【3D Printing News】INTAMSYS Pro 310 brings industrial-grade 3D printers to you!
The industrial 3D printing market is currently experiencing rapid growth. FFF, as one of the mainstream 3D printing technologies, is considered one of the most promising processes for mass production due to its widest range of printing materials and excellent mechanical properties of the printed parts.
As a global leader in providing high-performance material 3D printing and industrial additive manufacturing solutions, INTAMSYS's FUNMAT series printing equipment uses industrial-grade thermoplastic polymer materials to produce durable and dimensionally stable parts, with products boasting first-class physical properties and surface effects. Currently, INTAMSYS has successfully launched several industrial-grade 3D printers to the market, including FUNMAT PRO 610HT, FUNMAT PRO 410, and FUNMAT HT. The printing materials cover high-performance materials for high-end applications to engineering plastics for wide industrial applications, providing an integrated multi-material 3D printing solution.
As a global leader in providing high-performance material 3D printing and industrial additive manufacturing solutions, INTAMSYS's FUNMAT series printing equipment uses industrial-grade thermoplastic polymer materials to produce durable and dimensionally stable parts, with products boasting first-class physical properties and surface effects. Currently, INTAMSYS has successfully launched several industrial-grade 3D printers to the market, including FUNMAT PRO 610HT, FUNMAT PRO 410, and FUNMAT HT. The printing materials cover high-performance materials for high-end applications to engineering plastics for wide industrial applications, providing an integrated multi-material 3D printing solution.
To quickly respond to customers' high-quality and diverse prototyping and production needs, INTAMSYS continuously explores process technologies. On November 15th, a new member of the FUNMAT series, the FUNMAT PRO 310, was officially launched globally. The launch took place simultaneously via online live stream at the INTAMSYS Shanghai headquarters and at Formnext Frankfurt.
The FUNMAT PRO 310 integrates various cutting-edge technologies, enabling perfect printing of multiple engineering materials. This allows engineers to focus on business innovation and meet various application requirements.
The FUNMAT PRO 310 integrates various cutting-edge technologies, enabling perfect printing of multiple engineering materials. This allows engineers to focus on business innovation and meet various application requirements.
Chamber Temperature and Printing Formation
The printing build size is an important reference factor for users when selecting equipment. Currently, for most desktop 3D printers, achieving large-sized and full-sized object formation during actual printing remains a challenge. Warping, deformation, delamination, and cracking frequently occur, leading to printing failures. This is because the filament is in a high-temperature molten state when extruded by the print head, and if the ambient temperature drops too quickly during the forming process, internal stress will be present within the material.
At the same time, poor interlayer bonding should be avoided as much as possible during the forming process. However, relying solely on bed heating cannot ensure temperature consistency during the forming process. Therefore, a sealed chamber design and a stable average chamber temperature are priority conditions for ensuring perfect printing of objects.
Excellent Constant Temperature Chamber Design Brings True Full-Size Forming Capability for Engineering Plastics
The FUNMAT PRO 310 features an integrated sealed and insulated design, which reduces heat loss. The heating temperature in each area of the chamber is uniform and stable, reaching a maximum of 100℃, enabling true large-format, full-size forming of engineering plastics up to 305x260x260mm.
The printing build size is an important reference factor for users when selecting equipment. Currently, for most desktop 3D printers, achieving large-sized and full-sized object formation during actual printing remains a challenge. Warping, deformation, delamination, and cracking frequently occur, leading to printing failures. This is because the filament is in a high-temperature molten state when extruded by the print head, and if the ambient temperature drops too quickly during the forming process, internal stress will be present within the material.
At the same time, poor interlayer bonding should be avoided as much as possible during the forming process. However, relying solely on bed heating cannot ensure temperature consistency during the forming process. Therefore, a sealed chamber design and a stable average chamber temperature are priority conditions for ensuring perfect printing of objects.
Excellent Constant Temperature Chamber Design Brings True Full-Size Forming Capability for Engineering Plastics
The FUNMAT PRO 310 features an integrated sealed and insulated design, which reduces heat loss. The heating temperature in each area of the chamber is uniform and stable, reaching a maximum of 100℃, enabling true large-format, full-size forming of engineering plastics up to 305x260x260mm.
Stable Output and High-Quality Printing
"Reliability" is high praise for a printer, and all efforts made by the FUNMAT PRO 310 are also aimed at making it easier for customers to enjoy industrial-grade high-quality printing.
The independent dual-nozzle design, combined with support material solutions, ensures the surface quality of complex structural parts. The plug-and-play, easy-to-disassemble modular independent dual-nozzle design allows for flexible dual-nozzle, duplicate, and mirror printing. It provides perfect water-soluble and easy-peel support material solutions for various engineering materials such as ABS/PC/PC-ABS/PA/PA-CF, ensuring the surface precision of formed parts and achieving high-quality complex structural formation.
"Reliability" is high praise for a printer, and all efforts made by the FUNMAT PRO 310 are also aimed at making it easier for customers to enjoy industrial-grade high-quality printing.
The independent dual-nozzle design, combined with support material solutions, ensures the surface quality of complex structural parts. The plug-and-play, easy-to-disassemble modular independent dual-nozzle design allows for flexible dual-nozzle, duplicate, and mirror printing. It provides perfect water-soluble and easy-peel support material solutions for various engineering materials such as ABS/PC/PC-ABS/PA/PA-CF, ensuring the surface precision of formed parts and achieving high-quality complex structural formation.
Combined with engineering material support solutions, it ensures the quality of complex structural objects and flexibly implements duplicate and mirror printing with dual-drive gear extrusion, delivering greater torque and higher reliability. Dual-channel cooling with stronger cooling capabilities and automatic speed adjustment. The fully sealed material compartment design, coupled with reusable molecular sieves, actively absorbs moisture to maintain low humidity within the material compartment for extended periods, eliminating the need for repeated filament drying and ensuring long-term printing quality for moisture-sensitive materials like nylon (PA).
Rigid Structural Frame Design, Enhancing Printing Precision
The entire body features a rigid metal frame, reducing vibrations during printing. Coupled with a high-precision motion control system, it achieves long-term continuous and stable printing. An independent sheet metal frame reduces printing vibrations. The XYZ-axis frame and chamber heating are independently designed to prevent frame deformation due to high temperatures and reduce mechanical thermal expansion. The print head's maximum movement speed is 500mm/s, and the maximum printing speed is 120mm/s.
The entire body features a rigid metal frame, reducing vibrations during printing. Coupled with a high-precision motion control system, it achieves long-term continuous and stable printing. An independent sheet metal frame reduces printing vibrations. The XYZ-axis frame and chamber heating are independently designed to prevent frame deformation due to high temperatures and reduce mechanical thermal expansion. The print head's maximum movement speed is 500mm/s, and the maximum printing speed is 120mm/s.
Magnetic flexible print bed. Better first-layer adhesion, easy removal of printed objects, and reusable.
Intelligent Design and Full-Process Control
A 7-inch full-color touchscreen with a brand-new UI allows for quick and easy setup and printing after simple configuration. Intelligent multi-point automatic bed leveling provides real-time compensation for motion precision, eliminating the need for manual calibration, making it quick and easy to get started. With automated task queue management and rich API interfaces, it seamlessly integrates with MES systems to meet customer needs for Industry 4.0.
Multi-Point Mesh Automatic Leveling
The leveling module offers two modes: 4×4 and 10×10 points. Real-time compensation for motion precision eliminates the need for manual calibration, making it quick and easy to get started.
Excellent Intelligent Interface Design for an Unparalleled Customer Experience
New UI, supports print model preview and progress display, automated task queue management, USB printing, local storage of print jobs, and remote networked printing.
New UI, supports print model preview and progress display, automated task queue management, USB printing, local storage of print jobs, and remote networked printing.
New Process Control Software Empowers Customer Business Innovation
Intelligent path planning algorithms based on different goals meet diverse application needs for customers; includes a rich accumulated library of material process packages, combined with intelligent detectability of part printability to improve printing success rates; networked printing function supports visual monitoring, traceability of production history data, and online diagnostic maintenance, achieving full-process control of printing.
Supports mainstream file formats such as .stl/.obj/.x3d/.3mf/.stp/.iges, etc.
Intelligent path planning algorithms based on different goals meet diverse application needs for customers; includes a rich accumulated library of material process packages, combined with intelligent detectability of part printability to improve printing success rates; networked printing function supports visual monitoring, traceability of production history data, and online diagnostic maintenance, achieving full-process control of printing.
Supports mainstream file formats such as .stl/.obj/.x3d/.3mf/.stp/.iges, etc.
INTAMSYS is dedicated to meeting a wide range of 3D printer needs, from aerospace and medical device design to automotive parts manufacturing and many other fields.
With ever-changing consumer demands, cost control throughout the enterprise's industry chain, from production and design to warehousing and logistics, is crucial. INTAMSYS hopes to achieve cost reduction and mass production by combining additive manufacturing equipment with software design, effectively shortening production cycles.
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With ever-changing consumer demands, cost control throughout the enterprise's industry chain, from production and design to warehousing and logistics, is crucial. INTAMSYS hopes to achieve cost reduction and mass production by combining additive manufacturing equipment with software design, effectively shortening production cycles.
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