In today’s architectural world, every interior and exterior design matters the most. Likewise, a shell is a sleek and thin structural component used to design the building’s curve. Those shells are self-supporting and support larger constructions without any pillars, walls, or beams.
Basically, every building will have a basement, pillars, and walls to balance one another, but this shell structure is entirely different from normal buildings and commercial buildings. A few constructions that are built with shell structures are domes, arches, vaults, etc. To dive deeper into the importance of shell structure, continue reading the content below.
What is Shell Structure?
The shell structure is characterized by its curvaceous shell form. It is different from traditional frame structures that get strength from beams and columns. This shell structure obtains its strength from a curved surface by carrying loads through membrane action, tension, compression, or shear instead of bending.
The curved surface spreads the forces and loads evenly, thus making them effective load-bearing structures. Simply, shell architecture is a combination of strength and style that features beautiful designs and vast interior spaces.
Components of Shell Structure
In a shell structure, different components are combined to achieve functionality, stability, and safety. Some of the components involved in the construction of shell structures are listed below.
- Structural Skeleton and Foundation
- A Base Plant
- The Building Cladding
- Building Envelope
- Fire Barriers
- The Fire Detection System
- Electrical and Plumbing Systems
- Pathways, Boundary Walls
- Pavement and Fencing
- The Landscaping
- The Signage
The main objective of constructing the shell structure is to cover a larger area of the building.
Importance of Shell Structures in Construction
- Efficient: The design, load-bearing capacity, and budget of the shell structure are more efficient. They are thin, look modern, and stay lightweight. Moreover, the shell structure lowers stress concentrations in the building.
- Aesthetic Finish: With the support of technology and elegance, blending them together provides aesthetic appeal to the construction. It brings iconic designs, shapes, patterns, etc. For example, globe-shaped construction and lotus-shaped temples offer futuristic designs.
- Large Coverage: The shell structure is essential to cover large architectural works and designs. It is ideal to build auditoriums, opera houses, airports, arenas, and more. Additionally, the design approach offers greater flexibility and an effective strategy for planning interior design in large spaces.
- Natural Acoustic Performance: The curved structure of the shell delivers high acoustic properties, as it disperses sound waves efficiently. This way, the inconvenience caused by echoes and reverberation is reduced, and sound clarity is improved. This makes shell structures suitable for places that require precise acoustics, such as theaters, auditoriums, and concert halls.
- Versatility in Function: Shell structures are extremely adaptable and can be applied to many different uses. They can be employed to cover spaces like transport terminals, exhibition halls, sports stadiums, and public buildings, and can be adapted to suit a significant number of project needs.
Types of the Shell Structure
The Geodesic Domes
A geodesic dome is a popular shell structure type that consists of interconnected triangles arranged in such a way as to create a dome-like shape. The attained framework is covered with a cladding material. Geodesic domes are chosen for their strength, ability, and lightweightness that span large areas with less or moderate support.
The Thin-Shell Structures
Steel and concrete combine to create these sleek and thin shell structures, which are lightweight and curved. It helps minimise forces and bends. The multiple types of thin-shell structures include spherical, conic, hyperbolic, etc.
The Membrane Structures
Membrane structures are versatile and flexible, supporting diverse shapes and designs to construct buildings. The load is commonly carried through tension and made of cables and pressure, which is often utilised for arenas, roofs, or pavilions.
Benefits of Shell Structures
1. High Load-Bearing Capacity: Even with thin profiles, shell structures can handle large loads due to their geometric strength.
2. Lightweight Design: Shells impose less load on foundations, which is advantageous for soft soils or areas with limited bearing capacity.
3. Faster Construction: With repetitive formwork or prefabricated components, shell structures can be built quickly, thus saving project time.
4. Minimal Maintenance: Monolithic construction and fewer joints reduce vulnerability to water ingress or structural deterioration.
5. Enhanced Aesthetics Without Extra Cost: The curved form adds beauty and modern appeal without needing additional decorative elements.
6. Adaptability of Shape: Shells can be shaped into domes, cones, hyperbolic paraboloids, and folded plates, offering design flexibility for diverse functions.
7. Thermal Performance: Curved roofs with fewer exposed surfaces can minimize heat gain, especially when combined with insulation or reflective coatings.
Applications of Shell Structures
- Civil Construction: The shell structures are highly utilised for bridges, silos, towers, and tanks. The silos are produced in a cylindrical shape to ensure uniformity in carrying weights.
- Aerospace: Shell structure forms aerodynamic shapes and gives structural support for aviation purposes. Such thin but strong shells are utilized for aerospace purposes.
- Architecture: Shell structures find widespread use in architecture to design domes, vaulted roofs, and large open spaces in mosques, churches, and government buildings. Thin concrete shells are also utilized to design large, contemporary buildings.
Step-by-Step Process of Building Shell Structures
The design and construction of a shell structure is a detailed process that requires several considerations. The common steps are discussed below.
Step 1: Determining the Design and Form
First of all, architects and engineers brainstorm ideas to define the shell structure. They consider factors such as size, shape, and overall appearance to analyse how the shell responds to loads. Computer-aided tools such as Finite Element Analysis (FEA) and Building Information Modelling (BIM) are employed for the analysis and simulation of performance prior to construction.
Step 2: Select Suitable Materials
To select materials, experts consider the integrity and durability of the shell structure. Commonly, RCC (Reinforced Cement Concrete) is used, as it provides great strength and stability. However, shell structures typically require high-performance concrete and are formed using specially designed curved formwork. The versatile nature and ease of use make steel another preferable option. In some small-scale or sustainable designs, materials like timber may be explored, but they are less common in large-scale shell structures.
Step 3: Engineering Techniques
Detailed knowledge, precision, and advanced engineering techniques are crucial for constructing shell structures. For instance, RCC is cast into specially designed curved formwork or applied using methods like shotcrete to achieve the desired shell geometry. The concrete is then properly cured to achieve the required strength. When it comes to steel, ready-to-use components are assembled and connected to ensure accurate alignment.
Step 4: Continual Collaboration
Ongoing collaboration among the construction team, architects, and engineers is crucial. This helps ensure regular inspections, quality control, and adherence to standards throughout the process. This teamwork supports smooth coordination and effective execution of the shell structure.
Concluding Thoughts
The shell structure is widely used for various purposes in the construction field to amplify the interior and exterior appeal. It is highly beneficial for civil, aerospace, museums, and other large construction spaces that are self-walled.
The shell structure has a self-supporting stem without pillars or walls. This is why constructions are achieved in different shapes, like globes, lotuses, and blooming flowers. Therefore, the shell structure is essential in today’s construction and architectural world. Begin your journey to elevate your interior and exterior designs through these efficient shell structures.
Apoorva H P Achar