December 15, 2019 by pureblink
With 2019 quickly drawing to a close, we decided it would be a perfect time to create a fun guide for the year. We wanted to show some of our favorite companies, software, resources, and trends relating to architectural rendering.
TOP ARCHITECTURAL RENDERING COMPANIES IN 2019
Pure blink Digital - Offers a great blend of price and quality, quickly becoming one of the top architectural rendering companies in 2019.
Super cheap 3D - provides clients with an inexpensive rendering option
Render 3D quickly - Fast turnaround, reasonable price
Easy render - Although more of a platform for freelance artists, this service can be beneficial for those with small scale projects
TOP ARCHITECTURAL RENDERING TUTORIALS OF 2019
This artist is crazy talented and gives a comprehensive Luxury Real estate Toronto tutorial on architectural rendering with 3ds max and Vary
This is a quick, fun, basic tree 3d tree tutorial for Maya
High-level dream house tutorial we really enjoyed
For more tutorials check out our Top Free 3D Tutorial page
TOP FREE 3D SOFTWARE OF 2019
They created a guide highlighting some of Toronto real estate rendering favorite free 3D software, and the top free architecture software here are the top 3 for 2019
Blender - In their opinion, the perennial champ
Free CAD - Open source 3d modeling software
Lux core render - Open source 3d rendering software
2019 ARCHITECTURAL RENDERING TECHNOLOGY TRENDS
3D designing tools have become revolutionary
In the way that engineers and architects work through their building designs for communicating with investors in Architecture firm Canada. For example, parametric modeling has provided Building Teams with a way to incorporate weight tolerances and various other types of information into their finalized designs.
In addition, these tools will also assist a designer when it comes to their sculpting, painting and 3D environment drawing in a manner that feels more natural in 2019, than in the past. This technology accommodates those who wish to have a simple-to-use tool that transcends the difficulties that once existed between being appealing and having more functionality.
SKETCHUP CONCEPTUAL DESIGN
Having been originally developed as a generalized 3D content application, Sketch Up was introduced in 2002. It was created in order to provide professional designers with a way to draw on a computer monitor in the same manner as they could through the use of a paper and pen. Its simplistic interface allowed the designer to play around with their designs in a manner that just wasn’t possible with previous designing software. It allows you to draw your design in a style reminiscent of 2D using a patented “push-pull” technology.
Afterward, it will allow you to transfer that design to a 3D format. Since Google bought the company (2006), additional features have been included. One of these features involves an integration of the software with Google Earth. This way, geospatial data can be incorporated with a completed design that resides in a particular environment.
Both construction and architect professionals have stated that they are impressed by the newfound freedom associated with creating designs and mock-ups with the use of a mouse operating as a pen. Also, since many projects involve limited design details, Sketch Up will provide a way to illustrate the way that the design will actually be built.
For example, a large hospital can be presented as a 3D model with only a simple 2D sketches as a basis for the design. At that point, the subsequent 3D design can actually be constructed without coordination problems.
The Google Sketch Up free version can export a 3D design to a .kmz, dae., and .skp format. The complete Pro version will support; .wrl, .xsi, .obj, .fbx, .dxf, .dwg, .dae, and .3ds files, as well.
The new version will integrate its Component Browser with Google’s 3D Warehouse (stored models that Sketch Up users have made). It also features; photograph extracted views, components that are designed to respond correctly to scaling and a Ruby app interface. The integration with Ruby will allow the designer to create their own tools and then import those tools with the API.
2019 saw further progression in our ability to print 3D designs into physical objects.
It is no longer necessary to physically shop-build architectural models.
This, in essence, has provided a completely different type of designer workflow. Even so, there are still some clients who demand physical models to show the interested party’s design intent. You’ll usually find this with clients who aren’t all that familiar with computers.
Fortunately, 3d Printing companies provide a way to take 3D files and use them to “print” resin and powder models that are minutely detailed. The best part that this will only take hours, rather than days!
Here, you can create a perfect 3D model in the manner that you intended, rather than the way the model shop employee views it. This complement to 3D tools and BIM is being utilized more and more by smaller companies as a way to set themselves apart from other firms. In addition, the cost of material for printing models has decreased to approximately $5-3 per material cubic inch. CMYK color can also be used in order to allow the designer the freedom to show what they would like to illustrate. Also, just about every 3D design program can export a file to the STL format in order to print in 3D.
When using advanced 3d tools, it can easily be predicted that 2020 will see an ever-widening revolution in the architectural and design world. This is occurring for two significant reasons. First of all, you have a situation in which software has been extensively improved to provide designers with what they really want. Secondly, computing power has increased to the point where the full potential of the 3D software can be used and still be cost-effective.