About INTAMSYS
INTAMSYS TECHNOLOGY CO., LTD. was founded in 2016 by a team of engineers with many years of experience in precision equipment development and high performance materials research, INTAMSYS has unequivocally emerged as a global leader in delivering cutting-edge solutions for industrial 3D printing and direct additive manufacturing, propelling the industry standard forward.
Specializing in FFF technology, INTAMSYS is empowering the customers from various sectors including aerospace, defense, automotive, renewable energy, medical, electronics, etc get the best out of 3D printing for rapid prototyping, functional testing, tooling, jigs and fixtures, end-use parts production. With branches in Germany, the United States, and China, INTAMSYS maintains a global network of partners, ensuring seamless service delivery worldwide.
Our Commitment
Creating infinite possibilities to reshape the future!
As a frontrunner in the realm of additive manufacturing solutions, INTAMSYS continually pioneers cutting-edge innovations and techniques, fostering an ecosystem that enables customers to achieve smart manufacturing.
Our dedication lies within harnessing industrial FDM technology to accelerating the integration of 3D printing into end-use part production. We’re actively transforming the limitations of traditional manufacturing – reinventing a more efficient and cost-effective manufacturing landscape.
Our Offices
APAC (Headquarters)
INTAMSYS Technology Co.Ltd
Building E11,No.3188 Xiupu Road, Pudong New District,201315 Shanghai
Tel:021-58465932
EMEA
INTAMSYS Technology GmbH
Zeppelinstr.35, 73760 Ostfildern, Germany
AMER
INTAMSYS Technology Inc.
11479 Valley View Rd, Eden Prairie, MN. 55344, United States
PRODUCT
FUNMAT PRO 610HT
LARGE BUILD VOLUME INDUSTRIAL 3D PRINTER
With a 610 x 508 x 508mm build volume, the FUNMAT PRO 610HT is our largest and most feature-packed 3D printer. Its high-temperature thermal system includes a 300°C constant chamber temperature and 500°C extruders temperature with all-metal hot end.
Using its dual nozzles, the FUNMAT PRO 610HT is ideal for printing large high-performance functional materials using materials like PEEK, ULTEM™(PEI), PPSU & more
FUNMAT PRO 410
MAKE YOUR IDEAS A REALITY
Start printing in various high-performance materials (PEEK, PEEK-CF, PEEK-GF, PEKK, PPS) and engineering materials (PA, PA-CF, PC, ABS) with a large build volume. Your industrial applications deserve unmatched accuracy, high-quality industrial-grade parts, and the possibility to iterate faster, even with complex parts.
With a simple setup and intuitive operation, the FUNMAT PRO 410 is a great solution. intelligent features like filament jam & absence warning, and power failure recovery will make your printing experience smoother and more pleasant.
Whether you are working in aerospace, automotive, power & energy, or any other industry requiring high-performance parts, this printer unlocks infinite possibilities that extend well beyond prototyping.
FUNMAT PRO 310
Bring industrial performance to your desktop
The FUNMAT PRO 310 responds to the growing demands of professional engineers with a thermostatic chamber and full-size printing capability on a desktop machine.The thermostatic chamber can reach up to 100℃ (212 ℉} to print engineering plastics with a build volume of 305 x260 x 260 mm, Plug&play and easy-to-remove modular lDEX design provides multiple printing modes.With whole-process control, the FUNMAT PRO 310 offers engineering material capabilities such as ASA, ABS, PC, PC-ABS, PA and PA-CF with INTAMSYS user-friendly 3D model-slicing software,INTAMSUITETM.
FUNMAT HT
DESIGNED FOR PEEK 3D PRINTING
The FUNMAT HT is an affordable, high-performance 3D printer with a build volume of 260 x 260 x 260 mm. Achieve 50-micron high-resolution industrial quality 3D printing of the FUNMAT HT.
The advanced thermal system design of this 3D printer includes:
90°C constant temperature chamber
160 °C heated build plate
450 °C high-temperature extruder with an all-metal hot end
Applacation
Research
Argonne National Laboratory
Argonne has advanced isotope recycling by 3D printing PEEK contactors with INTAMSYS, which efficiently separate chemicals via centrifugation, facilitating the bulk recovery of molybdenum-98 and molybdenum-100.
Chinese Academy of Sciences’ Space Manufacturing Lab
The lab utilizes INTAMSYS 3D printers to create PEEK structures that, after laser processing, integrate both conductivity and sensing capabilities. These smart structures, known for their superior mechanics, sensitivity, and stability, are versatile, easy to produce, and cost-efficient.
General Manufacturing
JLC 3D printing Service
INTAMSYS helps JLC break through its large-sized 3D printing service business
Aero
Canadian Horizon Aircraft Company: 3D Prints 80% of Functional Components on Hybrid Electric eVTOL Aircraft
The “Fanwing” prototype, printed with PEEK-CF material on the FUNMAT PRO 610HT, has successfully completed flight tests, meeting thrust requirements and passing performance assessments, confirming the design’s viability.
Nanjing Tech University: Leverages PEEK for 3D Printing CubeSatellites in the QB50 Program
CubeSatellites’ brief lifespan aligns with cost-effective 3D printing. PEEK’s radiation resistance and temperature endurance safeguard internal components for in-situ lower thermosphere measurements in low Earth orbit.
Nexair Avionics: Iterates Discontinued Aircraft Components with 3D Printing
Reverse engineering and 3D printing streamline the production process, eliminating the need for costly molds and enabling rapid, cost-effective mass production of discontinued aircraft dashboard components.
Auto
SIKA Group
Automotive groups see prototype verification speed increase 80-90% with INTAMSYS 3D Printing
SANKI
3D Printing nables OEMs, component manufacturers, and after-sales service providers to manufacture complex, custom parts quickly end efficiently
GreenTeam Electronic Racing Car
E0711-11 EVO uses 3D Printing to achieve lightweight design and rapid repair
Medical
Surgery for Bone Tumor Resection and 3D Printed PEEK Skull Implant at Tangdu Hospital
Using CT scan data, a customized porous skull patch was 3D printed for preoperative planning and rapid repair of the skull defect.
UCSF, Orthopedic Center: Spinal Fusion Surgery for Degenerative Spinal Conditions Using 3D-Printed PEEK Implants
A custom-designed porous intervertebral fusion implant, based on CT scan data of the affected disc, was swiftly 3D printed for preoperative planning simulations, ensuring quick treatment and relief of intervertebral pain.
Jihua Laboratory: Research on Mechanical Biomimetic Structures and 3D Printing of PEEK Cell Culture Matrix
Through animal experiments and clinical trials, the goal is to establish standards for customized functional PEEK implants, ultimately improving outcomes for patients with bone defects.