Keywords: ترکیب پودر پودر لیزری; Additive manufacturing; Melt pool monitoring; Coaxial monitoring; Laser powder bed fusion; NIST Additive Manufacturing Metrology Testbed (AMMT);
مقالات ISI ترکیب پودر پودر لیزری (ترجمه نشده)
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در صورتی که به ترجمه آماده هر یک از مقالات زیر نیاز داشته باشید، می توانید سفارش دهید تا مترجمان با تجربه این مجموعه در اسرع وقت آن را برای شما ترجمه نمایند.
Keywords: ترکیب پودر پودر لیزری; High-speed imaging; Laser powder bed fusion; Sub-atmospheric pressure; Vacuum;
Keywords: ترکیب پودر پودر لیزری; Laser powder bed fusion; Metal matrix composites (MMCs); Carbon nanotubes; Dispersion; Laser absorptivity;
Keywords: ترکیب پودر پودر لیزری; Additive manufacturing; Laser powder bed fusion; Irregular metal powders; Powder flowability; Powder bed density; De-powdering artifacts; Water atomized iron; Inconel625;
Keywords: ترکیب پودر پودر لیزری; Creep; Two bar specimen; Additive manufacture; Inconel 718; Laser powder bed fusion;
Keywords: ترکیب پودر پودر لیزری; Additive manufacturing; Laser powder bed fusion; Selective laser melting; Residual stress; Post-process measurement;
Keywords: ترکیب پودر پودر لیزری; X-ray tomography; microCT; Additive manufacturing; Laser powder bed fusion; Ti6Al4V;
Keywords: ترکیب پودر پودر لیزری; Additive manufacturing; Selective laser melting; Laser powder bed fusion; Fatigue; Shot peening; Laser peening; Laser forming; Laser form correction;
Keywords: ترکیب پودر پودر لیزری; Additive manufacturing; Laser powder bed fusion; Image segmentation; Active contours; Measurement accuracy;
Keywords: ترکیب پودر پودر لیزری; Additive manufacturing; Alloy 625; Laser powder bed fusion; Mechanical properties; Fracture toughness;
Keywords: ترکیب پودر پودر لیزری; Selective laser melting; Laser powder bed fusion; Additive manufacturing; 3D printing; Metal; Defect; Computer simulations; Heat flow; Solidification;
Keywords: ترکیب پودر پودر لیزری; Laser powder bed fusion; Selective laser melting; Tungsten; Refractory metals; Additive manufacturing; High-temperature; 3D printing;
Keywords: ترکیب پودر پودر لیزری; Additive manufacturing; Laser powder bed fusion; Selective laser melting; Composite materials; Contact materials; Copper; Silver;
Microstructure and tensile property of a novel AlZnMgScZr alloy additively manufactured by gas atomization and laser powder bed fusion
Keywords: ترکیب پودر پودر لیزری; Laser powder bed fusion; Aluminum alloy; Gas atomized powders; Microstructure; Tensile properties;
Fracture mechanisms in the as-built and stress-relieved laser powder bed fusion Ti6Al4V ELI alloy
Keywords: ترکیب پودر پودر لیزری; Laser powder bed fusion; Ti6A4V ELI; Impact and fatigue properties; Stress-relief treatment; Fracture analysis;
Characterization of Inconel 625 fabricated using powder-bed-based additive manufacturing technologies
Keywords: ترکیب پودر پودر لیزری; Binder jetting; Powder bed fusion; Microstructure; Electron beam powder bed fusion; Laser powder bed fusion; Inconel 625;
Ti6Al4V lightweight lattice structures manufactured by laser powder bed fusion for load-bearing applications
Keywords: ترکیب پودر پودر لیزری; Additive manufacturing; Laser powder bed fusion; Lattice structure; MicroCT; Simulation; Compressive strength;
Layer-by-layer combination of laser powder bed fusion (LPBF) and femtosecond laser surface machining of fabricated stainless steel components
Keywords: ترکیب پودر پودر لیزری; Laser powder bed fusion; Femtosecond laser; Layer-by-layer; Surface; Machining; Stainless steel 316L;
Solidification pattern, microstructure and texture development in Laser Powder Bed Fusion (LPBF) of Al10SiMg alloy
Keywords: ترکیب پودر پودر لیزری; Additive manufacture; Laser Powder Bed Fusion; AlSi alloys; Solidification microstructure; Crystallographic texture; Cellular structure;
Manufacturing of thin wall structures in AlSi10Mg alloy by laser powder bed fusion through process parameters
Keywords: ترکیب پودر پودر لیزری; Thin wall structures; Laser powder bed fusion; Aluminum alloy;
Printability and microstructure of the CoCrFeMnNi high-entropy alloy fabricated by laser powder bed fusion
Keywords: ترکیب پودر پودر لیزری; High-entropy alloys; Additive manufacturing; Laser powder bed fusion; Rapid cooling; Competitive growth; Epitaxial growth;
Laser powder bed fusion of Hastelloy X: Effects of hot isostatic pressing and the hot cracking mechanism
Keywords: ترکیب پودر پودر لیزری; Laser powder bed fusion; Hastelloy X; Hot isostatic pressing; Fatigue performance; Hot cracking;
Influence of heat treatments on microstructure evolution and mechanical properties of Inconel 625 processed by laser powder bed fusion
Keywords: ترکیب پودر پودر لیزری; Laser powder bed fusion; Nickel superalloys; Tensile behaviour; Microstructure; Hardness;
Influence of layer thickness and post-process treatments on the fatigue properties of CoCr scaffolds produced by laser powder bed fusion
Keywords: ترکیب پودر پودر لیزری; Laser powder bed fusion; CoCr; Fatigue; Layer thickness; (Increased) productivity;
Microstructure and mechanical properties of stainless steel 316L vertical struts manufactured by laser powder bed fusion process
Keywords: ترکیب پودر پودر لیزری; Laser powder bed fusion; Stainless steel 316L; Microstructure; Crystallographic texture; Mechanical properties; Twinning-induced plasticity;
Comparison of the effects of a sulfuric acid environment on traditionally manufactured and additive manufactured stainless steel 316L alloy
Keywords: ترکیب پودر پودر لیزری; Stainless steel; Laser powder bed fusion; Sulfuric acid; Acid corrosion; Hydrogen embrittlement;
Glass forming ability, flexural strength, and wear properties of additively manufactured Zr-based bulk metallic glasses produced through laser powder bed fusion
Keywords: ترکیب پودر پودر لیزری; Additive manufacturing; Laser powder bed fusion; Bulk metallic glasses; Four-point bending; Wear testing;
Controlling the grain orientation during laser powder bed fusion to tailor the magnetic characteristics in a Ni-Fe based soft magnet
Keywords: ترکیب پودر پودر لیزری; Laser powder bed fusion; Microstructure; Texture; Magnetic properties; Microcracking;
Long fatigue crack propagation behavior of Inconel 625 processed by laser powder bed fusion: Influence of build orientation and post-processing conditions
Keywords: ترکیب پودر پودر لیزری; Additive manufacturing; Laser powder bed fusion; Selective laser melting; Nickel-based superalloy; Fatigue crack propagation; Damage tolerance;
Influence of the material properties of a poly(D,L-lactide)/β-tricalcium phosphate composite on the processability by selective laser sintering
Keywords: ترکیب پودر پودر لیزری; Biodegradable polymer implant; Polylactic acid; Additive manufacturing; Laser powder bed fusion; Selective laser melting;
New biocompatible near-beta Ti-Zr-Nb alloy processed by laser powder bed fusion: Process optimization
Keywords: ترکیب پودر پودر لیزری; Additive manufacturing; Selective laser melting; Laser powder bed fusion; Ti-based alloy; Biocompatible superelastic alloy; Processing parameters;
Numerical simulation of Laser Fusion Additive Manufacturing processes using the SPH method
Keywords: ترکیب پودر پودر لیزری; SPH; Selective Laser Melting; Additive Manufacturing; Computer simulations; Heat flow; Laser powder bed fusion;
Corrosion fatigue crack growth of laser additively-manufactured 316L stainless steel in high temperature water
Keywords: ترکیب پودر پودر لیزری; 316L stainless steel; Additive manufacturing; Boiling water reactor; Corrosion fatigue crack growth rate; Laser powder bed fusion;
On the stress corrosion crack growth behaviour in high temperature water of 316L stainless steel made by laser powder bed fusion additive manufacturing
Keywords: ترکیب پودر پودر لیزری; Additive manufacturing; Stress corrosion cracking; Austenitic 316L stainless steel; Boiling water reactor; Crack growth rate; Microstructure; Recrystallization; Laser powder bed fusion; Porosity;
Fatigue and fracture behaviour of laser powder bed fusion stainless steel 316L: Influence of processing parameters
Keywords: ترکیب پودر پودر لیزری; Selective laser melting; Laser powder bed fusion; Stainless steel 316L; Porosity; Fatigue property; Process window;
Influence of particle morphology and size distribution on the powder flowability and laser powder bed fusion manufacturability of Ti-6Al-4V alloy
Keywords: ترکیب پودر پودر لیزری; Laser powder bed fusion; Particle size distribution; Sphericity; Ti-6Al-4V; Layer thickness; Powder flowability;