Powder Metallurgy

Papers
(The TQCC of Powder Metallurgy is 3. The table below lists those papers that are above that threshold based on CrossRef citation counts [max. 250 papers]. The publications cover those that have been published in the past four years, i.e., from 2021-11-01 to 2025-11-01.)
ArticleCitations
Direct fabrication and performance of ultrahigh vanadium powder metallurgy high speed steels40
Investigation of Inconel 718 powder flowability for laser beam powder bed fusion using physics-informed machine learning framework40
Mold filling behaviour of LPIM feedstocks using numerical simulations and real-scale injections30
Consolidation and properties of porous Cu–Al–Ni shape memory alloys manufactured by powder metallurgy27
Investigation of mechanical properties and microstructure of Ti-15% Mo alloy produced by mechanical alloying and sintering with SPS (MA-SPS)25
Oxide distribution in PBF-LB/M-processed ODS steel: Effects of ball milling and dielectrophoretic deposition in powder production16
Preparation and characterisation of W–7Ni–3Cu alloy powder by hydrogen reduction of metal oxides14
Finite element simulation of different deformation modes for powder hot forging14
Using discrete simulations of compaction and sintering to predict final part geometry13
Enhancing the thermoelectric properties of bismuth antimony tellurides containing excess Te with respect to sintering temperature9
Effect of hot-isostatic pressing on deep cryogenic thermal conductivity in additively manufactured CoCrNi medium-entropy alloy8
The effects of powder size and sintering temperature on the microstructure and properties of modified MA6000 alloy produced by spark plasma sintering8
SiO 2 nanoparticle-coated Ti-6Al-4V spherical powder for powder bed fusion additive manufacturing process7
Alloying variants – A special feature of powder metallurgy7
Investigation of IN625, IN939 and IN738 superalloy filler powders utilization in the direct metal deposition repair practice of IN738 gas turbine blade7
Fritz Thümmler, Prof. Dr.-Ing. habil, 1924–20227
Fabrication of nickel-titanium-iron shape memory alloys by powder metallurgy route and analyses of their physical and mechanical behaviour7
Preparation of powder from Ti-6Al-4V chips by self-propagating high-temperature synthesis hydrogenation and thermal dehydrogenation6
Effect of low energy milling processes on the magnetic properties of Fe–Ni–Co soft magnetic materials6
Growth inhibiting during ultra-high temperature sintering of injection moulded 17-4 PH stainless steel through the dispersion of ZrO2 particle as a thermal stabiliser6
Evolution of carbides and microstructure in spray-formed high-vanadium high speed steel6
Microstructure and mechanical properties of Ti-Zr alloys fabricated by two-step spark plasma sintering from TiH2 and ZrH2 powders5
Microstructural evolution during sintering of Fe-Cr-C steels prepared from admixed elemental powders5
Development of powder bed fusion – laser beam process for AISI 4140, 4340 and 8620 low-alloy steel5
Effects of processing conditions and fine powder loading on real and electroactive surface areas of porous nickel manufactured by lost carbonate sintering5
Impact of powder reusability on batch repeatability of Ti6Al4V ELI for PBF-LB industrial production5
Effect of layer thickness on spatter properties during laser powder bed fusion of Ti–6Al–4V5
Nozzle clogging in vacuum induction melting gas atomisation: influence of gas pressure and melt orifice diameter coupling5
Influence of powder forging and heat treatment conditions on the properties of the cost-effective Ti-5Al-2.5Fe alloy5
Potential of powder metallurgical methods to fabricate Fe-6.5Si soft magnetic components5
Powder flowability characterisation at preheating temperature in additive manufacturing4
A study of the anisotropy of dimensional change in the compaction plane during sintering of low alloyed cold compacted steels4
Effect of surface modification of metal powders (by aluminum stearate) on the properties of metal injection molding feedstock4
Morphology transformation of stainless steel 316L powder from spheres to flakes using high-energy ball milling and the investigation of transformation behaviour4
Effects of (ZrHfNbTaTiMo)C addition on microstructure and mechanical properties of WC-10Co cemented carbides4
Advancement of thermoelectric performances through the dispersion of expanded graphene on p-type BiSbTe alloys4
Hot deformation behavior and processing map of CIPed Ti-6Cr-5Mo-5V-4Al mixed alloyed powder compressed at temperatures above the β-transus4
Fabrication of tungsten oxide powder from WC–Co cemented carbide scraps by oxidation behaviour4
Enhancing corrosion resistance of Ti-based amorphous alloy powders via misch metal addition4
Study of microstructure and mechanical properties of 17-4 PH stainless steel produced via Binder Jetting4
Binder-jetting of TiCN-based cermets3
Development of novel high entropy alloy feedstocks for powder bed fusion using equimolar CoFeNiCuMn composition3
Consolidation of water-atomized chromium–nickel-alloyed powder metallurgy steel through novel processing routes3
Effect of reuse times on H13 powder properties processed by selective electron beam melting3
Effect of pre-treatment on magnetic properties of Nd-Fe-B permanent magnet during grain boundary diffusion process3
Effect of Ti and B additions on the microstructure and properties of FeCoCrNi high entropy alloys prepared by hot pressing3
Evolution of microstructure and properties of CuCr50 alloy prepared by liquid phase sintering coupled with complementary copper infiltration3
Performance improvement and microstructure evolution of powder metallurgy high silicon steel with phosphorus addition3
Effect of duplex surface treatment on the impact properties of maraging steel produced by laser powder bed fusion3
Preparation and excellent mechanical properties of nanocrystalline GW103K Mg alloy by HDDR technology3
Study of mechanical and tribological properties of Ti–6Al–4V alloy fabricated by powder bed fusion laser beam3
Influence of scanning speed and hatch distance on defects, microstructure, and mechanical performance of Fe–Mn–Al–Ni–C low-density steel fabricated via directed energy deposition3
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