SPECIALIZED 3D PRINTING
HOW DOES OUR SERVICE WORK?
We are committed to providing high quality services,
at affordable costs, in record time.
YOU DESIGN IT
WE 3D PRINT IT
We manufacture your prototypes and end-use parts with the best professional 3D printers.
YOU RECEIVE IT
We ship worldwide by express delivery.
HIGH-PROFILE SERVICES
COLOR ON DEMAND
Your own tailored color
3D print your design with the exact color you like.
(Applies only for PLA)
We use the RAL K5 Classic as our guide.
As it is a highly customized service, expected lead times are between 1-2 months.
3D PRINTING MATERIALS
PLA
Polyactic Acid
Biodegradable filament which is derived from renewable resources, such as corn starch, tapioca roots, chips, starch, or sugarcane. Compared to ABS, PLA is stronger, more rigid and gives a glossier look and feel.
We count with a wide variety of colors for you to choose.
PLA/PHA
Polyactic Acid / Polyhydroxyalkanoate
The added PHA makes our grade of PLA tougher and less brittle than generic PLA grades in the market.
PHA (polyhydroxyalkanoate) is like PLA a bio-polyester, so our unique blend is still 100% biodegradeable.
METAL PARTICLES
PLA/PHA + Metal powder
It is 3 times heavier than regular PLA/PHA.
When you sand and polish the piece, the metal particles will shine unlike any 3D printing filament you have seen before.
Steel (PLA/PHA + fine steel powder)
Bronze (PLA/PHA + fine bronze powder)
Copper (PLA/PHA + fine copper powder)
GLOW IN THE DARK
PLA/PHA + concentrated phosphorescent pigment
You can pimp-up your 3D printings by selecting the glow in the dark filament, which will make your prints stand out from the rest.
FDA APPROVED
Food contact compliance
FDA compliant 3d printing materials for food and beverage direct contact.
Also safe for food and beverage containers.
FLEXIBLE
TPU (Thermoplastic Polyurethane)
This material is so soft, squishy, and non-slip.
Ideal for key handlers, container caps, door stoppers, furniture rubber feet, cable holders, dampeners, handlebar grips, or even flat shoes and sneakers!
GRAPHENE (CONDUCTIVE MATERIAL)
(PLA or TPU) + nano-carbon particles
*You can choose between PLA or flexible filament.
This material can be used for conductive traces/circuits and capacitive touch sensors.
High Strength Mechanical/Functioning Parts: much stronger than typical ABS or PLA. Ideal for hand-tools, hooks, or parts which require tooling.
Electromagnetic and Radiofrequency Shielding: capable of uses within EMI and RF shielding applications. Perfect for applications within the telecommunications, medical device, packaging, aerospace, and automotive industries.
Great for capacitive sensors used to measure proximity, humidity, position, fluid levels, acceleration and more.
SMOOTH
Excellent clarity
Ideal for creations that need to be functional, durable, efficient and, above all, attractive.
The material uses diffuse reflection to scatter light in all directions. For the eye, it is hard to spot layering.
WOODS
PLA/PHA + fine wood fibers
Wood (PLA/PHA + fine pinewood fibers)
Cork ( PLA/PHA + fine cork fibers)
BIOCOMPATIBLES
Orthopedic applications
Orthopedic (polyolefin matrix): ensures exceptional lightweight and elasticity. Ideal material for printing busts, corrective corsets and upperleg tutors.Only available in color black color.
Orthopedic (Polyamide Carbon Fiber): Is a high strength material, which is ideal for light limb prosthetics, mobility supports and exoskeletal elements. Only available in black color.
CO-POLYESTER + CARBON FIBER
PETG + High-Modulus Carbon Fiber
Great for anyone that desires a structural component with high modulus, excellent surface quality, dimensional stability and light weight.
Not carbon powder or milled carbon fiber.
ENGINEERING GRADE
3D PRINTING MATERIALS
CARBON FIBER CORE
*Engineering grade performance material
Ideal for printings that require absolute strength while still staying lightweight. The best material in terms of performance and strength to weight ratio.
Carbon Fiber printings are non-toxic.
NYLON (100%)
*Engineering grade performance material
Nylon is very strong with good material memory,which allows it to spring back to its original shape after it has been put under strain.
It is an engineering grade performance material for the development of functional products that will load bearing and need to be durable under repetitive stresses.
Diverse colors available.
FIBERGLASS CORE
*Engineering grade performance material
An excellent electrical insulator which has a greater specific resistance (tensile strength/volumetric mass) than steel, resistant to variations in temperature and also an excellent electrical insulator.
KEVLAR CORE
*Engineering grade performance material
A solution for prototype and end-use parts that need to be durable, impact resistant and highly resistant to abrasion.
It is very resistant to surface wear and has higher compressive strain at break characteristics than Carbon Fibre or Fiberglass. Therefore, Nylon parts reinforced with Kevlar are flexible yet strong.
NYLON + FIBERGLASS
Reinforced nylon filament + 30% fiberglass
This material exhibits high strength and thermal performance.
Due to high wear resistance, it is ideal for use in a factory environment, being industrial tooling a key area of application for this material.