Experimental and numerical studies of AISI1020 steel in grind-hardening

Grinding forces are composed of chip formation force and sliding force. A new mathematical model of grinding forces in surface grinding is developed in this paper. Effectiveness of this model is proved by comparison of the experimental results and the model calculation results. Chip formation energy

This paper presents the design of an experimental set-up to mechanically expand aluminum and steel tubes using conical hardened steel mandrels. The experimental study considered four radial expansion ratios of 10, 15, 20 and 25% and three mandrel angles of 10, 22.5, and 30 degrees. The effect of the

In this paper, we present an experimental and theoretical study of pulse laser ablation of stainless steel target. Various parameters, such as laser power, pulse duration, enthalpy and heat capacity are used. The evaluation of which software will be suitable for the ablation processes has been done.

Laser bending is a weakly coupled thermo-mechanical process, where thermal energy is utilized to carry out the bending process. This offers an excellent tool in automotive, shipbuilding and aerospace applications. This study deals with the edge effect in laser bending of AISI 304 stainless steel, wh