OBDF110

Above are the final renders of my model made in Rhino.  As for the physical object, I am working on improving my craft and assembling an appealing-looking object this week.  Another step in my papercraft process. This time I scaled up my model, removed the troublesome leaf, separated the main apple exterior into upper and lower halves to fit an eight-and-a-half by eleven sheet of cardstock, and laser-cut my apple with added tabs to see if it was functioning yet. This current draft lacks a few final details, like the teeth. I'll be introducing these final touches to the model when I have improved the craft of the object as a whole by using hidden applications of glue instead of tape. 

  First I scaled up my apple in Rhino to what I felt was an appropriate size. I’ve decided now that I want to try something larger, but the size I set it to for this prototype was about two inches in diameter.  I bought colored card stock and separated each unwrapped layer in order to print. Then I discovered that my printer would not print on card stock and a trip to Staples was just as unsuccessful. So, I didn’t know how to proceed. I decided to just make an accurately scaled prototype of this type, having to try again in color on the next one. I’m still unsure how to approach the differently colored sections. I tried to trace the patterns from plain card stock onto the different colors, but my tracing paper didn’t leave much of a mark and was imprecise. I have to experiment with cutting out individual sections of the apple to attach to the rolled and taped version or finding some way to print on colored card stock.   So far I’m mostly satisfied with this prototype...

 To begin my process of modeling an apple I traced out the shape I wanted and then mirrored it for symmetry. Then I copied and rotated the wireframe at the center until I had a 3D wireframe. From there I traced the veritcal lines horitzonally and had an even more detailed wireframe. The image above was my attempt to create an apple with curved lines and using the loft function, then switching between mesh and NURBs to create foldable sections. This resulted in too many pieces for my liking when it unrolled.  Above you can see the more successful more geometric apple, better suited for papercraft. Though there were fewer planes using this approach, I needed to individually create each plane using sweep1 and sweep2 . Once I had this outer shell I needed to do even more work to cut into it.  To create this cross section I deleted a quater of the visible planes and drew new lines connecting the top and bottom halves of the apple. When I print it, this section doesnt bend anyw...