SLA vs. FDM: Comprehensive Comparison & Key Benefits

SLA Definition and Comparison to FDM

Stereolithography is a photopolymer-based 3D printing technology. It was first invented by Hideo Kodama in 1980 but commercialized and patented in 1986 by Charles Hull. The process works by shining a UV laser against a scanning mirror. The mirror directs the laser light in a pattern that traces out the cross-section of a single layer of the part. This laser then polymerizes the photosensitive material wherever the laser hits a solid surface – either the build platform or the previous layer. After each layer is polymerized, the build platform typically moves upwards with the part appearing to grow out of the liquid. alternatively, a bottom-up type process is also possible, but uncommon. SLA parts need to be post-processed in a solvent bath to remove excess resin and must be post-cured.

This is in contrast to FDM printers which extrude a plastic filament through a heated nozzle and deposit them onto the build plate. SLA can print parts with significantly better resolution than FDM. However, FDM printers are cheaper in general. 

To learn more, see our guide on What is SLA.

What are the Advantages of SLA Compared to FDM?

Listed below are some key advantages of SLA vs. FDM:

• SLA has significantly improved resolution and print quality when compared to FDM.
• SLA can print significantly faster than FDM printers without compromising quality.

What are the Disadvantages of SLA Compared to FDM?

Listed below are some key disadvantages of SLA vs. FDM:

• SLA printing is significantly more expensive than FDM. This is both in terms of the materials and the machine. 
• SLA parts tend to be weaker than FDM parts. This is due to the mechanical properties of photopolymers which are weaker than the thermoplastic materials used in FDM.

Attribute

Print resolution

SLA

25 to 300 Micron

FDM

50 to 500 Micron

Attribute

Typical maximum print volume

SLA

29” x 25” x 21”

FDM

36" x 36" x 24"

Attribute

Wide range of material colors

SLA

No

FDM

Yes

Attribute

Minimum feature size

SLA

100 Micron (.1 mm)

FDM

1 mm

Attribute

Has isotropic material properties

SLA

Yes

FDM

No

Attribute

Minimum recommend wall thickness

SLA

0.5 mm

FDM

1.5 mm

Attribute

Parts need support structures

SLA

Yes

FDM

Yes

Table. SLA vs. FDM Comparison

FDM printers can have significantly larger build volumes, whereas SLA printers have much better resolution.

SLA vs. FDM: Technology Comparison

SLA and FDM technologies are not directly comparable. Each printer employs a fundamentally different technology and different materials. FDM technology is significantly simpler. It can be assembled by anyone with basic technical skills. However, SLA machines require specialized knowledge and tools to assemble. SLA makes use of a laser to solidify the part, whereas FDM simply allows the plastic to solidify through natural cooling.

SLA vs. FDM: Material Comparison

SLA resin is provided in liquid form. In general, the materials are relatively proprietary and cannot be exchanged between printers. Very few colors are available, and the material range is limited. FDM material is far more common and comes in any color. It also has fillers like carbon fiber to improve part strength. Most FDM machines can easily accept filaments from different suppliers.

SLA vs. FDM: Product Applications Comparison

SLA is suited to applications that need very fine detail while also not needing exceptional mechanical strength. These applications can include: jewelry patterns for molding, display figurines, and visual prototypes.

FDM is typically used by hobbyists and professionals to print functional and non-functional plastic parts. FDM materials offer more strength and the material properties cover a wide spectrum. Typical applications can include: jigs, brackets, and functional prototypes.

SLA vs. FDM: Print Volume Comparison

FDM printers have a wide range of build volumes, from as small as desktop printers to printers with a build volume of up to a cubic meter. SLA however has smaller build volumes due to the need to keep liquid photopolymer resin stored in the printer. 

SLA vs. FDM: Surface Finish Comparison

SLA produces excellent surface finishes that are significantly better than those possible with FDM printing. FDM parts have visible layer lines that need to be removed with sanding or vapor smoothing, which is only possible with some materials. 

SLA vs. FDM: Cost Comparison

SLA is significantly more expensive than FDM. This is due to the specialized nature of the photopolymers used in SLA. The high-precision UV laser required to print parts with the quality SLA is known for also adds to the cost. FDM printers can be bought for as little as $200 whereas an entry-level SLA printer can cost at least $1,295.

What are the Mutual Alternatives to the SLA and FDM?

Despite the benefits of SLA and FDM, there is an alternative technology that can achieve similar results:

• Polyjet: Polyjet printing is an advanced technology that works by spraying photopolymer drops onto a build plate. A UV light then passes over these droplets to solidify the layer. The next layer is then deposited on the top of the previous one until the part is complete. Polyjet printers have extremely high resolution, typically below 50 microns. The technology can be used to create multi-material parts that simulate rigid and rubber-like materials in a single print. At Xometry, our PolyJet printers are also capable of full-color prints, allowing you to print the part with not only custom colors but textures and images as well. Learn more by visiting our PolyJet printing service page.

What are the Similarities Between SLA and FDM? 

Listed below are some of the similarities between SLA and FDM:

• Both technologies are specifically suited to printing in plastic
• Both require support structures during printing

What are the Other Comparisons for SLA Besides FDM?

Listed below are the comparisons for SLA besides FDM:

• SLA vs. DLP: Digital Light Processing also makes use of a photopolymer to 3D print parts. However, instead of a UV laser, DLP makes use of a high-resolution screen to polymerize the resin. DLP is also faster than SLA, as it polymerizes an entire layer at once. To learn more, see our full guide on SLA vs. DLP.

What are the Other Comparisons for FDM Besides SLA?

Listed below are the comparisons for FDM besides SLA:

• FDM vs. SLS: Selective laser sintering also manufactures parts from thermoplastics using heat. SLS prints almost exclusively in polyamides whereas FDM has a much wider range of material options. SLS also melts the plastic with a laser instead of a heated nozzle. To learn more, see our full guide on SLS vs. FDM.

Dean McClements

Dean McClements is a B.Eng Honors graduate in Mechanical Engineering with over two decades of experience in the manufacturing industry. His professional journey includes significant roles at leading companies such as Caterpillar, Autodesk, Collins Aerospace, and Hyster-Yale, where he developed a deep understanding of engineering processes and innovations.

Read more articles by Dean McClements