Engineering, Rapid Prototyping Achieves Cast Conversion.General Dynamics Defense System (GDDS GDDS General Dynamics Decision Systems GDDS Goddess GDDS General Data Dissemination System Site (International Monetary Fund) GDDS General Dynamics Defense System ), Pittsfield, Massachusetts, was looking to convert an existing fabricated and welded VME (Virtual Machine Environment) An operating system from Fujitsu Services (formerly ICL) that runs on its Series 39 mainframes. Introduced in 1975, VME is a comprehensive product that provides a variety of utilities for datacenter operations. sub-rack to a casting. This component is an electronic enclosure for the command and communication-related circuitry used by the U.S. Navy. GDDS determined that a one-piece casting would provide a significant cost savings and reduce production cycle time and sought out K + P Agile, Inc., Naperville, Illinois, to help with the conversion. Designing, manufacturing and quality-related requirements were laid out at the onset of the program. The primary objective was to perform the conversion without affecting any other equipment in the assembly or function of the assembly. The initial risk assessment performed at the beginning of the program highlighted the need for an agile manufacturing process focused on making the casting within specification and meeting all requirements the first time. K + P served as the Tier 1 supplier on the component redesign and executed the industrial contract, project management and client communications for the project while sub-contracting the tooling, casting, machining and finishing. The first step was for engineers to convert the weldment weld·ment n. A unit composed of an assemblage of pieces welded together. Noun 1. weldment - an assembly of parts welded together assembly - a group of machine parts that fit together to form a self-contained unit to a one-piece casting design while maintaining manufacturability. While creating the master model, which consisted of geometry for the machined part, rough casting and tooling, design issues were discussed with the tool shop and foundry. The final design was validated by overlaying the solid model of the existing weldment on the casting design. The engineering firm also produced a scale laminated object manufacturing Laminated Object Manufacturing (LOM™) is a rapid prototyping system developed by Helisys Inc. In it, layers of adhesive-coated paper are successively glued together and cut to shape with a laser cutter. (LOM (1) (LAN On Motherboard) Refers to building the Ethernet circuits directly on the motherboard rather than requiring that a separate network adapter be plugged in. (2) (Lights Out Management) See lights out server room. ) rapid prototype for the customer to validate form and fit. The casting quality was optimized and validated using shock and vibration finite element analysis Finite element analysis (FEA) is a computer simulation technique used in engineering analysis. It uses a numerical technique called the finite element method (FEM). There are many finite element software packages, both free and proprietary. and fracture mechanics tests, Then, the firm worked with the foundry and tool shop to develop a gating and risering system, which allowed further validation to be carried out using process modeling simulation for mold filling and casting solidification. Some of the final finished cast component specifications included: cast edge radii--sharp to 0.188 in.; cast fillet fillet /fil·let/ (fil´et) 1. a loop, as of cord or tape, for making traction on the fetus. 2. in the nervous system, a long band of nerve fibers. fil·let n. 1. radii--0.250 in. minimum; and tolerances of [+ or -] 0.06 in. up to 6 in., 0.09 from 6 in. to 12 in., and 0.12 at more than 12 in. The prototype tooling for the molds and coreboxes then was made using CNC (Computerized Numerical Control) See numerical control. CNC - Collaborative Networked Communication milling and manual bench patternmaking patternmaking In materials processing, the first step in casting and molding processes, the making of an accurate model of the part, somewhat oversize to allow for shrinkage of the cast material as it cools. , sand molds and cores were made, and two castings were poured. The castings were made in nobake sand molds with A356 aluminum alloy that was T7 heat-treated. The cast component from concept to delivery, including design, analysis, production tooling and casting, was carried out in 14 weeks. The product unit cost was reduced by 40%, component weight from 24.9 lb to 23.2 and the production cycle from 40 weeks to 14. Currently, the component is in production and a modified version will be incorporated into three different end-uses in the future. |
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