(a) Diagrams illustrating how columnar grains develop during the LPBF, contributing to microstructural anisotropy; (b) Stress-strain curves ... The ultimate tensile strength reached 906.1 MPa ...

Maintaining an even temperature along the bend line is critical. Inconsistent heating results in varying material properties, ...

The core provides the flexural stiffness and out-of-plane shear and compressive strength (Honeycomb Sandwich Design ... Extensometer was employed to tensile samples for monitoring the strain. 2.4.2.2 ...

Product durability and reliability are now critical in today’s competitive manufacturing era. Across most industries, tensile ...

Conductive hydrogels from ionic liquids are widely used in soft electronics and solid electrolytes due to their high flexibility and conductivity. However, engineering such hydrogels with simultaneous ...

The main causes include columnar grain structures, porosity, and residual stress ... the metal's strength and flexibility became nearly identical in all directions. The ultimate tensile strength ...

In the below example, you can notice that a higher drive strength cell (BUFX20) has less transition time (0.0349ns), results ...

Inspired by the humble deep-sea sponge, RMIT University engineers have developed a new material with remarkable compressive ...

These things put the body under stress but when done for just the right amount of time, help us to grow stronger – in the same way that getting a flu jab does. What makes hormesis so remarkable ...