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Meeting

2026 TMS Annual Meeting & Exhibition

Symposium

Energy Technologies and CO2 Management: Resource Efficient Processes

Presentation Title

Comparative Life Cycle Assessment of WTaTiVCr High-Entropy Alloy Fabricated by Mechanical Alloying and 3D Mixing Methods

Author(s)

Jiarui Feng, Emanuele Pagone, Owais Ahmed Waseem

On-Site Speaker (Planned)

Emanuele Pagone

Abstract Scope

WTaTiVCr High-Entropy Alloys (HEAs) are recognized as promising candidates for fusion plasma-facing applications. However, the environmental impact of their development and fabrication methods remains insufficiently characterized. This study presents a comparative evaluation of two powder processing routes: mechanical alloying (MA) and low-shear 3D mixing. Both fabrication methods yield single-phase, Body-Centred Cubic (BCC) WTaTiVCr HEAs with comparable Vickers hardness and relative densities exceeding 98%. Applying a “cradle-to-gate” (i.e. from raw material acquisition to arc plasma sintering) Life Cycle Assessment (LCA) method, the carbon footprint of each route mentioned is estimated. The findings identify the more environmentally friendly route as well as carbon footprint “hotspots” in each process. Results provide quantitative information useful for decision-makers in process selection and optimization.

Proceedings Inclusion?

Planned:

Keywords

High-Entropy Alloys, Sustainability, Extraction and Processing

OTHER PAPERS PLANNED FOR THIS SYMPOSIUM

Analysis of Corrosion Issues in Blast Furnace Hot Blast Stove Heat Exchangers

Comparative Life Cycle Assessment of WTaTiVCr High-Entropy Alloy Fabricated by Mechanical Alloying and 3D Mixing Methods

Copper Looping Technology for Ambient CO₂ Removal from Air

Dynamic Prediction Method for Basic Oxygen Furnace Waste Heat Steam Combining Data and Mechanism

Effect of using H2 and CH4 gases as alternative reducers to carbon in the reduction of chromite ore

Enhancing Calcium Oxide-Based Carbon Capture Cycles by Optimizing Alumina Sources and Phases

Environmental and Economic Comparison of Wire and Swarf in a Novel Additive Manufacturing Technique for Aerospace Applications

Hydrogen-Rich Gas Injection in Blast Furnaces: Impacts on Process Parameters and Energy-Carbon Performance

Natural Gas Integration in Anode Baking: Achieving Cost Savings and Lower Emissions at INALUM

Novel Electrification Solution to Produce High-Temperature Heat to Decarbonize Process Heating in Aluminum Industry

Optimization Operation Range of Injecting Coalbed Methane into Blast Furnace Tuyere

Optimizing Steel Byproduct Gas Scheduling with time-variant control strategies for Cost Savings

pH-Controlled Indirect Carbonation of BOF Slags with In-Situ Potentiometric Monitoring

Preparation of an Indigenous Bismutite ore for Improved Bismuth-based Alloys Application

Processing of an Indigenous Spodumene Ore for Lithium Liberation: A Precursor for Industrial Lithium Energy Materials

Reduction of carbon composite briquette under CO-CO2-N2 atmosphere with H2 mixing

Renewable Carbon Conversion: Catalytic Routes for Synthetic Fuel Generation from CO₂

Research and Practice of Hydrogen-Rich Metallurgy Technology in Large Blast Furnace

Simulation of Gas Pipeline Network Operations in Iron and Steel Enterprises

Study on synergistic reduction of iron ore by biochar and hydrogen

Study on the change law of physical and chemical structure of hot melt coal

Study on the gasification reaction characteristics of modified coal

Techno-Economic Assessment of Biomass-Based Direct Reduced Iron Production for Low-Carbon Steelmaking

The Optimization Analysis of the Electricity Demand Forecasting Model within Steel Enterprises

Thermodynamic analysis of Fe-Si alloy and CaCO3 prepared from steel slag by molten salt under CO2 atmosphere

Theroy and practice of gasholder prediction and adjustment in iron and steel enterprise

Utilization of Intermittent Renewable Electricity for Metal Processing

Waste heat to power technology for aluminum electrolysis flue gas

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