The seven main types of additive manufacturing are vat photopolymerization, material extrusion, and material jetting.
Other types include powder bed fusion, binder jetting, and directed energy deposition.
Sheet lamination is also a category used for building parts layer by layer.

7 Types of Additive Manufacturing

1. Vat Photopolymerization (VPP)

Principle

Liquid photopolymer resin is hardened using UV light or laser

How it works

A laser or projector selectively cures liquid resin layer by layer

Materials

Photopolymer resins (plastic-like materials)

Applications

Dental models
Jewelry
Prototypes

Key feature

👉 Very high surface finish and accuracy

2. Material Jetting (MJ)

Principle

Droplets of liquid material are jet-sprayed and solidified

How it works

Like an inkjet printer, but 3D

Materials

Photopolymers
Waxes

Applications

Multi-color prototypes
Medical models

Key feature

👉 Can print multiple materials at once

3. Binder Jetting (BJ)

Principle

Liquid binder is sprayed onto powder layers to glue particles together

How it works

Powder spread → binder printed → layers bonded

Materials

Metals
Sand
Ceramics

Applications

Metal parts (after sintering)
Sand molds for casting

Key feature

👉 No heat required during printing stage

4. Powder Bed Fusion (PBF)

Principle

Powder is selectively melted or sintered using a laser/electron beam

How it works

Thin powder layer → laser melts selected areas → repeat

Materials

Metals (steel, titanium, aluminium)
Polymers (in SLS)

Applications

Aerospace components
Medical implants

Key feature

👉 Produces high-strength functional metal parts

5. Material Extrusion (ME)

Principle

Material is melted and extruded through a nozzle

How it works

Filament is heated → deposited layer by layer

Materials

PLA, ABS plastics
Composite filaments

Applications

Low-cost 3D printing
Prototyping

Key feature

👉 Most common desktop 3D printing method

6. Directed Energy Deposition (DED)

Principle

Material is fed and melted using laser, plasma, or electron beam

How it works

Metal powder or wire is deposited while energy source melts it

Materials

Metals only (steel, titanium, nickel alloys)

Applications

Repairing turbine blades
Aerospace parts
Large metal structures

Key feature

👉 Used for repair and large-scale metal deposition

7. Sheet Lamination (SL)

Principle

Sheets of material are bonded and cut layer by layer

How it works

Sheets are stacked → glued or welded → cut to shape

Materials

Paper
Plastic sheets
Metal foils

Applications

Low-cost prototypes
Large models

Key feature

👉 Fast and low-cost but lower accuracy

Summary Table

Type	Process	Material	Key Feature
Vat Photopolymerization	UV curing resin	Photopolymers	High accuracy
Material Jetting	Droplet printing	Resin/wax	Multi-material
Binder Jetting	Powder + binder	Metal/sand	No heat needed
Powder Bed Fusion	Laser melting powder	Metals/polymers	Strong parts
Material Extrusion	Melted filament	Plastics	Low cost
Directed Energy Deposition	Laser melting feed	Metals	Repair/addition
Sheet Lamination	Layer bonding sheets	Sheets/foils	Simple & fast

Summary:

👉 The 7 types of additive manufacturing differ mainly in:

Material form (powder, liquid, wire, sheet)
Energy source (laser, heat, binder, UV light)
Application (prototype vs functional parts)

Conclusion:

The seven types of additive manufacturing are vat photopolymerization, material jetting, binder jetting, powder bed fusion, material extrusion, directed energy deposition, and sheet lamination, each differing in material form and processing method.