Papers by Keyword: Hole Ratio

Abstract: The uncontrollable forming quality of component caused by the uncontrollable expansion pressure of silicon rubber mandrel has long been an unsolved problem in the fabrication of composite hat-shaped components. Here,we advanced a novel mandrel pressurization method combining silicon rubber mandrel and inflatable mold. Cure experiments were carried out based on the combined mandrel with different adjustable apertures. At the same time, the resin pressure of the components was monitored on-line during the curing process by using a self-built pressure on-line monitoring system, and their geometric accuracies and forming quality were evaluated. The experimental results show that the combined mandrel forming method can control the uniformity of pressure, geometric accuracies and forming quality of the hat-shaped component effectively, and the optimal size range is obtained with the hole ratio of 0.4~0.53. Compared with the traditional auxiliary forming method, combined mandrel pressurization method greatly reduces the requirements on the size of the mandrel structure and broadens the process window of the mandrel for the curing of hat-shaped component.

Abstract: This paper focuses on the extrusion process of powder/solid clad rods with the desired hole ratio in the center to reduce the weight. The finite-element model about a lot of deformation body extrusion was successfully demonstrated. Raw steel powder and steel tube were consisted as powder/solid rods. While the obvious plastic deformation proceeding in deformation region, the hole ratio clearly lessened, then a little rose apart from the deformation region. The deformation parameters were determined for the purpose to lesson the weight of the rod to about 15% hole ratio in powder deformation region. The extrusion experiment and the tensile property test proved that the integrative property improved while the weight was reduced. The clad rod can be utilized in the solid suck rods.

Abstract: Hydraulic characteristics of orifice plates with multiple triangular holes in hydrodynamic cavitation reactor were experimentally investigated by use of three dimensional particle image velocimetry (PIV), high speed photography, electronic multi-pressure scanivalve and pressure data acquisition system, and numerically simulated by CFD software Flow 3D in this paper. Effects of number, arrangement and ratio of holes on hydraulic characteristics of the orifice plates were considered. Effects of arrangement and ratio of holes and flow velocity ahead of plate on cavitation number and velocity profile were compared. Distribution of turbulent kinetic energy and similarity of velocity profile were analyzed. And characteristics of cavitating flow downstream of the orifice plate were photographically observed by high speed camera. Also, a comparison with flow characteristics of orifice plate with hybrid holes (circle, square and triangle) was made.