This resulted in a mesh (having 3 dimensions but a thickness of 0). The blue and lines coming out of the mesh, "combs", show the curvature at that particular point. During manufacture this would correspond to the amount of bend that point would have to undergo to achieve the required shape:
Having brought this mesh into photoview for a test render, I realised that the scale of the mesh was incorrect. To fix this I added a scale modifer to the stack. From there on I added thickness to the surface and modelled a cockpit and adjusted some of the colours. The image below is a screen shot of the finished shell part, and therefore will not be identical in colour or geometry to the render.
This was opened up in photoview for the following render:
But what is a car without wheels? I started a new assembly with the car shell and a new wheel part, which was built seperately:
The wheel was locked in place by using perpendicular, coincident and concentric mating pairs. I only added wheels on the back to begin with. The following renders were calculated in photoview:
Front 3/4
Right
Rear 3/4
Rear Tyre, Depth of Field
This is where the problems began. I wanted to incorporate front tyres too, but the current ones looked too small (on both the front and the back). The front of the car also dropped lower than the base of the rear tyre, meaning that I would have to enlarge the rear tyre to sustain the profile. However to do this I would need to alter the initial sketch profile of the surface cage. When I tried this I got many rebuild errors due tot he scale before adding the other features. So in the end I decided to bring the wheel out from the body of the car, resulting in a caricatured/remote controlled look. The front tyre was a copied version of the rear tyre with the scale changed. The wheels were then rigged to the axles, and then an assembly belt was added. This meant that if and wheel was rotated (i.e if it were moving along the ground), the opposite tyre would rotate at the same rate and the other tyre pair would rotate at the correct speed (faster or slower depending on the diameter ratios). The final assembly and belt can be seen here:
Opened in photoview for the following renders:
Satin Finish Front
Gloss Finish Front
3/4 Black
3/4 Final
No comments:
Post a Comment