The challenges and sticky points of the architecture field in the country and everywhere else in the world for that matter is arguably too numerous to tell. Like for example, when you are delegated to come up with an architectural building model and alongside that is a tight deadline for it, it can be imagined that it will be an onerous effort to have. It is going to be very demanding, arduous work, to say the least.
Fortunately, relief and help can be found in 3D printing Australia technology. Otherwise known as additive manufacturing, it does make the lives of architects, engineers, and builders easy. It helps them get on with their building models and structural ideas they want to create and make them come to life without exerting too much effort. In simple words, it helps them carry out their work in a heartbeat.
Needless to say, this explains the reason why the application of additive manufacturing or the use of 3D printing is considered by industry insiders as a boon to the architectural realm. If you want to understand why 3-dimensional printing became a true asset in the world of architecture, I suggest that you carry on in reading this article in its entirety.
Why Use 3D Printing Australian Technology in Building Your Architectural Models?
One of the most significant advantages offered by 3-dimensional printing to architects and engineers alike is that it makes it possible for them to build their architectural models in a jiffy without hurting the budget. Moreover, since this type of manufacturing process requires a complete 3D model first, it comes to follow that you will automatically have a good mastery of its details first together with all the desired visual simplifications.
What is the Ideal Material to Use for 3D Printing a Building Model?
SLS or Selective Laser Sintering method of 3D printing is most in demand for projects that involve building
When it comes to additive manufacturing projects that involve working on making a 3D printed model of a building or any kind of structure, SLS or selective laser sintering in 3D printing is most recommended. If you want to make your architectural proposals come to life, this technology is most recommended to use because it allows your creation to closely resemble your 3D model.
For instance, if you want to retain important minute details intact such as sharp edges or clear openings, SLS technology will let you have them in the final finished product. However, this is completely contrasting to 3D prints that made use of Fused Deposition Modeling.
Lastly, additive manufacturing makes it possible to come up with a white version of your architectural models. This type of 3D printed model is most preferred in product presentations because it acts as a medium so you can express your project’s simplified volumetry.
How are Architectural Models Made?
There is various computer software in the market that cater to this kind of need. Such custom software will allow your computer system to link up to your 3D printer and direct its actions with respect to creating your architectural proposal. Some firms will also require the production of 2D documents necessary for the production of the 3D model.
These additive manufacturing firms would start their work by completing first the 3D model for their project. There are occasions that they need to make room for possible adjustments, and such tweaks may happen at any time during the production phase. Amendments to the product design will also necessitate these tweaks.
By having room for modifications, 3D printing firms can buy themselves more time and an ample amount of space to optimize their 3D model for printing. As for the external volumetry and simplification, it would be highly dependent on the scale required by the architectural proposal itself.
Following the simplification phase, the redesigned 3D model is hollowed down to make way for optimization of the material used and even the model production cost. Next to this, the 3D model can be exported in the .stl file format. This comes with the data binary representation.
Finally, the exported STL model is re-meshed using a 3D modeling software of their choice. This measure will help ensure that the final 3D model made consists of only one mesh, and not multiple or many.