chanelink logo
CHANELINK
English

BOFA launches the latest generation of high-temperature 3D printing filtration technology

935
2024-04-15 17:06:21
See translation

BOFA has consolidated its position as a market leader in additive manufacturing of portable smoke and particle filtration systems with the latest generation of 3D PrintPRO technology designed specifically for high-temperature processes.

3D PrintPRO HT focuses on the 230V market and can filter high-temperature particles, gases, and nanoparticles emitted during polymer processing in the printing room. Its working temperature can reach up to 100 ° C, allowing manufacturers to process high-performance functional materials while protecting the print head and working environment from the impact of air pollutants. It is particularly suitable for melt deposition modeling, stereo lithography, and digital light processing.

This performance is achieved through the application of advanced electronic devices, insulated and highly insulated connection kits, intelligent airflow management, and advanced filtering architecture, ensuring energy-saving and low heat loss emissions in higher temperature chamber environments.
The modular design method of BOFA makes 3D PrintPRO HT an ideal choice for closed-loop continuous operation, providing a maximum airflow of up to 100 cubic meters per hour to filter particles during the printing process. There is also one at 30 meters ³ The open loop intermittent operation (purification cycle) carried out with a fixed airflow can filter out particulate matter and gas. Both of these requirements can be met through pairing kits. This technology also features a filter replacement indicator and integrates filter status communication with the host.

"Our latest generation of 3D PrintPRO HT system showcases how BOFA reflects the evolving additive manufacturing market. This means that manufacturers can benefit from high-performance polymers that require higher chamber temperatures, while helping to protect workplace atmosphere and expensive equipment investments through portable extraction," commented Arran Morgan, Senior Product Manager at BOFA.

Source: Laser Net

Related Recommendations

  • Accurate measurement of neptunium ionization potential using new laser technology

    Neptunium is the main radioactive component of nuclear waste, with a complex atomic structure that can be explored through mass spectrometry. This analysis is crucial for understanding its inherent characteristics and determining the isotopic composition of neptunium waste. Magdalena Kaja and her team from Johannes Gutenberg University in Mainz, Germany have developed a novel laser spectroscopy te...

    2024-05-11
    See translation

  • Free space nanoprinting beyond optical limitations can create 4D functional structures

    Two photon polymerization is a potential method for nanofabrication of integrated nanomaterials based on femtosecond laser technology. The challenges faced in the field of 3D nanoprinting include slow layer by layer printing speed and limited material selection due to laser material interactions.In a new report in Progress in Science, Chenqi Yi and a team of scientists in the fields of technical s...

    2023-10-09
    See translation

  • New photon avalanche nanoparticles may usher in the next generation of optical computers

    A research team led by Lawrence Berkeley National Laboratory (Berkeley Lab), Columbia University, and Autonomous University of Madrid has successfully developed a novel optical computing material using photon avalanche nanoparticles. This breakthrough achievement was recently published in the journal Nature Photonics, paving the way for the manufacture of optical memory and transistors at the nano...

    02-28
    See translation

  • The 2025 Munich Laser Exhibition has come to a successful conclusion

    Around 1,400 exhibitors and 44,000 visitors created “optimistic atmosphere”, says Messe München.Laser World of Photonics 2025 in Munich, Germany, came to a close on Friday, having set a new record for number of exhibitors and new innovations, said the organizer Messe München. Last week, 1,398 exhibitors from 41 countries presented the full spectrum of photonic technologies to around 44,000 visitor...

    06-30
    See translation

  • Scientists demonstrate effective fusion "spark plugs" in groundbreaking experiments

    Researchers from the Laser Energy Laboratory at the University of Rochester led the experiment and demonstrated an efficient "spark plug" for direct driving of inertial confinement fusion. In two studies published in the journal Nature Physics, the team shared their findings and detailed the potential to expand these methods with the aim of successful nuclear fusion in future facilities.LLE is the...

    2024-03-04
    See translation