Liver Shell
Design should be of a liver shell. It should be an anatomically accurate model that can be printed if needed to. The inside should be hallow and the liver should include a hole on top where the hyper-vein would normally be and a hole on bottom where the vein would leave. The liver shell should be a 2 piece design that can be clicked/ screwed together to symmetrically put together the 2 halves.
http://www.exchange3d.com/3D-Model-of-Liver-Anatomy/prod_28235.html#preview
A more simplified version of this will be perfect.
KC Royals 3D Printed Trophy Competition
Winning design wins $1500 in cash and website credit!
We’re now accepting submissions and have extended the submission deadline to give everyone Turkey Day weekend as extra time to perfect their design (or to submit multiple designs!). Please send us your submission(s) before end of day Monday, November 30th, by emailing trophycontest@3Diligent.com with the following details:
Your trophy CAD file
Your name, birth date, address, telephone number and preferred email address
Your preferred printing process for the design
Your preferred materials and finish for the design
Here’s a link to the official contest rules: http://news.3diligent.com/trophy-contest-terms/
A complex helix for visualising a pedagogic hypothesis
The spiral of learning (Kolb & Kolb) is a simple helix visualising the learner's progress. I need to visualise a more complex spiral. Turns on this helix are circular. Each turn represents an interaction between teacher and learner. This helix contains 1 grand turn. A grand turn contains at least 3 smaller turns. This creates a turn complex. Each turn achieves a small or large rise on the z axis depending on the diameter of the turns on the x and y axes. In elevation view the turn complex should have a stepped appearance due to the presence of the smaller turns, with the lowest steps at left and the highest at right. The idea to be communicated is that the larger turns contain at least 3-5 smaller turns. Each turn achieves a small increase in z-height as the learner exits the turn, like freeway traffic using a cloverleaf junction. Multiple interactive turns aggregate to a large gain in z-height. In the attached illustration, the largest loop should be understood as not a part of the visualisation. I would like to see two variations of the design:
(1) smaller turns ranged on outside of grand turn diameter
(2) smaller turns ranged on inside of grand turn diameter.
Wall angle
This is a prototype of a wall angle, I need autocad drawings to manufacture this piece.
Juan E. Callejas
Designer