December 21, 2022
ENSIS Series info: http://www.amada.com/america/ensis-se…
The ENSIS Series utilizes a highly innovative resonator to automatically and precisely adjust the diameter of the laser beam. This unique feature enables continuous processing of thin-to-thick materials by a single machine and no lens change or additional setup is required.
source
ENSIS Series info: http://www.amada.com/america/ensis-se… The ENSIS Series utilizes a highly innovative resonator to automatically and precisely adjust the diameter of the laser beam. This unique feature enables continuous processing of thin-to-thick materials by a single machine and no lens change or additional setup is required. source
November 24, 2022
ENSIS 3015 RI information: https://bit.ly/2zZaHeV
AMADA engineered the 3kW ENSIS 3015 RI to include an innovative Rotary Index with the power and speed to efficiently transition from flat sheet to tube or pipe cutting. Incorporating fiber laser cutting technology helps users process a variety of tubing and pipe with greater speeds compared to a CO2 system.
source
ENSIS 3015 RI information: https://bit.ly/2zZaHeV AMADA engineered the 3kW ENSIS 3015 RI to include an innovative Rotary Index with the power and speed to efficiently transition from flat sheet to tube or pipe cutting. Incorporating fiber laser cutting technology helps users process a variety of tubing and pipe with greater speeds compared to a CO2 system. source
November 1, 2022
ENSIS 6, 9, & 12kW Information: https://cutt.ly/rbnEzdh
The 6, 9, & 12kW ENSIS Series utilizes a collimation system so fabricators can process thin materials and thick plate without a cutting lens change or manual setup. Each module generates 3 to 4 kilowatts of power, eliminating the need for multiple combining points and reducing overall power consumption.
source
ENSIS 6, 9, & 12kW Information: https://cutt.ly/rbnEzdh The 6, 9, & 12kW ENSIS Series utilizes a collimation system so fabricators can process thin materials and thick plate without a cutting lens change or manual setup. Each module generates 3 to 4 kilowatts of power, eliminating the need for multiple combining points and reducing overall power consumption. source
