Works matching DE "METAL powders"
Results: 2857
Metal Activation Produces Different Reaction Environments for Intermediates during Oxidative Addition.
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- Chemistry - A European Journal, 2024, v. 30, n. 14, p. 1, doi. 10.1002/chem.202304105
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Molten Salt Strategy for Reproducible Evaporation of Efficient Perovskite Solar Cells.
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- Advanced Functional Materials, 2023, v. 33, n. 10, p. 1, doi. 10.1002/adfm.202211232
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Effect of synthesis variables on viscoelastic properties of elastomers filled with carbonyl iron powder.
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- Journal of Polymer Research, 2017, v. 24, n. 9, p. 1, doi. 10.1007/s10965-017-1299-z
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- Article
Compaction of the SiC granule by cyclic CIP.
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- Journal of Materials Science, 1999, v. 34, n. 10, p. 2469, doi. 10.1023/A:1004583204235
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Effect of partial mechanical alloying on the self-propagating high-temperature synthesis of Ni3Si.
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- Journal of Materials Science, 1999, v. 34, n. 7, p. 1477, doi. 10.1023/A:1004535407965
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Preparation of various titanium suboxide powders by reduction of TiO2 with silicon.
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- Journal of Materials Science, 1999, v. 34, n. 6, p. 1287, doi. 10.1023/A:1004589813050
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Liquid phase sintering of an AA2014-based composite prepared from an elemental powder mixture.
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- Journal of Materials Science, 1999, v. 34, n. 3, p. 545, doi. 10.1023/A:1004594628862
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Thermal conductivity of metal powder-polymer feedstock for powder injection moulding.
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- Journal of Materials Science, 1999, v. 34, n. 1, p. 1, doi. 10.1023/A:1004424401427
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Sintering behaviour of mechanically alloyed and coprecipitated 12Ce–PSZ powders.
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- Journal of Materials Science, 1998, v. 33, n. 13, p. 3437, doi. 10.1023/A:1013262103187
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- Article
In-situ porosity prediction in metal powder bed fusion additive manufacturing using spectral emissions: a prior-guided machine learning approach.
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- Journal of Intelligent Manufacturing, 2024, v. 35, n. 6, p. 2719, doi. 10.1007/s10845-023-02170-9
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Applications of machine learning in metal powder-bed fusion in-process monitoring and control: status and challenges.
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- Journal of Intelligent Manufacturing, 2023, v. 34, n. 6, p. 2557, doi. 10.1007/s10845-022-01972-7
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Balling behavior of stainless steel and nickel powder during selective laser melting process.
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- International Journal of Advanced Manufacturing Technology, 2012, v. 59, n. 9-12, p. 1025, doi. 10.1007/s00170-011-3566-1
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Modeling the powder compaction process using the finite element method and inverse optimization.
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- International Journal of Advanced Manufacturing Technology, 2011, v. 56, n. 5-8, p. 631, doi. 10.1007/s00170-011-3211-z
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- Article
Imperfections in laser clading with powder and wire fillers.
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- International Journal of Advanced Manufacturing Technology, 2010, v. 50, n. 1-4, p. 175, doi. 10.1007/s00170-009-2480-2
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Consecutive sub-sector scan mode with adjustable scan lengths for selective laser melting technology.
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- International Journal of Advanced Manufacturing Technology, 2009, v. 41, n. 7/8, p. 706, doi. 10.1007/s00170-008-1527-0
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- Article
Research on manufacturing Cu matrix Fe-Cu-Ni-C alloy composite parts by indirect selective laser sintering.
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- International Journal of Advanced Manufacturing Technology, 2007, v. 33, n. 7/8, p. 693, doi. 10.1007/s00170-006-0493-7
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Manufacturing of multi-functional micro parts by two-component metal injection moulding.
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- International Journal of Advanced Manufacturing Technology, 2007, v. 33, n. 1/2, p. 176, doi. 10.1007/s00170-006-0666-4
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Direct additive laser manufacturing using gas- and water-atomised H13 tool steel powders.
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- International Journal of Advanced Manufacturing Technology, 2005, v. 25, n. 5/6, p. 471, doi. 10.1007/s00170-003-1844-2
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- Article
Effect of powder particle size on the microscopic morphology and mechanical properties of 316 L stainless steel hollow spheres.
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- Granular Matter, 2025, v. 27, n. 1, p. 1, doi. 10.1007/s10035-024-01495-3
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- Article
Powder spreading in laser-powder bed fusion process.
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- Granular Matter, 2021, v. 23, n. 4, p. 1, doi. 10.1007/s10035-021-01162-x
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A DEM study of powder spreading in additive layer manufacturing.
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- Granular Matter, 2020, v. 22, n. 1, p. 1, doi. 10.1007/s10035-019-0971-x
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Powder compaction law for cold die pressing.
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- Granular Matter, 2010, v. 12, n. 6, p. 617, doi. 10.1007/s10035-010-0203-x
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Time-dependent behavior of fine-grained model material in resonant column experiments.
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- Granular Matter, 2004, v. 6, n. 4, p. 195, doi. 10.1007/s10035-004-0178-6
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Study on the Preparation of Refractory High-Entropy Alloys by Explosive Sintering.
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- Combustion, Explosion, & Shock Waves, 2024, v. 60, n. 5, p. 684, doi. 10.1134/S0010508224050149
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Two-Level Models of Composite Synthesis: History and Potential.
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- Combustion, Explosion, & Shock Waves, 2024, v. 60, n. 1, p. 42, doi. 10.1134/S0010508224010052
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Experimental Study of Unsteady Burning Rate of High-Energy Materials under Depressurization.
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- Combustion, Explosion, & Shock Waves, 2023, v. 59, n. 2, p. 244, doi. 10.1134/S0010508223020168
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Laser Ignition of Aluminum and Boron Based Powder Systems.
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- Combustion, Explosion, & Shock Waves, 2022, v. 58, n. 4, p. 422, doi. 10.1134/S0010508222040049
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Al–Cu Powder Oxidation Kinetics during Heating in Air.
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- Combustion, Explosion, & Shock Waves, 2022, v. 58, n. 2, p. 159, doi. 10.1134/S0010508222020046
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Preparation and Properties of a Flake Aluminum Powder in an Ammonium-Perchlorate-Based Composite Modified Double-Base Propellant.
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- Combustion, Explosion, & Shock Waves, 2020, v. 56, n. 6, p. 691, doi. 10.1134/S0010508220060088
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Influence of the Amount of Fe2O3Modifier on the Oxidation Rate of ASD-4 Micron-Sized Powder.
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- Combustion, Explosion, & Shock Waves, 2020, v. 56, n. 2, p. 156, doi. 10.1134/S0010508220020069
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Explosive Compaction of Chromium Carbide Powders with a Metallic Binder.
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- Combustion, Explosion, & Shock Waves, 2019, v. 55, n. 4, p. 491, doi. 10.1134/S0010508219040178
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Steric Stabilization of Colloidal Aluminium Particles for Advanced Metalized-Liquid Rocket Propulsion Systems.
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- Combustion, Explosion, & Shock Waves, 2019, v. 55, n. 3, p. 353, doi. 10.1134/S0010508219030134
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Ignition and Combustion of Condensed Systems with Energy Fillers.
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- Combustion, Explosion, & Shock Waves, 2018, v. 54, n. 6, p. 689, doi. 10.1134/S0010508218060084
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Comparative Analysis of Boron Powders Obtained by Various Methods. I. Microstructure and Oxidation Parameters during Heating.
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- Combustion, Explosion, & Shock Waves, 2018, v. 54, n. 4, p. 450, doi. 10.1134/S0010508218040093
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Laser initiation of mixtures of PETN and aluminum by a deposit.
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- Combustion, Explosion, & Shock Waves, 2017, v. 53, n. 6, p. 724, doi. 10.1134/S0010508217060144
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Cellular and heterogeneous filtration combustion modes of titanium in the gravitational force field.
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- Combustion, Explosion, & Shock Waves, 2016, v. 52, n. 3, p. 273, doi. 10.1134/S0010508216030035
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Effect of calcium on the oxidation kinetics and phase composition of the products of interaction of aluminum-based alloy powders.
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- Combustion, Explosion, & Shock Waves, 2014, v. 50, n. 5, p. 534, doi. 10.1134/S0010508214050074
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Nanoparticles of energetic materials: synthesis and properties (review).
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- Combustion, Explosion, & Shock Waves, 2013, v. 49, n. 6, p. 625, doi. 10.1134/S0010508213060014
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Analysis of the aluminum reaction efficiency in a hydro-reactive fuel propellant used for a water ramjet.
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- Combustion, Explosion, & Shock Waves, 2013, v. 49, n. 5, p. 541, doi. 10.1134/S0010508213050055
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Numerical method to discuss the mechanism of nano-Mn ferrite powder preparation by detonation of emulsion explosives.
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- Combustion, Explosion, & Shock Waves, 2013, v. 49, n. 3, p. 353, doi. 10.1134/S001050821303012X
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Experimental investigations of the controlled explosive synthesis of ultrafine AlO.
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- Combustion, Explosion, & Shock Waves, 2013, v. 49, n. 1, p. 105, doi. 10.1134/S0010508213010115
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Investigation on explosive compaction of W-Cu nanocomposite powders.
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- Combustion, Explosion, & Shock Waves, 2012, v. 48, n. 2, p. 245, doi. 10.1134/S0010508212020141
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Effect of alloying on the kinetics and mechanism of oxidation of powdered aluminum-based alloys with rare- and alkaline-earth metals.
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- Combustion, Explosion, & Shock Waves, 2011, v. 47, n. 2, p. 166, doi. 10.1134/S0010508211020043
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Possibility of electric-pulse sintering of powder nanostructural composites.
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- Combustion, Explosion, & Shock Waves, 2010, v. 46, n. 2, p. 237, doi. 10.1007/s10573-010-0035-3
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Mathematical model of phase-formation processes in a binary mixture of Ti and Al powders in the regime of a nonadiabatic thermal explosion.
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- Combustion, Explosion, & Shock Waves, 2007, v. 43, n. 2, p. 170, doi. 10.1007/s10573-007-0023-4
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Effect of the addition of ultrafine aluminum powders on the rheological properties and burning rate of energetic condensed systems.
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- Combustion, Explosion, & Shock Waves, 2007, v. 43, n. 1, p. 46, doi. 10.1007/s10573-007-0007-4
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Effect of the passivating coating type, particle size, and storage time on oxidation and nitridation of aluminum powders.
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- Combustion, Explosion, & Shock Waves, 2006, v. 42, n. 2, p. 177, doi. 10.1007/s10573-006-0036-4
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Electrical Conductivity of Metal Powders under Shock Compression.
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- Combustion, Explosion, & Shock Waves, 2005, v. 41, n. 5, p. 599, doi. 10.1007/s10573-005-0075-2
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Research of Energy Deposition Caused by Pore Collapse.
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- Combustion, Explosion, & Shock Waves, 2005, v. 41, n. 3, p. 357, doi. 10.1007/s10573-005-0043-x
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Thermokinetic characteristics of the final stage of the thermal shock of the 3Ni + Al + TiC powder mixture.
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- Combustion, Explosion, & Shock Waves, 2005, v. 41, n. 1, p. 64, doi. 10.1007/s10573-005-0007-1
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