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  Powder Plateau S Curve: How to Win When Physics Limits You

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  Powder Plateau S Curve: How to Win When Physics Limits You

  Additives, Bulk Solids Characterization, Editors pick, Feature Article, Flowability, Future

Powder Plateau S Curve: How to Win When Physics Limits You

The powder plateau S-curve explains why progress is [...]

By Stephane Sloots|2025-11-08T15:27:13+00:008 November 2025|Categories: Additives, Bulk Solids Characterization, Editors pick, Feature Article, Flowability, Future|Tags: additive manufacturing, AI process control, capillary forces, cohesion, DEM simulation, dynamic powder rheometry, electrostatics, flowability, gas atomization, hybrid powders, in-process sensors, Jenike ffc, passivation, plasma CVD, powder plateau S-curve, process analytics, recycling, silicon anodes, sintering, spray drying, surface energy, sustainability, triboelectric charging, van der Waals, X-ray tomography|0 Comments

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  Powder and Granular Creep: Mechanisms, Testing, and Control

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  Powder and Granular Creep: Mechanisms, Testing, and Control

  3D printing, Aerospace Industry, Bulk Solids Characterization, Compaction, Feature Article, Flowability, Granules

Powder and Granular Creep: Mechanisms, Testing, and Control

Powder creep mechanisms occur in various ways; powders [...]

By Marcus Schmidt|2025-11-01T12:04:21+00:004 October 2025|Categories: 3D printing, Aerospace Industry, Bulk Solids Characterization, Compaction, Feature Article, Flowability, Granules|Tags: acoustic emission, additive manufacturing, aging heat treatment, APS, bond coat, bulk density drift, Coble creep, diffusion creep, digital image correlation, dislocation creep, EB-PVD, gamma prime precipitates, gas-atomized powder, grain boundary sliding, grain size effect, granular creep, HIP, hopper compaction, laser powder bed fusion, logarithmic strain, LVDT, Nabarro-Herring creep, Ni-base superalloys, one-dimensional compression, Orowan looping, porosity control, powder creep mechanisms, sintering, steady-state creep, thermal barrier coatings, turbine disks|0 Comments

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  Powder Technologies Within Circular Systems

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  Powder Technologies Within Circular Systems

  3D printing, Bulk Solids Characterization, Editors pick, Feature Article, Legislation and Standards, Metallurgy, Moisture Sensitivity, Particle Size Testing, Plastics and Polymers, Porosity, Sustainability

Powder Technologies Within Circular Systems

The relevance of powder testing for circular economy [...]

By POWDERTECHNOLOGY.info|2025-09-27T11:31:50+01:0027 September 2025|Categories: 3D printing, Bulk Solids Characterization, Editors pick, Feature Article, Legislation and Standards, Metallurgy, Moisture Sensitivity, Particle Size Testing, Plastics and Polymers, Porosity, Sustainability|Tags: additive manufacturing, BET surface area, carbon per cycle, ceramics, circular economy, compliance, energy per cycle, flowability, FTIR, ICP-OES, lifecycle assessment, moisture control, morphology, packing density, particle size distribution, polymers, powder metallurgy, powder reuse, powder testing, Quality Control, Raman Spectroscopy, recycled powders, release criteria, ring shear testing, SEM analysis, sintering behavior, spreadability, surface oxidation, traceability, XPS, XRF|0 Comments

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  Affordable Powders, Reliable Results: AI Monitoring in Metal Additive Manufacturing

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  Affordable Powders, Reliable Results: AI Monitoring in Metal Additive Manufacturing

  3D printing, Aerospace Industry, AI, Future, Insights, Metallurgy

Affordable Powders, Reliable Results: AI Monitoring in Metal Additive Manufacturing

AI monitoring in additive manufacturing makes affordable powders [...]

By Ethan Keller|2025-08-09T16:29:42+01:009 August 2025|Categories: 3D printing, Aerospace Industry, AI, Future, Insights, Metallurgy|Tags: additive manufacturing, AI monitoring, Industry 4.0, melt pool, metal powders, process control, Quality Control|0 Comments

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  Laser Spheroidization of Titanium Powders

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  Laser Spheroidization of Titanium Powders

  3D printing, Additives, Aerospace Industry, Feature Article, Flowability, Metallurgy

Laser Spheroidization of Titanium Powders

Laser spheroidization turns irregular titanium powders into dense, [...]

By Stephane Sloots|2025-08-02T18:46:04+01:002 August 2025|Categories: 3D printing, Additives, Aerospace Industry, Feature Article, Flowability, Metallurgy|Tags: additive manufacturing, Advanced Manufacturing, aerospace components, gas atomization, hybrid feedstocks, laser spheroidization, LPBF, Marangoni convection, medical implants, powder morphology, Powder Processing, Ti-6Al-4V, titanium powders|0 Comments

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  On-Demand Atomisation: Custom Metal Powders for R&D and Prototyping

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  On-Demand Atomisation: Custom Metal Powders for R&D and Prototyping

  3D printing, Insights, Laboratory, Metallurgy, powders, research

On-Demand Atomisation: Custom Metal Powders for R&D and Prototyping

On-demand atomisation metal powder low-volume production is changing [...]

By Ethan Keller|2025-08-02T18:48:15+01:0026 July 2025|Categories: 3D printing, Insights, Laboratory, Metallurgy, powders, research|Tags: 3d printing, additive manufacturing, additives, Amazemet, laboratory, metal powder, metallurgy, on-demand atomisation, on-demand atomisation metal powder, powder characterization, powder production, PowderMet, prototyping, research|0 Comments

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  Powder Technologies Within Circular Systems

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  Powder Technologies Within Circular Systems

  Compaction, Feature Article, Flowability, Metallurgy, Particle size distribution, Plastics and Polymers, Surface Energy, Sustainability

Powder Technologies Within Circular Systems

In a circular economy, powder testing is no [...]

By Stephane Sloots|2025-07-09T11:10:27+01:0025 May 2025|Categories: Compaction, Feature Article, Flowability, Metallurgy, Particle size distribution, Plastics and Polymers, Surface Energy, Sustainability|Tags: additive manufacturing, ceramic powders, circular manufacturing, circular powder systems, Compaction, flowability, material degradation, metal powders, polymer powders, Porosity, powder characterisation, powder lifecycle, Powder recyclability, powder reuse, powder testing, reused powders, surface oxidation, sustainable powder technology, testing protocols, traceability|0 Comments

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  Sustainable High Entropy Material Set to Reshape Advanced Manufacturing

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  Sustainable High Entropy Material Set to Reshape Advanced Manufacturing

  3D printing, Aerospace Industry, Metallurgy, News

Sustainable High Entropy Material Set to Reshape Advanced Manufacturing

High-Performance Alloys from Recycled Feedstocks: Sustainable High Entropy Powders [...]

By Stephane Sloots|2025-07-09T11:11:39+01:007 April 2025|Categories: 3D printing, Aerospace Industry, Metallurgy, News|Tags: 3D printing materials, additive manufacturing, Advanced Manufacturing, aerospace materials, Australian material innovation, circular economy, critical minerals, EntroMat, high entropy powders, medical alloys, metal powders for mining, powder metallurgy, recycled metal powders, sustainable powder technology, Swinburne University|0 Comments

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  Why Spherical Powders Lead the Way: Insights into Induction Plasma Powder Processing

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  Why Spherical Powders Lead the Way: Insights into Induction Plasma Powder Processing

  Poll Results

Why Spherical Powders Lead the Way: Insights into Induction Plasma Powder Processing

Introduction to induction plasma powder processing Induction plasma [...]

By Stephane Sloots|2025-07-09T11:11:41+01:005 April 2025|Categories: Poll Results|Tags: additive manufacturing, Advanced Manufacturing, High-Performance Materials, Induction Plasma, materials science, Plasma Technology, powder metallurgy, Powder Processing, Spherical Powders, Thermal Spray Coatings|0 Comments

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  Role of Powder Morphology in Industrial Applications

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  Role of Powder Morphology in Industrial Applications

  Flowability, Insights, Microscopy, Particle size distribution, Particle Size Testing, powders, research

Role of Powder Morphology in Industrial Applications

Powder morphology—the study of particle shape, size, and surface [...]

By Stephane Sloots|2025-07-09T11:12:57+01:0022 February 2025|Categories: Flowability, Insights, Microscopy, Particle size distribution, Particle Size Testing, powders, research|Tags: additive manufacturing, ceramics, Energy Storage, flowability, industrial applications, Laser Diffraction, Manufacturing, owder Morphology, particle shape, particle size, Pharmaceuticals, powder characterization, powder metallurgy, powder technology, Process Optimization, Quality Control, reactivity, SEM, sintering, surface texture|0 Comments

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