: Standard procedures used to optimize the microstructure for tensile strength.
: The alloy maintains an ultimate tensile stress of approximately 165 ksi. hr2.zip
: NASA HR-2 is a mature and viable candidate for critical aerospace hardware, successfully combining printability with robust mechanical performance in hydrogen-rich atmospheres. : Standard procedures used to optimize the microstructure
If your query instead refers to the Heptad Repeat 2 (HR2) domain in virology (such as in the SARS-CoV-2 spike protein), research papers in this field typically discuss its role in membrane fusion and its potential as a target for fusion-inhibitor antiviral drugs. If your query instead refers to the Heptad
: Tensile testing conducted in pressurized gaseous hydrogen (GH2) at up to 5 ksi. Results & Discussion :
: NASA HR-2 is a specialized superalloy developed to withstand the extreme conditions of liquid rocket engines (LREs). This paper explores its mechanical properties, including high yield stress (~95 ksi) and exceptional ductility in high-pressure hydrogen environments.
: Components in hydrogen-sensitive LREs are prone to hydrogen environment embrittlement. HR-2 was formulated as a promising solution for hardware produced via Laser Powder Bed Fusion (L-PBF) , a type of 3D printing that allows for complex geometries. Methodology :