Mechanical properties as a function of microstructure and solidification thermal variables of Al–Si castings

Smooth round bars were produced from conventional non-modified cast alloy, A356, by semi-solid extrusion after isothermal holding in mushy zone. Extrusion process was carried out in an apparatus, designed and prepared for this purpose at a ram speed, 2.5 mm/s. Three forming temperatures: 560, 570 an

Motivated by the success of transition metal nanocomposite hard coatings, a new optically transparent coating based on the Al-Si-N ternary system was developed. Al-Si-N thin films were deposited by reactive DC magnetron co-sputtering of Al and Si targets in an Ar/N 2 atmosphere at 200 °C and 500 °C

## Abstract Effects of Sn and Ca additions on microstructure, mechanical properties, and corrosion resistance of the as‐cast Mg‐6Zn‐2Al‐based alloy were investigated by SEM, XRD, tensile tests, electrochemical measurements, etc. The higher the Sn content, the higher the yield strength of the Mg‐6Zn

The microstructure and creep properties including minimum creep rate, time to 1% creep deformation and creep fracture time of a cast TiAl-based alloy with nominal chemical composition Ti-46Al-2W-0.5Si (at.%) were investigated. The creep specimens were prepared from investment-cast plate and two larg