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Week 8 - Challenge 1 - Base Bracket Design
Draft Analysis When a plastic component is made, we can observe that there is a draft angle given on each side from the base which is lesser than 90 degrees. This is because in the criteria of making a plastic material the mold should release the material when finished. if the mold surfaces are 90 degrees…
NAVEEN KUMAR
updated on 08 Feb 2023
Draft Analysis
When a plastic component is made, we can observe that there is a draft angle given on each side from the base which is lesser than 90 degrees. This is because in the criteria of making a plastic material the mold should release the material when finished. if the mold surfaces are 90 degrees the material won't release from the mold because of friction due to contraction of material when cooled.
To resolve this problem we CAD engineers maintain a standard rule to design the plastic mold or die's in such a way that there is no problem while ejecting the plastic component. So a minimum of 3 - 10 degrees of draft angle is given to every plastic component while designing.
Tooling axis creation
The tooling axis is the direction of drawing a sheet metal where the finished component is easily ejected on a particular direction and axis. The tooling axis is important for removing the material when finished.
Creation of tooling axis (bisecting method)
Step 1:
Identify the required and most perfect plane which is suitable for creating a tooling axis.
the XY plane is most suitable for the creation of the tooling axis.
Step 2:
Create a dummy axis that will be used until creating an original tooling axis. And then take reference curve by taking a section from the ZX plane and using those boundary curves for creating a bisecting curve and that curve will be the tooling clearing for x-direction.
dummy tooling axis
tooling axis using the bisecting method
Step 3:
after creating the actual axis curve we can now perform the draft analysis on the given class-A surface. before performing the analysis change material property to customizable view parameters.
Step 4:
After the Draft analyzing if the Class A surface is 'ok,' we can create the class B surface which will be about 2.5 mm thickness.
designing of RIB 1 and 2.
complete creation of B surface
Step 5:
After completing the class B surface. the next step is to create the Class C surface. This surface will join the Class A and B surfaces together using the boundary of the Class A surface.
before trim and join of all surfaces with Class A surface.
After joining all surfaces with class A surface.
Various views of solid model
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