Casting Process and Simulation of 50-60017-00 Pulley

Currently, the casting process of pulley is a hot and difficult topic in industry. As the production of the nodular cast iron pulley requires chill for final feeding in the traditional casting technology. To avoid the cold iron in casting process, this paper presents a new technology for 50-60017-00 type pulley. Simulated results, obtained from commercial software "MAGMA", indicate that liquid metal fills the sand smoothly, and no porosity is found in the casting. Then, 20 pieces of samples were produced to test the performance, validating the proposed technology. Finally, the results could be applied to other designs of nodular cast iron pulley process.

Numerical Simulation and Optimization on Casting Hoisting Sheave

The design of the casting process was obtained by traditional casting design method. The process was composed of the choice of the casting position and the determination of casting parameters and the design of the gating system. According to the structural characteristics of sheave and quality requirements, the sheave hub and rim were poured separately. In order to achieve progressive solidification, two insulated risers were laid on the top of the wheel, and some risers were placed on the top of the hot spot in the rim and cold iron was introduced near by the thick part of the wheel hub. Three-dimensional model of the casting was generated and the solidification process of the sheave was simulated by View Cast. The results showed that the hot spot areas in the rim and thick part of the wheel hub have frozen finally, and the shrinkage formed in those areas. According to the simulation results and analysis, the casting process program was optimized by increasing the size of riser and the thickness of cold iron. After simulated once again, the defects were transferred to risers. The defects were eliminated to the greatest extent and the progressive solidification was achieved. So the reasonable program of the casting process was obtained.

Automotive Riser System Design Technology Based on CAE

For the sake of achieving the feeding system to be automated designed, the automatic merging model of the casting hot spot set up based on Casting CAE, and based on this model the riser and cold-iron designs can automatically be completed. The CAD/CAE software system was developed for the steel casting, and the feeding system of the side frame casting was designed by the software. according to the process parameters that were provided in the paper, the sample casting was poured and dissected to determine the volume of shrinkage cavity of sample castings. The results showed that no shrink defect exists in the casting, so it proved that the model was reliable for the riser and cold iron design.

Shore Power Supply (Cold Ironing) for Ships: Reducing Ship Engine Emissions

Cold Iron: Receipt of shore power, along with other utilities such as potable water and steam, is part of the process of placing the engineering plant in a status known as “cold iron.” The term originates from the steamship era, when ship boilers and engines would go relatively cold after being secured. To bring a steam plant back online, supplying its own power after a “cold iron” period, would involve a substantial light-off, warm-up, and transition period compared to modern, fully automated plants. Onshore power supply (OPS, sometimes referred to as “cold ironing”) is a system of procedures and equipment that provides ships with a source of electrical power as an alternative to the ship’s service electrical power system. The primary benefit is that, since the ship no longer has main or auxiliary engines operating, the engine emissions are virtually eliminated in the port area. Many ports around the world are located near large populations, and engine emissions from ships unfortunately contribute to unwanted levels of nitrogen oxides, sulphur oxides, particulate matter, and even the “greenhouse gas” carbon dioxide. Onshore power supply achieves a better total emissions reduction result than ship-installed emissions equipment, because the engines are off-line. On the other hand, there are difficulties associated with high voltage, varying frequencies, safety and infrastructure costs that must be addressed in order to justify an onshore power supply installation. Paper published with permission.

In which a simile in Mr Pope’s period of a mile introduces as bloody a battle as can possibly be fought without the assistance of steel or cold iron

As in the season of RUTTING (an uncouth phrase, by which the vulgar denote that gentle dalliance which, in the well-wooded forest1 of Hampshire,* passes between lovers of the ferine kind), if, while the lofty-crested stag meditates the amorous sport, a...