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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|2025-05-11T20:18:00+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|2025-05-11T20:18:02+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 POWDERTECHNOLOGY.info|2025-05-17T12:21:46+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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  Powder Recyclability in Manufacturing: Sustainable Approaches

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  Powder Recyclability in Manufacturing: Sustainable Approaches

  Aerospace Industry, Insights, Metallurgy, powders, Sustainability

Powder Recyclability in Manufacturing: Sustainable Approaches

In today’s manufacturing environment, sustainability is not only a [...]

By POWDERTECHNOLOGY.info|2025-02-17T06:50:04+00:0017 February 2025|Categories: Aerospace Industry, Insights, Metallurgy, powders, Sustainability|Tags: additive manufacturing, aerospace industry, circular economy, cost reduction, Environmental Impact, Manufacturing, material recycling, mechanical separation, powder metallurgy, Powder Processing, Powder recyclability, process monitoring, Quality Control, sustainability, thermal reconditioning|0 Comments

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  Cryogenic Grinding of Powders: What You Need to Know

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  Cryogenic Grinding of Powders: What You Need to Know

  Cryogenic Processing, Insights

Cryogenic Grinding of Powders: What You Need to Know

Unlocking the Potential of Cryogenic grinding of powders [...]

By POWDERTECHNOLOGY.info|2025-02-08T12:43:08+00:008 February 2025|Categories: Cryogenic Processing, Insights|Tags: additive manufacturing, advanced materials, AI-driven milling, automated nitrogen dosing, bioavailability, controlled particle breakdown, Cryogenic grinding, cryogenic milling, cryogenic processing, downstream processing, Energy Efficiency, food industry, heat-sensitive materials, industrial grinding, liquid nitrogen, material preservation, material science, metal micronization, micronization, milling throughput, nano particles, oxidation prevention, particle size reduction, pharmaceutical formulation, Pharmaceuticals, polymer processing, polymer recycling, Process Optimization, reactive metals, spice grinding, sustainability, ultra-fine powders|0 Comments

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  Measuring Powder Porosity and Its Implications

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  Measuring Powder Porosity and Its Implications

  Insights, Porosity

Measuring Powder Porosity and Its Implications

Porosity often receives less attention than particle size, shape [...]

By POWDERTECHNOLOGY.info|2025-02-02T12:54:37+00:002 February 2025|Categories: Insights, Porosity|Tags: 3d printing, additive manufacturing, Bulk density, gas pycnometry, Industrial Powders, material science, measuring porosity, Mercury Intrusion Porosimetry, micro-CT imaging, Pharmaceuticals, porosity measurement, porosity optimization, porosity testing, powder characterization, powder flowability, powder porosity, Powder Processing, powder technology, powder-based processes, Structural Integrity|0 Comments

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  Porosity Testing in Powders

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  Porosity Testing in Powders

  Know How, Porosity

Porosity Testing in Powders

Introduction Porosity Testing Porosity plays a critical role [...]

By POWDERTECHNOLOGY.info|2025-02-02T13:03:42+00:001 February 2025|Categories: Know How, Porosity|Tags: 3d printing, additive manufacturing, BET surface area analysis, Bulk density, ceramics, Coatings, gas pycnometry, Industrial Powders, material science, measuring porosity, Mercury Intrusion Porosimetry, metallurgy, pharmaceutical powders, porosity measurement techniques, porosity optimization, porosity testing, powder characterization, powder compaction, powder flowability, powder porosity, Powder Processing, powder quality control, scanning electron microscopy, true density|0 Comments

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  Powder Consolidation Techniques in Additive Manufacturing

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  Powder Consolidation Techniques in Additive Manufacturing

  3D printing, Aerospace Industry, Insights, Porosity, Thermal Properties

Powder Consolidation Techniques in Additive Manufacturing

Powder consolidation techniques are a cornerstone of additive manufacturing [...]

By POWDERTECHNOLOGY.info|2025-01-26T14:31:06+00:0026 January 2025|Categories: 3D printing, Aerospace Industry, Insights, Porosity, Thermal Properties|Tags: 3d printing, additive manufacturing, AM process reliability, binder jetting, electron beam melting, hot isostatic pressing, laser powder bed fusion, material quality, Powder consolidation, powder densification, sintering|0 Comments

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  Compaction of Powders: Techniques and Technologies

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  Compaction of Powders: Techniques and Technologies

  Compaction, Insights, Metallurgy

Compaction of Powders: Techniques and Technologies

The compaction of powders, techniques and technologies are responsible [...]

By POWDERTECHNOLOGY.info|2025-01-05T06:58:50+00:005 January 2025|Categories: Compaction, Insights, Metallurgy|Tags: additive manufacturing, advanced compaction, compaction techniques, engineering advancements, industrial processes, isostatic pressing, Manufacturing, material science, metallurgy, Pharmaceuticals, powder compaction, powder technology, product quality, roller compaction, uniaxial pressing|0 Comments

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  Powders and Coatings in Orthopedic Implants

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  Powders and Coatings in Orthopedic Implants

  3D printing, Adhesion, Coating, Crystallinity, Editors pick, Feature Article, Future, Health care, Metallurgy, powders, Surface Energy

Powders and Coatings in Orthopedic Implants

Through the innovative use of Powders and Coatings [...]

By POWDERTECHNOLOGY.info|2025-01-06T13:47:51+00:005 January 2025|Categories: 3D printing, Adhesion, Coating, Crystallinity, Editors pick, Feature Article, Future, Health care, Metallurgy, powders, Surface Energy|Tags: additive manufacturing, biocompatibility, bone integration, Coatings, hydroxyapatite, implant coatings, implant technology, medical advancements, orthopedic implants, orthopedic surgery, osseointegration, plasma spraying, powders, regenerative medicine, titanium|0 Comments

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