design for 3d printing
DESCRIPTION
Design for 3D Printing. Cody Wilson -Arkansas. Water bottle holder for my recumbent bicycle's oval shaped frame. Replacement for the plastic table clamp of an old Luxo lamp Replacement plastic foot for a camera tripod Extension for my mouse to make it large enough for my hand - PowerPoint PPT PresentationTRANSCRIPT
Design for 3D Printing
Cody Wilson -Arkansas
Water bottle holder for my recumbent bicycle's oval shaped frame.
Replacement for the plastic table clamp of an old Luxo lamp
Replacement plastic foot for a camera tripod Extension for my mouse to make it large
enough for my hand Z shaped key for an antique Chinese brass lock
Material extrusion Material jetting Binder jetting Sheet lamination printers Vat photopolymerization Powder bed fusion Selective Laser Sintering (SLS) Selective heat sintering (SHS) Direct Metal Laser Sintering (DMLS) Directed energy deposition
File sizes 50 to 64 MB, and a polygon count limit of 500,000
polygons Polygon sizes
Small enough to make smooth surfaces Not too small, makes work for the printer, minimum
detail size printer can handle Modeling Precision
In 3D design packages, you can have exact fit. 3D printers may not print exactly what you have designed.
Acrylonitrile Butadiene Styrene (ABS) Polylactic acid (PLA) Aliphatic polyamide (nylon) Polyethylene terephthalate (PET) LAYWOO-D3 Photopolymers Metal Food Cells
Watertight
Manifold
A manifold vertex is one that is connected to another vertex by an edge
A manifold edge is one that has exactly two polygons associated with it
A vertex without an edge An edge without a polygon An edge from a polygon to a single vertex An edge between vertices of two different
polygons, but not associated with any polygon Non-manifold edges surrounding a polygon (the
polygon may be unneeded) Two vertices that are very, very close together
and have separate edges when they should be in the same location and share edges, so they leave a tiny hole in the surface
A missing polygon causing a hole in the surface
Non-contiguous faces
Degenerate geometry: With faces that have no area and edges that have no length.
Distorted geometry: It has faces that are not flat.
Improper thickness: It has walls that are too thin..
Too sharp: It has edges that are too sharp, and will not print correctly, or the object may break during or after printing because it is too thin and fragile.
Too much overhang: It has polygons that do not have Supports.
Wall Thickness
Dyeing and Painting
