线导鱼雷导引弹道的动力学分析

通过线导鱼雷常用导引方法—三点法、前置角法导引弹道的动力学分析 ,推导出不同方法下鱼雷旋回速率的解析表达式 ,并通过数字仿真对鱼雷线导导引弹道动力学特性进行探讨 ,明确了线导鱼雷导引弹道特性与导引方法之间的关系 .     

Effect of wire tension on different output responses during wire electric discharge machining on AISI 304 stainless steel

WEDM is used in machining conductive materials where it is required to obtained complicated and intricate shapes with high accuracy. Various applications are in the field of automobile, medical industries, aerospace etc. WEDM is an economical machining option with short product development cycle. Surface roughness, kerf width, Material removal rate, Recast layer hardness and surface microhardness in WEDM are most important responses. In this paper, effect of varied Wire tension on SR, KW, MRR, RCL hardness and surface microhardness on AISI 304 have been investigated. Pulse on time, pulse off time, current and dielectric fluid are taken as fixed parameter. Results show that Wire tension influences the SR, MRR and Surface microhardness and has no effect on kerf width in case of Stainless steel 304.     

Effect of silicon carbide and wire-mesh reinforcements in dissimilar grade aluminium explosive clad composites

Aluminium composites are inevitable in the manufacture of aircraft structural elements owing to less weight, superior corrosion resistance and higher specific properties. These composites reduce the weight of the aircraft, improve the fuel efficiency and enhance the maintenance duration. This study proposes the development of dissimilar grade aluminium (aluminium 1100-aluminium 5052) composites with different reinforcement’s viz., stainless steel wire-mesh, silicon carbide (SiC) powders and SiC powder interspersed wire-mesh, by explosive cladding technique. Wire-mesh enhances the friction and restricts the movement of flyer plate to craft a defect free clad, while SiC particles form a band on the interface. Highest strength is obtained when SiC powder interspersed wire mesh is employed as reinforcement. The dissimilar aluminium explosive clad with SiC particle reinforcement results in lower strength, which is higher than that of the weaker parent alloy and that of the conventional dissimilar aluminium explosive clads without any reinforcement.