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Micromachines | Free Full-Text | A Review of Spatter in Laser Powder Bed Fusion Additive Manufacturing: In Situ Detection, Generation, Effects, and Countermeasures
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Mechanisms of the protrusion at the rear of the molten pool due to the... | Download Scientific Diagram
![Effects of laser scanning speeds on different states of the molten pool during selective laser melting: Simulation and experiment - ScienceDirect Effects of laser scanning speeds on different states of the molten pool during selective laser melting: Simulation and experiment - ScienceDirect](https://ars.els-cdn.com/content/image/1-s2.0-S0264127520300757-gr11.jpg)
Effects of laser scanning speeds on different states of the molten pool during selective laser melting: Simulation and experiment - ScienceDirect
A complete model of keyhole and melt pool dynamics to analyze instabilities and collapse during laser welding
A complete model of keyhole and melt pool dynamics to analyze instabilities and collapse during laser welding
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Sinusoidal oscillating laser welding of 7075 aluminum alloy: Hydrodynamics, porosity formation and optimization - ScienceDirect
1 Laser powder-bed fusion additive manufacturing: physics of complex melt flow and formation mechanisms of pores, spatter, and d
![Micromachines | Free Full-Text | Review of Visual Measurement Methods for Metal Vaporization Processes in Laser Powder Bed Fusion Micromachines | Free Full-Text | Review of Visual Measurement Methods for Metal Vaporization Processes in Laser Powder Bed Fusion](https://www.mdpi.com/micromachines/micromachines-14-01351/article_deploy/html/images/micromachines-14-01351-g005.png)
Micromachines | Free Full-Text | Review of Visual Measurement Methods for Metal Vaporization Processes in Laser Powder Bed Fusion
![Schematic of laser – material interaction and associated surface effects | Download Scientific Diagram Schematic of laser – material interaction and associated surface effects | Download Scientific Diagram](https://www.researchgate.net/publication/257337428/figure/fig1/AS:297411265220608@1447919779150/Schematic-of-laser-material-interaction-and-associated-surface-effects.png)
Schematic of laser – material interaction and associated surface effects | Download Scientific Diagram
![Figure 2: Main effects plot of uncertain parameters: absorptivity, recoil pressure coefficient and laser beam radius on the melt pool dimensions (width and depth) | FLOW-3D Figure 2: Main effects plot of uncertain parameters: absorptivity, recoil pressure coefficient and laser beam radius on the melt pool dimensions (width and depth) | FLOW-3D](https://www.flow3d.co.kr/wp-content/uploads/Figure-2-Main-effects-plot-of-uncertain-parameters-absorptivity-recoil-pressure-coefficient-and-laser-beam-radius-on-the-melt-pool-dimensions-width-and-depth.png)
Figure 2: Main effects plot of uncertain parameters: absorptivity, recoil pressure coefficient and laser beam radius on the melt pool dimensions (width and depth) | FLOW-3D
I am trying to Simulate recoil pressure effect for laser welding for that case I am using following formula (17). I am not getting what here "I" denotes. I am assuming it
![Metals | Free Full-Text | The Characteristics of Laser Welding of a Thin Aluminum Tab and Steel Battery Case for Lithium-Ion Battery Metals | Free Full-Text | The Characteristics of Laser Welding of a Thin Aluminum Tab and Steel Battery Case for Lithium-Ion Battery](https://pub.mdpi-res.com/metals/metals-10-00842/article_deploy/html/images/metals-10-00842-g008.png?1593010708)
Metals | Free Full-Text | The Characteristics of Laser Welding of a Thin Aluminum Tab and Steel Battery Case for Lithium-Ion Battery
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