A Few Quick Tips to Help You Find the Best Femtosecond Laser Micromachine Agency

Femtosecond laser micromachine technology femtofab is a key laser system designed for a particular industrial operation. With the capability to create micro features with high precision and repeatability, nearly in every substrate laser has been commonly used in micro-processing.

Newer femtosecond laser machine choice addresses the growing working distance problem for micromachining and mold texture. Lasers have been an invaluable device for mold makers who have used the technology to produce detail and accuracy beyond the capability of conventional milling or EDM machines. The ultrashort pulse laser machining systems were developed to the use of micromachining femtosecond laser. Femtosecond micromachining was first presented in 1994 when a femtosecond laser was used to create micrometer-sized details on silica and silver surfaces.

Femtosecond lasers have solved these problems, and high-quality micromachining is now possible in a variety of bulk metals. Femtosecond lasers emit very high peak pulse strength, which in effect induces non-linear multiphoton absorption in the material. The emergence of high repetition is another recent trend that has influenced the field of metal micromachining. Throughout more than two decades after a team of researchers from the Center for Ultrafast Optical Science at Michigan University first demonstrated the use of a femtosecond laser for micromachining, this technique has taken the evolutionary transition from experimental hardware to reliability.

The pico and femtosecond laser micromachining have developed into a reliable tool for precise manufacturing. Electronic industries use it to make fine drilling and machining into hard metals and ceramics as well as soft plastic and to form various nano and microtextures for improvement of surface functions and properties in products. Laser micromachining technologies have revolutionized manufacturing in-microelectronics semiconductor photovoltaics led medical device fabrication and many other industries.

Microtexturization of the substrate of an implant that has been studied to improve bone structure in dental implants is one of the femtosecond laser applications. Virtually any material can be treated by the femtosecond laser even though it is transparent, such as glass. Laserod Technologies LLC is dedicated to providing exceptional micromachining services to a variety of industries, including microelectronics, aerospace, medical, solar cell, transducer sensor, touchscreen fabricators, and others.

Laserod’s specialties are drilling and cutting thin materials, small hole drilling, resizing silicon wafers, trimming hybrid resistor circuits, cutting ceramic substrates, and circuit patterning on displays such as ITO on glass and PET. For project orders and more information, call our experts at 310-340-1343/ 888-991-9916.