INTRODUCTION

• The significance of material
• The perception of architectural space
• The physics of space
• The physics of perception

STRUCTURAL DEMANDS

- Definition of the structure

- Structural demands

• Equilibrium
• Stability
• Resistance
• Functionality
• Economy
• Aesthetics
• Optimum structures

- Loads: definition and classification

- Common stresses in structures

• Axial
• Shear
• Bending
• Torsion

CONVENTIONAL SOLID CONSTRUCTION VS. LIGHTWEIGHT CONSTRUCTION

- Notions for the choice of structural typology

- Construction comparison: conventional vs. lightweight

SPECIAL HORIZONTAL AND VERTICAL DEVELOPMENTS

- Cores and claddings according to conventional solid or lightweight construction

• Frameworks, vaults, domes

- Hollows and their impact on the structure, depending on its typology

- Horizontal growth processes

• Extensions
• Additions

- Vertical growth processes

• Spatial overlap
• Load-bearing structures that change
• Combined structure of walls and slabs

LOAD-BEARING WALLS AND FRAMEWORKS IN THE VERTICAL PLANE

- Load-bearing walls

• Definition
• Solving the transmission of horizontal forces
• Conditions required from slabs for bracing the structure

- Frameworks

• Definition
• Solving the transmission of horizontal stresses

THE TERRAIN: CONTAINMENT AND FOUNDATIONS

• The underground, the invisible and their relationship with the exterior
• Characteristics of the terrain that determine the foundations
• Structural factors that determine the foundations
• Types of terrain in terms of material
• Defective land
• Land with no consistency
• Consistent land
• Rock

- Geotechnical surveys

• Preliminary information
• Organization of the survey
• Planning
• Fieldwork
• Laboratory tests
• Geotechnical reports

- Foundations

• Definition
• Materials
• Types
• Foundations for walls
• Foundations for pillars
• Foundations for piles
• Foundations for micro-piles

- Earth containment

• Gravity walls
• Cross-braced walls
• Walls that work by geometry
• Lining walls
• Cantilever walls
• Buttressed walls
• Retaining walls
• Basement walls

§ Underpinnings

§ Diaphragm walls

CONCRETE

- Background and historical introduction

- Mass concrete and reinforced concrete

- Cement, stone aggregates, water, additives

- Active and passive reinforcements

- Solidification and curing

- Concreting in situ

- Recoverable and lost formwork

- Vertical elements

• Pillars
• Walls
• Finishes

- Horizontal elements: floors

• Functions and requirements
• One-way and two-way floors
• Vaulted and beamed floors
• Solid slabs
• Lightweight slabs
• Waffle slabs
• Pre-stressed slabs
• Pre-slabs
• Alveolar slabs
• “PI” slabs

- Example of a concrete house

MASONRY

- Masonry in natural stone

• Masonry
• Mixed masonry
• Rough ashlar masonry
• Smooth ashlar masonry

- Brick masonry

• Introduction to rigging
• Formats

-          Concrete masonry

-          Example of house in concrete masonry

METAL STRUCTURES

• Background and historical introduction
• Steel: definition
• Steel as a structural material
• Advantages and disadvantages of metal structures
• Types of framework and structural solutions
• Steel profiles
• Elements subject to compression
• Elements subject to bending
• Fire protection
• Joints
• Floors
• Example of a house with a metal structure

TIMBER

• Section of a trunk
• Internal composition and structure
• Physical properties
• Wood products and derivatives
• Sawn timber
• Plywood
• Particleboards
• Inorganic materials made from wood

- Construction systems

• Solid slabs of plywood
• Free-standing Kerto type panels
• Frameworks, building with poles
• Balloon frame
• Frame
• Board system
• Grid system

- Example of a house with a timber structure

Topic 1 Class 1