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Max Planck Institute for Sustainable Materials

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Better magnets for green energy

Publications of Huaizhi Su

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Journal Article (1)

Journal Article (1)

Journal Article

Luo, H.; Su, H.; Li, B.; Ying, G.: Electrochemical and passive behaviour of tin alloyed ferritic stainless steel in concrete environment. Applied Surface Science 439, pp. 232 - 239 (2018)

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PDF of the press release

better_magnets_for_green_energy_press_release_10_august_2022 197.69 kB

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Dr.-Ing. Liuliu Han

Project Group Leader +49 211 6792 392 liuliu.han@...

Further information

Other Interesting Articles

Illustration of atomic structure highlighting aluminum, magnesium, and hydrogen atoms. A color scale denotes trapping energy variations, with a lattice network depicting atomic connections.

Stronger and safer: new design strategy for aluminium combines strength with hydrogen embrittlement resistance

April 30, 2025

International researcher team develops scalable aluminium alloys for the hydrogen economy

New design strategy for high-performance steels

July 09, 2024

hydrogen microstructure and properties

International research team develops steel for liquid gas transport and storage. Results now published in the journal Science.

Seeing light elements in a grain boundary

August 01, 2023

method development microstructure and properties

A further step in unravelling materials’ properties down to the atomic scale

Optimized magnets for the energy transition

May 31, 2023

innovative materials magnetic materials sustainability

European Innovation Council supports a research project led by Technical University Darmstadt with 3 million euros

A new space for designing advanced materials

May 22, 2023

innovative materials

Dr. Liuliu Han heads the new research group “High-Entropy Materials”

Using artificial intelligence to design innovative materials

March 31, 2023

innovative materials sustainability

Max Planck scientists explore the possibilities of artificial intelligence in materials science and publish their review

Towards defect engineering: identifying universal structures on the atomic scale

February 15, 2023

microstructure and properties

Researchers of the Max-Planck-Institut für Eisenforschung publish their latest findings in the journal Physical Review B

Sustainable, ultra-strong and ductile steel through advanced processing

January 17, 2023

green steel microstructure and properties sustainability

International researcher team presents a novel microstructure design strategy for lean medium-manganese steels with optimized properties in the journal Science

What happens in material imperfections at the atomic level?

November 23, 2021

microstructure and properties

Video with Christian Liebscher about his latest research results

New partner group on high-performance materials at MPIE

July 14, 2021

award hydrogen microstructure and properties

Max Planck Society funds Slovenian-German research group

Influence of grain boundaries on mechanical behavior at ultra-high strain rates and low temperatures

harsh conditions microstructure and properties

This project aims to investigate the influence of grain boundaries on mechanical behavior at ultra-high strain rates and low temperatures. For this micropillar compressions on copper bi-crystals containing different grain boundaries will be performed.

Characterization of the micromechanical behavior of advanced high-strength bainitic steels

microstructure and properties

This project deals with the phase quantification by nanoindentation and electron back scattered diffraction (EBSD), as well as a detailed analysis of the micromechanical compression behaviour, to understand deformation processes within an industrial produced complex bainitic microstructure.

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