Additive Manufacturing (MATRL 298O)

Processes

Processes 2

Materials

Fundamentals

Components

100

In this AM process, material is pushed through a shaped hole which imparts shape for the material. (ASTM Terminology)

Material extrusion

100

In this AM process, 3D objects are produced by hardening a liquid polymer using light energy into the desired shape. (ASTM terminology)

Vat photopolymerization

100

Molecules that absorb photons upon irradiation with light and form reactive species which initiate consecutive reactions - a component in resin used for vat photopolymerization.

Photoinitiators

100

In material extrusion, if one wishes to increase the deposition rate by using larger filaments, what must one do to the length of the heating element?

Increase

100

Three common light sources for vat photopolymerization.

Laser, digital light projection, LED array

200

In this AM process, 3D objects are produced by melting materials as they are being deposited.

Directed energy deposition

200

In this AM process, 3D objects are produced by fusion of pre-deposited particles using a thermal source.

Powder bed fusion

200

This type of polymer can be softened through heating and processed through extrusion.

Thermoplastic

200

What is the strongest driver for sintering, and what is the strongest particle driver for sintering?

Temperature, particle size

200

Types of powder dispensing (two) and spreading (two) mechanisms.

Hopper and piston, blade and roller

300

In this AM process, 3D objects are produced by consolidation of material dispensed from a printhead.

Material jetting

300

In this AM process, 3D objects are produced by cutting, stacking, and bonding sheets of material.

Laminated object manufacturing

300

Due to brittle nature, these materials commonly require two-step processing for AM, that is the separation of shaping and densification.

Ceramics

300

What are the three classes of functional gradients that can be attained via AM?

Microstructure, porosity, composition

300

Two common types of inkjet printing methods.

Piezoelectric and thermal

400

In this AM process, 3D objects are produced by printing a binder onto a powder for object consolidation. (ASTM terminology)

Binder jetting

400

The name of the technique developed by Wilhelme which serves as a historical precursor to vat photopolymerization.

Photosculpture

400

Rank the following AM processes by size of powder particles used (from smallest to largest): powder bed fusion, binder jetting, directed energy deposition

Binder jetting (<20 microns), powder bed fusion (15-45 microns), directed energy deposition (45-150 microns)

400

This distribution is used to estimate laser intensity distributions for vat photopolymerization and powder bed fusion.

Gaussian

400

Energy sources for powder bed fusion and directed energy deposition.

Laser, electron beam, infrared, arc

500

Name 5 common names for powder bed fusion processes

Laser powder bed fusion, selective laser sintering, selective laser melting, direct metal laser sintering, electron beam powder bed fusion, electron beam melting, high speed sintering, multi-jet fusion