System, method, and computer program for creating geometry-compliant lattice structures
First Claim
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1. A method of creating a lattice structure for a part formed via additive manufacturing, the method comprising the steps of:
- receiving a computer model of the part via a processor, the computer model having an overall shape;
storing the computer model in a non-transitory computer-readable memory;
generating a finite element mesh corresponding to the overall shape of the part via the processor, the finite element mesh having a plurality of mesh elements;
storing the finite element mesh in the non-transitory computer-readable memory;
generating a lattice cellular component via the processor, the lattice cellular component corresponding to a mesh element of the finite element mesh;
storing the lattice cellular component in the non-transitory computer-readable memory;
generating a lattice structure based on the lattice cellular component via the processor;
storing the lattice structure in the non-transitory computer-readable memory; and
deforming the lattice structure via the processor such that the lattice structure has a cellular periodicity corresponding to the mesh elements of the finite element mesh so that the lattice structure conforms to the shape of the part.
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Abstract
A system and method of creating a shape-conforming lattice structure for a part formed via additive manufacturing. The method includes receiving a computer model of the part and generating a finite element mesh. A lattice structure including a number of lattice cellular components may also be generated. Some of the mesh elements of the finite element mesh may be deformed so that the finite element mesh conforms to the overall shape of the part. The lattice structure may then be deformed so that the lattice structure has a cellular periodicity corresponding to the finite elements of the finite element mesh. In this way, the part retains the benefits of its overall shape and the benefits of lattice features without introducing structural weak points, directional stresses, and other structural deficiencies.
24 Citations
20 Claims
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1. A method of creating a lattice structure for a part formed via additive manufacturing, the method comprising the steps of:
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receiving a computer model of the part via a processor, the computer model having an overall shape; storing the computer model in a non-transitory computer-readable memory; generating a finite element mesh corresponding to the overall shape of the part via the processor, the finite element mesh having a plurality of mesh elements; storing the finite element mesh in the non-transitory computer-readable memory; generating a lattice cellular component via the processor, the lattice cellular component corresponding to a mesh element of the finite element mesh; storing the lattice cellular component in the non-transitory computer-readable memory; generating a lattice structure based on the lattice cellular component via the processor; storing the lattice structure in the non-transitory computer-readable memory; and deforming the lattice structure via the processor such that the lattice structure has a cellular periodicity corresponding to the mesh elements of the finite element mesh so that the lattice structure conforms to the shape of the part. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16)
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17. A system for creating a part via additive manufacturing, the system comprising:
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a computer modeling system comprising; a processor configured to; receive a computer model of the part according to inputs received from a user, the computer model having an overall shape; generate a finite element mesh corresponding to the overall shape of the part; generate a lattice cellular component according to inputs received from the user, the lattice cellular component corresponding to a mesh element of the finite element mesh; generate a lattice structure based on the lattice cellular component; and deform the lattice structure such that the lattice structure has a cellular periodicity corresponding to the mesh elements of the finite element mesh so that the lattice structure conforms to the shape of the part; a non-transitory computer readable memory configured to store the computer model, finite element mesh, lattice cellular component, and lattice structure thereon; a transceiver for communicating with other devices over a wireless communication network; a plurality of inputs for receiving the inputs of the user; and a display configured to visually produce the computer model, finite element mesh, lattice cellular component, and lattice structure to aid the user in developing the part; and an additive manufacturing system configured to produce the lattice structure via additive manufacturing material deposited layer by layer according to the computer model of the part. - View Dependent Claims (18, 19)
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20. A method of creating a lattice structure for a part formed via additive manufacturing, the method comprising the steps of:
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receiving a computer model of the part via a processor, the computer model having an overall shape; storing the computer model in a non-transitory memory; dividing the computer model of the part into at least two sections via the processor; generating a hexahedron finite element mesh corresponding to the at least two sections of the computer model of the part via the processor, the finite element mesh having a plurality of mesh elements each having a plurality of corner nodes and edge midpoint nodes; storing the hexahedron finite element mesh in the memory; generating a lattice cellular component via the processor, the lattice cellular component corresponding to a mesh element of the finite element mesh; storing the lattice cellular component in the memory; generating a lattice structure based on the lattice cellular component via the processor; shifting corner nodes and edge midpoint nodes of at least some of the mesh elements of the finite element mesh in one of the two sections via the processor such that the finite element mesh conforms to the overall shape of the part; and deforming the lattice structure via the processor such that the lattice structure has a cellular periodicity corresponding to the mesh elements of the finite element mesh so that the lattice structure conforms to the shape of the part.
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Specification
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Current AssigneeHoneywell Federal Manufacturing & Technologies, LLC (Honeywell International Inc.)
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Original AssigneeHoneywell Federal Manufacturing & Technologies, LLC (Honeywell International Inc.)
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InventorsVernon, Gregory John
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Primary Examiner(s)Dang, Phuc
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Application NumberUS14/997,238Publication NumberTime in Patent Office1,201 DaysField of SearchUS Class CurrentCPC Class CodesB29C 64/386 Data acquisition or data pr...B33Y 50/02 for controlling or regulati...G05B 19/4099 Surface or curve machining,...G05B 2219/35134 3-D cad-camG05B 2219/49007 Making, forming 3-D object,...Y02P 90/02 Total factory control, e.g....
