Haiyang Yu
Biträdande universitetslektor vid Institutionen för materialvetenskap; Tillämpad mekanik
- Telefon:
- 018-471 50 06
- Mobiltelefon:
- 070-425 06 94
- E-post:
- haiyang.yu@angstrom.uu.se
- Besöksadress:
- Ångströmlaboratoriet, Lägerhyddsvägen 1
- Postadress:
- Box 35
751 03 UPPSALA
Ladda ned kontaktuppgifter för Haiyang Yu vid Institutionen för materialvetenskap; Tillämpad mekanik
- Akademiska meriter:
- TeknDr, Docent i teknisk fysik med inriktning mot tillämpad mekanik
Publikationer
Senaste publikationer
An extended Rice model for intergranular fracture
Ingår i International Journal of Mechanical Sciences, 2025
- DOI för An extended Rice model for intergranular fracture
- Ladda ner fulltext (pdf) av An extended Rice model for intergranular fracture
A self-consistent void-based rationale for hydrogen embrittlement
Ingår i Scripta Materialia, 2025
- DOI för A self-consistent void-based rationale for hydrogen embrittlement
- Ladda ner fulltext (pdf) av A self-consistent void-based rationale for hydrogen embrittlement
Unraveling Ice-Solid Interface Rupture Dynamics: Insights from Molecular Dynamics Simulations
Ingår i Langmuir, s. 17090-17097, 2024
- DOI för Unraveling Ice-Solid Interface Rupture Dynamics: Insights from Molecular Dynamics Simulations
- Ladda ner fulltext (pdf) av Unraveling Ice-Solid Interface Rupture Dynamics: Insights from Molecular Dynamics Simulations
Ingår i Chemical Reviews, s. 6271-6392, 2024
- DOI för Hydrogen Embrittlement as a Conspicuous Material Challenge: Comprehensive Review and Future Directions
- Ladda ner fulltext (pdf) av Hydrogen Embrittlement as a Conspicuous Material Challenge: Comprehensive Review and Future Directions
Experimental and numerical study on hydrogen-induced failure of X65 pipeline steel
Ingår i Materials Science & Engineering, 2024
- DOI för Experimental and numerical study on hydrogen-induced failure of X65 pipeline steel
- Ladda ner fulltext (pdf) av Experimental and numerical study on hydrogen-induced failure of X65 pipeline steel
Alla publikationer
Artiklar i tidskrift
An extended Rice model for intergranular fracture
Ingår i International Journal of Mechanical Sciences, 2025
- DOI för An extended Rice model for intergranular fracture
- Ladda ner fulltext (pdf) av An extended Rice model for intergranular fracture
A self-consistent void-based rationale for hydrogen embrittlement
Ingår i Scripta Materialia, 2025
- DOI för A self-consistent void-based rationale for hydrogen embrittlement
- Ladda ner fulltext (pdf) av A self-consistent void-based rationale for hydrogen embrittlement
Unraveling Ice-Solid Interface Rupture Dynamics: Insights from Molecular Dynamics Simulations
Ingår i Langmuir, s. 17090-17097, 2024
- DOI för Unraveling Ice-Solid Interface Rupture Dynamics: Insights from Molecular Dynamics Simulations
- Ladda ner fulltext (pdf) av Unraveling Ice-Solid Interface Rupture Dynamics: Insights from Molecular Dynamics Simulations
Experimental and numerical study on hydrogen-induced failure of X65 pipeline steel
Ingår i Materials Science & Engineering, 2024
- DOI för Experimental and numerical study on hydrogen-induced failure of X65 pipeline steel
- Ladda ner fulltext (pdf) av Experimental and numerical study on hydrogen-induced failure of X65 pipeline steel
Ingår i Journal of Materials Science & Technology, s. 225-236, 2024
- DOI för Hydrogen trapping and diffusion in polycrystalline nickel: The spectrum of grain boundary segregation
- Ladda ner fulltext (pdf) av Hydrogen trapping and diffusion in polycrystalline nickel: The spectrum of grain boundary segregation
The dual role of hydrogen in grain boundary mobility
Ingår i Journal of Applied Physics, 2023
Ingår i International Journal of Solids and Structures, 2023
- DOI för An extended hydrostatic-deviatoric strain energy density decomposition for phase-field fracture theories
- Ladda ner fulltext (pdf) av An extended hydrostatic-deviatoric strain energy density decomposition for phase-field fracture theories
A microstructure informed and mixed-mode cohesive zone approach to simulating hydrogen embrittlement
Ingår i International journal of hydrogen energy, s. 17479-17493, 2022
- DOI för A microstructure informed and mixed-mode cohesive zone approach to simulating hydrogen embrittlement
- Ladda ner fulltext (pdf) av A microstructure informed and mixed-mode cohesive zone approach to simulating hydrogen embrittlement
A predictive model unifying hydrogen enhanced plasticity and decohesion
Ingår i Scripta Materialia, 2022
- DOI för A predictive model unifying hydrogen enhanced plasticity and decohesion
- Ladda ner fulltext (pdf) av A predictive model unifying hydrogen enhanced plasticity and decohesion
Ingår i Engineering Fracture Mechanics, 2022
- DOI för Simulation of ductile-to-brittle transition combining complete Gurson model and CZM with application to hydrogen embrittlement
- Ladda ner fulltext (pdf) av Simulation of ductile-to-brittle transition combining complete Gurson model and CZM with application to hydrogen embrittlement
Hydrogen embrittlement in micro-architectured materials
Ingår i Engineering Fracture Mechanics, 2022
- DOI för Hydrogen embrittlement in micro-architectured materials
- Ladda ner fulltext (pdf) av Hydrogen embrittlement in micro-architectured materials
Ingår i Acta Materialia, 2022
- DOI för Hydrogen-enhanced grain boundary vacancy stockpiling causes transgranular to intergranular fracture transition
- Ladda ner fulltext (pdf) av Hydrogen-enhanced grain boundary vacancy stockpiling causes transgranular to intergranular fracture transition
Hydrogen-induced transgranular to intergranular fracture transition in bi-crystalline nickel
Ingår i Scripta Materialia, 2021
- DOI för Hydrogen-induced transgranular to intergranular fracture transition in bi-crystalline nickel
- Ladda ner fulltext (pdf) av Hydrogen-induced transgranular to intergranular fracture transition in bi-crystalline nickel
Ingår i Engineering Fracture Mechanics, 2021
- DOI för Is it possible to measure the tensile strength and fracture toughness simultaneously using flattened Brazilian disk?
- Ladda ner fulltext 1 (pdf) av Is it possible to measure the tensile strength and fracture toughness simultaneously using flattened Brazilian disk?
- Ladda ner fulltext 2 (pdf) av Is it possible to measure the tensile strength and fracture toughness simultaneously using flattened Brazilian disk?