésif
(3)   Les Sections 1 a 2 donnent des articles supplémentaires a ceux indiqués dans l’EN 1990 “Base du calcul des structures”.

Evrokod 9: Projektiranje konstrukcij iz aluminijevih zlitin - 1-1. del: Splošna pravila za konstrukcije

Standard EN 1999 se uporablja za projektiranje stavb ter inženirskih in konstrukcijskih objektov iz aluminija. Upošteva načela in zahteve glede varnosti in uporabnosti konstrukcij ter podlago za njihovo projektiranje in preverjanje, ki so podane v standardu EN 1990 – Osnove projektiranja. Standard EN 1999 se nanaša le na zahteve za odpornost, uporabnost, trajnost in požarno odpornost aluminijastih konstrukcij. Ostale zahteve, na primer glede toplotne in zvočne izolativnosti, niso obravnavane. Standard EN 1999 je namenjen za uporabo v povezavi z naslednjimi standardi: – EN 1990 »Osnove projektiranja« – EN 1991 »Vplivi na konstrukcije« – Evropski standardi za konstrukcijske izdelke v zvezi z aluminijastimi konstrukcijami – prEN 1090-1: Izvedba jeklenih konstrukcij in aluminijastih konstrukcij – 1. del: Zahteve za ugotavljanje skladnosti sestavnih delov konstrukcij5 – prEN 1090-3: Izvedba jeklenih konstrukcij in aluminijastih konstrukcij – 3. del: Tehnične zahteve za aluminijaste konstrukcije5 EN 1999 je razdeljen na pet delov: EN 1999-1-1 Projektiranje konstrukcij iz aluminijevih zlitin: Splošna pravila za konstrukcije. EN 1999-1-2 Projektiranje konstrukcij iz aluminijevih zlitin: Projektiranje požarnovarnih konstrukcij. EN 1999-1-3 Projektiranje konstrukcij iz aluminijevih zlitin: Konstrukcije, občutljive na utrujanje. EN 1999-1-4 Projektiranje konstrukcij iz aluminijevih zlitin: Hladno oblikovane konstrukcijske pločevine. EN 1999-1-5 Projektiranje konstrukcij iz aluminijevih zlitin: Lupinaste konstrukcije.

General Information

Status
Published
Publication Date
17-Apr-2007
Technical Committee
Current Stage
6060 - National Implementation/Publication (Adopted Project)
Start Date
12-Apr-2007
Due Date
17-Jun-2007
Completion Date
18-Apr-2007

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2003-01.Slovenski inštitut za standardizacijo. Razmnoževanje celote ali delov tega standarda ni dovoljeno.Eurocode 9 - Design of aluminium structures - Part 1-1: General structural rulesEvrokod 9: Projektiranje konstrukcij iz aluminijevih zlitin - 1-1. del: Splošna pravila za konstrukcijeEurocode 9 - Calcul des structures en aluminium - Partie 1-1: Regles généralesEurocode 9 - Bemessung und Konstruktion von Aluminiumtragwerken - Teil 1-1: Allgemeine BemessungsregelnTa slovenski standard je istoveten z:EN 1999-1-1:2007SIST EN 1999-1-1:2007en;fr;de91.080.10Kovinske konstrukcijeMetal structures91.010.30Technical aspectsICS:SIST ENV 1999-1-1:20021DGRPHãþDSLOVENSKI
STANDARDSIST EN 1999-1-1:200701-maj-2007







EUROPEAN STANDARDNORME EUROPÉENNEEUROPÄISCHE NORMEN 1999-1-1February 2007ICS 91.010.30; 91.080.10Supersedes ENV 1999-1-1:1998
English VersionEurocode 9 - Design of aluminium structures - Part 1-1: Generalstructural rulesEurocode 9 - Calcul des structures en aluminium - Partie 1-1: Règles généralesEurocode 9 - Bemessung und Konstruktion vonAluminiumtragwerken - Teil 1-1: AllgemeineBemessungsregelnThis European Standard was approved by CEN on 18 September 2006.CEN members are bound to comply with the CEN/CENELEC Internal Regulations which stipulate the conditions for giving this EuropeanStandard the status of a national standard without any alteration. Up-to-date lists and bibliographical references concerning such nationalstandards may be obtained on application to the CEN Management Centre or to any CEN member.This European Standard exists in three official versions (English, French, German). A version in any other language made by translationunder the responsibility of a CEN member into its own language and notified to the CEN Management Centre has the same status as theofficial versions.CEN members are the national standards bodies of Austria, Belgium, Bulgaria, Cyprus, Czech Republic, Denmark, Estonia, Finland,France, Germany, Greece, Hungary, Iceland, Ireland, Italy, Latvia, Lithuania, Luxembourg, Malta, Netherlands, Norway, Poland, Portugal,Romania, Slovakia, Slovenia, Spain, Sweden, Switzerland and United Kingdom.EUROPEAN COMMITTEE FOR STANDARDIZATIONCOMITÉ EUROPÉEN DE NORMALISATIONEUROPÄISCHES KOMITEE FÜR NORMUNGManagement Centre: rue de Stassart, 36
B-1050 Brussels© 2007 CENAll rights of exploitation in any form and by any means reservedworldwide for CEN national Members.Ref. No. EN 1999-1-1:2007: E



EN 1999-1-1: 2007 (E)
2 Content Page Foreword.7 1 General.11 1.1 Scope.11 1.1.1 Scope of EN 1999.11 1.1.2 Scope of EN 1999-1-1.11 1.2 Normative references.12 1.2.1 General references.12 1.2.2 References on structural design.12 1.2.3 References on aluminium alloys.13 1.2.4 References on welding.15 1.2.5 Other references.15 1.3 Assumptions.16 1.4 Distinction between principles and application rules.16 1.5 Terms and definitions.16 1.6 Symbols.17 1.7 Conventions for member axes.27 1.8 Specification for execution of the work.27 2 Basis of design.29 2.1 Requirements.29 2.1.1 Basic requirements.29 2.1.2 Reliability management.29 2.1.3 Design working life, durability and robustness.29 2.2 Principles of limit state design.29 2.3 Basic variables.30 2.3.1 Actions and environmental influences.30 2.3.2 Material and product properties.30 2.4 Verification by the partial factor method.30 2.4.1 Design value of material properties.30 2.4.2 Design value of geometrical data.30 2.4.3 Design resistances.30 2.4.4 Verification of static equilibrium (EQU).31 2.5 Design assisted by testing.31 3 Materials.32 3.1 General.32 3.2 Structural aluminium.32 3.2.1 Range of materials.32 3.2.2 Material properties for wrought aluminium alloys.33 3.2.3 Material properties for cast aluminium alloys.36 3.2.4 Dimensions, mass and tolerances.37 3.2.5 Design values of material constants.37 3.3 Connecting devices.38 3.3.1 General.38 3.3.2 Bolts, nuts and washers.38 3.3.3 Rivets.39 3.3.4 Welding consumables.40 3.3.5 Adhesives.42 4 Durability.42 5 Structural analysis.43 5.1 Structural modelling for analysis.43 5.1.1 Structural modelling and basic assumptions.43 5.1.2 Joint modelling.43 5.1.3 Ground-structure interaction.43 5.2 Global analysis.43



EN 1999-1-1: 2007 (E)
3 5.2.1 Effects of deformed geometry of the structure.43 5.2.2 Structural stability of frames.44 5.3 Imperfections.45 5.3.1 Basis.45 5.3.2 Imperfections for global analysis of frames.45 5.3.3 Imperfection for analysis of bracing systems.49 5.3.4 Member imperfections.52 5.4 Methods of analysis.52 5.4.1 General.52 5.4.2 Elastic global analysis.52 5.4.3 Plastic global analysis.52 6 Ultimate limit states for members.53 6.1 Basis.53 6.1.1 General.53 6.1.2 Characteristic value of strength.53 6.1.3 Partial safety factors.53 6.1.4 Classification of cross-sections.53 6.1.5 Local buckling resistance.58 6.1.6 HAZ softening adjacent to welds.59 6.2 Resistance of cross-sections.61 6.2.1 General.61 6.2.2 Section properties.62 6.2.3 Tension.63 6.2.4 Compression.64 6.2.5 Bending moment.64 6.2.6 Shear.66 6.2.7 Torsion.67 6.2.8 Bending and shear.69 6.2.9 Bending and axial force.69 6.2.10 Bending, shear and axial force.70 6.2.11 Web bearing.71 6.3 Buckling resistance of members.71 6.3.1 Members in compression.71 6.3.2 Members in bending.75 6.3.3 Members in bending and axial compression.77 6.4 Uniformed built-up members.80 6.4.1 General.80 6.4.2 Laced compression members.82 6.4.3 Battened compression members.83 6.4.4 Closely spaced built-up members.85 6.5 Un-stiffened plates under in-plane loading.85 6.5.1 General.85 6.5.2 Resistance under uniform compression.86 6.5.3 Resistance under in-plane moment.87 6.5.4 Resistance under transverse or longitudinal stress gradient.88 6.5.5 Resistance under shear.88 6.5.6 Resistance under combined action.89 6.6 Stiffened plates under in-plane loading.89 6.6.1 General.89 6.6.2 Stiffened plates under uniform compression.90 6.6.3 Stiffened plates under in-plane moment.92 6.6.4 Longitudinal stress gradient on multi-stiffened plates.92 6.6.5 Multi-stiffened plating in shear.93 6.6.6 Buckling load for orthotropic plates.93 6.7 Plate girders.96 6.7.1 General.96 6.7.2 Resistance of girders under in-plane bending.96 6.7.3 Resistance of girders with longitudinal web stiffeners.97



EN 1999-1-1: 2007 (E)
4 6.7.4 Resistance to shear.98 6.7.5 Resistance to transverse loads.102 6.7.6 Interaction.105 6.7.7 Flange induced buckling.106 6.7.8 Web stiffeners.106 6.8 Members with corrugated webs.108 6.8.1 Bending moment resistance.108 6.8.2 Shear force resistance.108 7 Serviceability Limit States.110 7.1 General.110 7.2 Serviceability limit states for buildings.110 7.2.1 Vertical deflections.110 7.2.2 Horizontal deflections.110 7.2.3 Dynamic effects.110 7.2.4 Calculation of elastic deflection.110 8 Design of joints.111 8.1 Basis of design.111 8.1.1 Introduction.111 8.1.2 Applied forces and moments.111 8.1.3 Resistance of joints.111 8.1.4 Design assumptions.112 8.1.5 Fabrication and execution.112 8.2 Intersections for bolted, riveted and welded joints.112 8.3 Joints loaded in shear subject to impact, vibration and/or load reversal.113 8.4 Classification of joints.113 8.5 Connections made with bolts, rivets and pins.113 8.5.1 Positioning of holes for bolts and rivets.113 8.5.2 Deductions for fastener holes.115 8.5.3 Categories of bolted connections.117 8.5.4 Distribution of forces between fasteners.119 8.5.5 Design resistances of bolts.120 8.5.6 Design resistance of rivets.122 8.5.7 Countersunk bolts and rivets.123 8.5.8 Hollow rivets and rivets with mandrel.123 8.5.9 High strength bolts in slip-resistant connections.123 8.5.10 Prying forces.125 8.5.11 Long joints.125 8.5.12 Single lap joints with fasteners in one row.126 8.5.13 Fasteners through packings.126 8.5.14 Pin connections.126 8.6 Welded connections.129 8.6.1 General.129 8.6.2 Heat-affected zone (HAZ).129 8.6.3 Design of welded connections.129 8.7 Hybrid connections.136 8.8 Adhesive bonded connections.136 8.9 Other joining methods.136 Annex A [normative] – Reliability differentiation.137 A.1 Introduction.137 A.2 Design provisions for reliability differentiation - Design supervision levels.137 A.3 Execution provisions for reliability differentiation – Execution classes.137 A.4 Governing factors for choice of execution class.137 A.5 Hazards connected with the execution and use of the structure.138 A.6 Determination of execution class.138 A.7 Utilization grades.139 Annex B [normative] - Equivalent T-stub in tension.140



EN 1999-1-1: 2007 (E)
5 B.1 General rules for evaluation of resistance.140 B.2 Individual bolt-row, bolt-groups and groups of bolt-rows.144 Annex C [informative] - Materials selection.146 C.1 General.146 C.2 Wrought products.146 C.2.1 Wrought heat treatable alloys.146 C.2.2 Wrought non-heat treatable alloys.149 C.3 Cast products.150 C.3.1 General
..................................................................................................150 C.3.2 Heat treatable casting alloys EN AC-42100, EN AC-42200, EN AC-43000 and..................150 EN AC-43300.........................................................................................................................................150 C.3.3 Non-heat treatable casting alloys EN AC-44200 and EN AC-51300.....................................150 C.3.4 Special design rules for castings.............................................................................................150 C.4 Connecting devices.........................................................................................................................152 C.4.1 Aluminium bolts.....................................................................................................................152 C.4.2 Aluminium rivets....................................................................................................................152 Annex D [informative] – Corrosion and surface protection.....................................................................153 D.1 Corrosion of aluminium under various exposure conditions..........................................................153 D.2 Durability ratings of aluminium alloys...........................................................................................153 D.3 Corrosion protection.......................................................................................................................154 D.3.1 General...................................................................................................................................154 D.3.2 Overall corrosion protection of structural aluminium............................................................154 D.3.3 Aluminium in contact with aluminium and other metals.......................................................155 D.3.4 Aluminium surfaces in contact with non-metallic materials..................................................155 Annex E
[informative] - Analytical models for stress strain relationship.160 E.1 Scope.160 E.2 Analytical models.160 E.2.1 Piecewise linear models.160 E.2.2 Continuous models.162 E.3 Approximate evaluation of eu.165 Annex F
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