Enhanced tensile ductility of tungsten microwires via high-density dislocations and reduced grain boundaries
Despite being strong with many outstanding physical properties, tungsten is inherently brittle
at room temperature, restricting its structural and functional applications at small scales …
at room temperature, restricting its structural and functional applications at small scales …
Enhanced tensile ductility of tungsten microwires via high-density dislocations and reduced grain boundaries
C Dang, W Lin, F Meng, H Zhang, S Fan, X Li… - Journal of Materials …, 2021 - jmst.org
Despite being strong with many outstanding physical properties, tungsten is inherently brittle
at room temperature, restricting its structural and functional applications at small scales …
at room temperature, restricting its structural and functional applications at small scales …
[PDF][PDF] Enhanced tensile ductility of tungsten microwires via high-density dislocations and reduced grain boundaries
C Dang, W Lin, F Meng, H Zhang, S Fan… - Journal of Materials …, 2021 - researchgate.net
abstract Despite being strong with many outstanding physical properties, tungsten is
inherently brittle at room temperature, restricting its structural and functional applications at …
inherently brittle at room temperature, restricting its structural and functional applications at …
Enhanced tensile ductility of tungsten microwires via high-density dislocations and reduced grain boundaries
C Dang, W Lin, F Meng, H Zhang, S Fan, X Li… - Journal of Materials …, 2021 - hub.hku.hk
Despite being strong with many outstanding physical properties, tungsten is inherently brittle
at room temperature, restricting its structural and functional applications at small scales …
at room temperature, restricting its structural and functional applications at small scales …
Enhanced tensile ductility of tungsten microwires via high-density dislocations and reduced grain boundaries
C Dang, W Lin, F Meng, H Zhang, S Fan, X Li… - Journal of Materials …, 2021 - Elsevier
Despite being strong with many outstanding physical properties, tungsten is inherently brittle
at room temperature, restricting its structural and functional applications at small scales …
at room temperature, restricting its structural and functional applications at small scales …
Enhanced tensile ductility of tungsten microwires via high-density dislocations and reduced grain boundaries
C Dang, W Lin, F Meng, H Zhang, S Fan… - Journal of Materials …, 2021 - scholars.cityu.edu.hk
Despite being strong with many outstanding physical properties, tungsten is inherently brittle
at room temperature, restricting its structural and functional applications at small scales …
at room temperature, restricting its structural and functional applications at small scales …
Enhanced tensile ductility of tungsten microwires via high-density dislocations and reduced grain boundaries
C Dang, W Lin, F Meng, H Zhang, S Fan, X Li… - Journal of Materials …, 2021 - jmst.org
Despite being strong with many outstanding physical properties, tungsten is inherently brittle
at room temperature, restricting its structural and functional applications at small scales …
at room temperature, restricting its structural and functional applications at small scales …
[引用][C] Enhanced tensile ductility of tungsten microwires via high-density dislocations and reduced grain boundaries
C Dang, W Lin, F Meng, H Zhang, S Fan… - Journal of Materials …, 2021 - scholars.cityu.edu.hk
Enhanced tensile ductility of tungsten microwires via high-density dislocations and reduced grain
boundaries - CityU Scholars | A Research Hub of Excellence Researcher login City University …
boundaries - CityU Scholars | A Research Hub of Excellence Researcher login City University …
