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Author Topic: How can I do the optimization with layup definition?  (Read 25689 times)

iankim

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How can I do the optimization with layup definition?
« on: September 12, 2008, 02:37:52 AM »
I sort of suceeded in HyperSizer optimization with equivalent orthotropic material
thanks to the help of Phil.

My next question is how I can do the optimization with layup definition(in other words,
laminate-based optimization)?
In optimization approach presentation of HyperSizer, it looks like they optimized
RLV structure with layup definition set as variable.
But when I added layup definition for available material, HyperSizer doesn't have
any flexibility in variables(which means setting upper/lower bound and permutation
doesn't affect optimization) because layup definition already has thickness information.
Can I define layup order and thickness of each lamina like RLV example?

I thought I would be able to optimize the structure with layup variable such as
how much 0 degree %, 45 degree %, 90 degree % of total laminate.

Phil

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Re: How can I do the optimization with layup definition?
« Reply #1 on: September 15, 2008, 10:26:45 AM »
Two points here:

1. Generally, you don't want to pair a layup with an equivalent orthotropic material.  The equivalent orthotropic material already has the information for a full layup contained within.  In addition, the thickness of the equiv ortho material, when treated as a ply in a layup is the same as the layup from which the material came.  Therefore, if you pair up the layup with the equivalent ortho, you are sort of double bookkeeping.

See the Material Manager user's manual, especially examples 3 and 4, to see how to use equivalent orthotropics and their relationship with layups and laminates.

2. To optimize with discrete layups, the only option is to create many layups or laminates (or use the layups shipped with HyperSizer), put all of these layups into a sizing variable (say the facesheet), and then let HyperSizer select which layup to use.

Equivalent Orthotropic optimization is designed to get you in the ballpark for the relative number of plies that you need and the % of 0s, 45s, 90s.  Once you get in the ballpark using equivalent orthos (i.e. take the optimized thickness of the equivalent ortho and divide by the discrete ply thickness to get the number of plies) , then you should create or pick layups from the database that fit these general guidelines and let HyperSizer pick the best layup.