Discover the most precise compact SLS system for all industries

Lisa Pro – extended possibilities

Lisa – industrial quality

Sinterit LISA Pro		Sinterit LISA
Available	Status	Available
Size
316 [mm] (12.4 [in])	Max. size of print diagonally	245 [mm] (9.6 [in])
110 x 150 x 250 mm (4.3 x 6.2 x 9.1 [in])	Flexa/TPE – high accuracy max print volume	110 x 150 x 150 [mm] (4.3 x 6.3 x 5.9 [in])
90 x 130 x 230 [mm] (3.5 x 4.7 x 9 [in])	PA – high accuracy max print volume	90 x 130 x 130 [mm] (3.5 x 4.7 x 5.1 [in])
Materials
Built-in	Nitrogen chamber	–
PA11 Onyx PA12 Smooth Flexa Black Flexa Grey Flexa Soft Flexa Bright TPE Materials for nitrogen use open materials	Powders	PA12 Smooth Flexa Black Flexa Grey Flexa Soft Flexa Bright TPE
Usability
Sinterit Studio 2019	Software	Sinterit Studio 2019
Capacitive 7 [in]	Touchscreen	Resistive 4 [in]

Full comparison [PDF]

ALL OUR VIDEOS

Among our customers are engineers, educators, inventors, designers from the companies of all sizes and top world universities.

Lisa helps us to produce in our own workhouse
the SLS parts, saving time and money.
The lasted update of the software is a great step,
making easiest the use of the printer.

Eloy Bautista

Technical Director, Eceleni, Spain
Sinterit LISA is the most accessible means to produce
precise constraint-free solutions to modern problems.
The technology does what it says on the tin and the team
at Sinterit are dedicated to working with their customers
to achieve their objectives.

Maurice Briggs

Director at Lazerthrust
I had been thinking about the Lisa for some time so I decided
last week to just go ahead and do it. I can tell you that the hardest
part of using the printer was getting it up the stairs. After that,
I simply unpacked it, read the instructions, prepared the printer,
and let it run. The small part took a few hours to print, so I went
downstairs, had dinner, watched a movie, and returned later to
a cooling printer. I didn't worry about the print going bad halfway
through and coming back to a blob of melted nylon being dragged
around the inside of the printer by a hot nozzle. After it finished,
I simply opened it up and found my model exactly how I had imagined.

Shane Mahon

Netherlands
"What makes the Sinterit Lisa so unique
is the successful integration of SLS technology
into a compact and easy to use machine"

all3dp.com
"It was the best choice for me to fulfill
all requirements: possibility to print complex structures,
price, speed, reliability."

Rigo Herold

Professor Dr.-Ing., Zwickau University in Germany
"I am engineer by heart - I needed a precise printer
and I just knew I wanted a small practical SLS printer.
Lisa is a genius concept, a mix of what's
best from FDM and SLS."

Joseph Tilstra

engineer and inventor
"Sinterit Lisa printer prints objects with excellent resolution.
It is a desktop size easy to use printer able to print
in SLS quality - unbelievable quality
for such an affordable price."

Domagoj Vrsalijko

professor, Ph. D.

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Plug & print

Before shipping, every printer passes a few days long calibration and testing procedure in our factory to make your experience as smooth as possible.

News

23 July, 2019

Open parameters: how to start experimenting with SLS powders

There is a wide variety of polymer powders suitable for the SLS technology. How come that the materials have such different properties? Polyamide (PA) is strong and resistant while thermoplastic polyurethane (TPU) is elastic and rubber-like. To answer those questions you need to zoom in into the molecular structure of the polymers.

Engineers are converting into 3D printing to get better-paid jobs

It is impossible to imagine the future of automotive, aerospace or even medicine without rapid prototyping. Engineers and lab assistants are learning this new technology to become better-paid professionals. What is the most effective way to learn advanced 3D printing technology?

Universities need small SLS 3D printers. Comparison with big SLS devices.

Education sector uses 3D printers a lot. From simple and cheap FDMs to the most sophisticated metal printing devices. Teaching, testing, printing a lot. Those devices need to be simple, affordable, high tech and easy to repair.