Aluminum Laser Cutting - Laser Cutting
Cost-Effective Laser Blankinging Fiber Laser. Compatible with Coil Feeding Systems. Up to 15% Savings in Materials! Reduce Your Costs with a Coil-Fed Laser System. Contact
We are more than an aluminium alloy solution provider.
Do you need consumer aluminium alloy products or learn more info about aluminum alloy prices?
Cost-Effective Laser Blankinging Fiber Laser. Compatible with Coil Feeding Systems. Up to 15% Savings in Materials! Reduce Your Costs with a Coil-Fed Laser System. Contact
Open-cell aluminium foams cannot be formed by conventional mechanical processes because of the occurrence of failure during deformation. In this study, open cell-aluminium foams with different densities were laser bent by means of a diode
This work investigates the effect of laser parameters, orientation-position-curvature of scan path, the number of scans, and foam thickness on the bending angle achieved while forming 95% porous pure aluminum (99.7% aluminum) open cell foam plates using a diode
Open cell aluminum foam having high porosity has the potential to increase the efficiency of a heat exchanger and also to be used for diverse other functions. However, being prone to fail easily under tensile mechanical load, their thermal forming using a laser has been proposed in the literature. This work investigates the effect of laser parameters, orientation-position-curvature of scan
A new forming method for open-cell aluminum (Al) foams by laser was introduced. Laser forming is generally applied to sheet metals but a good formability was observed also for Al alloy cellular structures. In this study, laser bending tests were performed on rectangular samples made of open-cell Al alloy foams by means of a diode laser. Laser scan velocity and power were changed in the
The current work attempts to investigate the process of laser forming of open cell aluminium foams using a thermo-mechanical numerical
Of two copies produced via laser PBF, one copy exhibited a similar sequence of local failure events and, correspondingly, qualitatively similar load-displacement response as the conventionally manufactured foam sample, suggesting that laser PBF is capable of producing foams that provide similar mechanical response as conventional open-cell
Abstract Laser welding of open-cell aluminum foam and solid shell was performed with the objective of fabricating promising hybrid metallic materials. In this study, a feasibility of laser welding of a solid A6063 aluminum sheet to an open-cell AC2A aluminum foam was investigated. The effects of various laser-welding parameters such as laser power, welding speed, and defocused distance in
Nowadays, innovative materials have gained an increasing market share in several industrial fields. One of these novel materials are open cell metal foams. Those can be found in different industrial applications such as in batteries, implants or chemical filters, since high surface-to-volume ratios are needed. In the past, laser technology highlighted the solution for various challenges
Remote laser cutting offers a solution for decreasing the production costs as well as the needed component accuracy. Our investigations reveal that this technique has a high potential concerning cutting speed of open cell aluminum foam, which was increased by more than 500% compared to state-of-the-art laser
Laser forming of open-cell aluminum foams has been modeled by means of a 3D finite element model which is able to take into account the real foam geometry as well as the main process variables. A parametric procedure has been defined for the geometry construction and meshing, and the simulation run. In order to calibrate and validate numerical modeling, compression and flexure tests were
Reduce Cost combining Fiber Laser with a Coil Feeding System. Contact Us
Open-cell aluminium foams cannot be formed by conventional mechanical processes because of the occurrence of failure during deformation. In this study, open cell-aluminium foams with different densities were laser bent by means of a diode
Open cell aluminum foam having high porosity has the potential to increase the efficiency of a heat exchanger and also to be used for diverse other functions. However, being prone to fail easily under tensile mechanical load, their thermal forming using a laser has been proposed in the literature. This work investigates the effect of laser parameters, orientation-position-curvature of scan
Remote laser cutting offers solutions for upcoming chal-lenges concerning shaping of open cell metal foam out of steel and aluminum. An achievable cutting speed of up to 200 m/min is
This work investigates the effect of laser parameters, orientation-position-curvature of scan path, the number of scans, and foam thickness on the bending angle achieved while forming 95% porous pure aluminum (99.7% aluminum) open cell foam plates using a diode
A new forming method for open-cell aluminum (Al) foams by laser was introduced. Laser forming is generally applied to sheet metals but a good formability was observed also for Al alloy cellular structures. In this study, laser bending tests were performed on rectangular samples made of open-cell Al alloy foams by means of a diode laser. Laser scan velocity and power were changed in the
Of two copies produced via laser PBF, one copy exhibited a similar sequence of local failure events and, correspondingly, qualitatively similar load-displacement response as the conventionally manufactured foam sample, suggesting that laser PBF is capable of producing foams that provide similar mechanical response as conventional open-cell
Abstract Laser welding of open-cell aluminum foam and solid shell was performed with the objective of fabricating promising hybrid metallic materials. In this study, a feasibility of laser welding of a solid A6063 aluminum sheet to an open-cell AC2A aluminum foam was investigated. The effects of various laser-welding parameters such as laser power, welding speed, and defocused distance in
Laser forming of open-cell aluminum foams has been modeled by means of a 3D finite element model which is able to take into account the real foam geometry as well as the main process variables. A parametric procedure has been defined for the geometry construction and meshing, and the simulation run. In order to calibrate and validate numerical modeling, compression and flexure tests were
Open cell aluminum foam having high porosity has the potential to increase the efficiency of a heat exchanger and also to be used for diverse other functions. However, being prone to fail easily under tensile mechanical load, their thermal forming using a laser has been proposed in the literature. This work investigates the effect of laser parameters, orientation-position-curvature of scan
Open cell metal foam contributes promising solutions to the light weight design, battery applications and renewable energy harvesting. Still, challenges are present concerning the cutting into a defined shape. The remote laser cutting offers a solution for decreasing the production costs as well as the needed component
Laser forming of open-cell aluminum foams has been modeled by means of a 3D finite element model which is able to take into account the real foam geometry as well as the main process
Open-cell aluminium foams cannot be formed by conventional mechanical processes because of the occurrence of failure during deformation. In this study, open cell-aluminium foams with different densities were laser bent by means of a diode
Remote laser cutting offers a solution for decreasing the production costs as well as the needed component accuracy. Our investigations reveal that this technique has a high potential concerning cutting speed of open cell aluminum foam, which was increased by more than 500% compared to state-of-the-art laser
The current work attempts to investigate the process of laser forming of open cell aluminium foams using a thermo-mechanical numerical
This work investigates the effect of laser parameters, orientation-position-curvature of scan path, the number of scans, and foam thickness on the bending angle achieved while forming 95% porous pure aluminum (99.7% aluminum) open cell foam plates using a diode
High Productivity Flexibility. Lower Cost Per Part. Faster Part Extraction Sorting with New X-GAP System. Fully Customizable. Contact
Laser forming tests have been performed on open-cell aluminum alloy foams with different pore size. Laser power was fixed at 150 W, a total of 150 laser scans led to a bending angle up to 60°,… Expand 8 2
These experi-mental results were consistent with laser forming experiment results of open-cell aluminum plates and aluminum foam sand-wiched (AFS) panels
The open-cell cast alloy with foams in the solid shell can be used as active elements in heat exchangers. Laser welding is expected to be particularly suitable for joining of aluminum alloys because it can control a weld fusion zone due to high-intensity energy concentrated on a narrow
Open cell aluminum foam having high porosity has the potential to increase the efficiency of a heat exchanger and also to be used for diverse other functions. However, being prone to fail easily under tensile mechanical load, their thermal forming using a laser has been proposed in the literature. This work investigates the effect of laser parameters, orientation-position-curvature of scan
Of two copies produced via laser PBF, one copy exhibited a similar sequence of local failure events and, correspondingly, qualitatively similar load-displacement response as the conventionally manufactured foam sample, suggesting that laser PBF is capable of producing foams that provide similar mechanical response as conventional open-cell