A Step-by-Step Guide to Tensile Structural Design

“To build something, you have to put your heart into it,” they say. However, in my opinion you need a lot more. The construction of a tension structure is a technical task, but not difficult. In this article, I will explain how to do this.

Have you ever wondered what it takes to design your own tensile structure? Unlike traditional brick and concrete buildings, it is not that difficult to design. But that’s not easy either, especially if you have no idea how structures work, which is why I’m here.

If you are confused by the process itself, after this article it will no longer confuse you. In this article, I will explain the entire design stage step by step. So let’s get started.

Preparation is necessary… It doesn’t matter if you are studying for an exam or trying to build a tensile structure, you still need some preparatory work. In the case of a tensile structure, this suggests the right questions.

  • What is the purpose?
  • What is the expected life of the structure – temporary or permanent?
  • How well is the site layout accessible?
  • What about service after completion?
  • How much money dear?

Once you are done with the answers to the above questions, we will proceed to the important steps.

Step 1. Design is not a job for everyone

The most important stage. This affects not only the final appearance of the tensile structure, but also subsequent steps such as fabrication and installation. Design is art, and art takes time and experience. Structures can be designed using various programs such as AutoCAD, Mpanel, etc. This step greatly affects the aesthetics.

Step 2: engineering is strength

No construction is complete without the participation of an engineer. They are critical to determining the stability, balance, and safety of structures created by an architect and tensile designers. Engineers often work together with the development team and are assisted by various design software.

Step 3. Manufacturing is a building block

Manufacturing can be called the basis of any tension structure. Although manufacturing is highly dependent on step 1, it has its own technical characteristics. In simple terms, this involves creating an elastic fabric from raw materials – these can be different polymers such as PVC, ETFE, etc., and / or fibers. It should be borne in mind that each polymer imparts its own unique characteristics to the tensile structure. The architect’s task is to choose those that are ideal and meet our requirements. This step is critical as it addresses many of the benefits attributed to tensile construction, such as durability, heat and weather resistance, flexibility, strength, etc. Properly stitched fabric is usually multi-layered.

Step 4: making related parts

The tension structure requires fasteners and supports to hold the fabric. The shape of the structure also largely depends on their position and / or placement. We also need to make them. Although they were mostly made from steel, they could have been made from other materials as well.

Step 5: installation

“All is well that ends well” is a common saying, and the same is true for tension structures. One of their main advantages is ease of installation. The structure will not be completed until it is firmly installed in the desired location. In fact, this is the most crucial step, because it determines how the tension structure will actually look like. By carefully and correctly placing the supports, you can adjust the shape and curvature of the elastic fabrics accordingly. Although the shape and design are finalized in steps 1 and 2, this is where they finally see their fruits.

Step 6: maintenance

“Something always goes wrong” is a recurring theme in physics, affectionately referred to as Murphy’s Law. Simply put, this means that everything in this world will inevitably collapse with age. Correct and regular maintenance is the key to increasing this limit. Maintaining a tension structure is quite cheap and easy compared to traditional structures. This usually involves dusting fabrics or adjusting bindings, etc. This can be done manually or you can also use automatic vacuum cleaners.

By now, I’m pretty sure you are well aware of the steps involved in building any tension structure from scratch. Creating your own tensile structure can be fun. All you have to do is follow these steps rigorously.

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