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Fiber laser pointer maker SPI Laser opens a new manufacturing plant
Laser pointer:
SPI Laser (Southampton, UK), a manufacturer of industrial fiber laser pointers, celebrates the grand opening of its new UK laser pointer manufacturing facility. The new building was completed in just six months, adding approximately 40,000 square feet of manufacturing space and a total area of ​​over 100,000 square feet. Fiber Laser Pointer Maker SPI Laser Expands Manufacturing Capacity Christian Schmitz, CEO of Laser Technology at Trumpf (Diesingen, Germany), the parent company of SPI Laser, presided over the ceremony.
Crow repulsion:
SPILasers employees from across the UK and representatives from Trumpf, the Center for Optoelectronics Research (ORC) at Southampton University, and the Eastley Autonomous Region Commission attended the meeting. In addition to expanding the laser pointer production facility, the company's new locations will also include new offices, new mezzanines to accommodate laser pointer product development and training areas, conference rooms and staff cafeterias.
Green laser pointer:
Green laser pointer treats smoke from femtosecond laser treatment
Examples of femtosecond laser treatment include the manufacture of hard glass, thin film patterning, and electrode construction of lithium-ion batteries. Advanced laser pointer laser technology can improve the utilization of the manufacturing process. This helps to gain insight into laser smoke, a key factor affecting product quality, machine life, environmental / safety and health considerations. Ultrashort Pulse (USP) Blue Laser Pointer The laser process focuses on non-melting preparation and brings exciting new applications.
Blue laser pointer:
Almost all advanced laser pointer technologies, from the manufacture of hard glass to thin film photomotive power patterns to electrode structures for lithium-ion batteries, rely on USP laser technology. This study was performed with a femtosecond laser with a wavelength of 1064 nm. 3 Investigate the relationship between the type of ablated material, particle size distribution and particle concentration, and specifically evaluate the difference in particle size between steel and plastic. Red Laser Pointer Aerosols produced by laser material processing are captured near the source and sucked towards the filter system.
Red laser pointer:
Engine exhaust particle size (EEPS) spectrometers are used to continuously measure particle size distribution and can measure particle size in the range of 5.6 to 560 nm. For this purpose, the sample is analyzed on the instrument. The particles in the sample are positively charged and move in the electric field towards the electrometer, where the charge is transferred-the charge is a measure of the surface area of ​​the particle. Depending on their electrical mobility, the particles reach different electrometers. The particle size distribution is calculated based on the current. In addition, the sample was removed from a laser pointer filter and examined under a secondary electron microscope (SEM) to analyze the shape of the particles. Use the LAS 260 filter system (Figure 1) to filter the original gas. The purple laser pointer system is a storage filter with F9 pleated pre-filter function.
Purple laser pointer:
The pre-filter consists of a high surface area and a clear cross flow to extend the life of the filter. The HEPA grade H14 secondary particle filter ensures that the cleaning capacity reaches 0.005% of the total particle number. Under the air stream, activated carbon is placed to eliminate harmful gases that may be generated during laser processing. The performance of the LAS260 filter system has also been determined. To do this, keep the laser pointer stationary and use the EEPS method to measure the particle concentration of the original and purified gas.

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