The metal additive manufacturing (MAM) process has most employed methods to build
complex geometry and lightweight 3-dimensional (3-D) parts directly from a computerized …

The tensile residual stress (TRS) generated due to large thermal gradient during the laser
directed energy deposition (DED) and laser based powder bed fusion (PBF) is one of the …

Mechanical properties of Al alloys make them an ideal candidate for different sections of
marine, aerospace, automotive, etc. industries. Recently taking the advantages of additive …

Laser shock peening of austenitic Nitinol using a picosecond laser with 35 mJ laser energy
resulted in compressive residual stresses in the surface. However structural fatigue …

Laser remelting (LR), the most promising method used for surface processing of High
entropy alloy (HEA) to improve the surface properties, eliminates pores, cracks and other …

Nickel (Ni) alloys are widely used in aerospace and nuclear power applications due to their
excellent high-temperature performance, corrosion resistance, and fatigue strength …

Laser shock peening of cold rolled Nitinol was carried out at high power density (7 and 9
GW/cm2) and high overlap ratio (90%). Tensile surface residual stresses were generated in …

The fatigue life improvement is an essential factor in the case of biomaterials because it has
to withstand at least 1 million service lives after deployment inside the human body. The …

Abstract Stainless steel 316L (SS316L) and Nickel-titanium alloy (NiTi), which are additively
manufactured metallic biomaterials, are explore for their biocompatibility and mechanical …

I want to thank Prof. Cemal Esen who supplys me with support to carry out my experiment
and measurement in other universities and research centers. Other special thanks to Dr …