Product Reliability through Integrated Packaging and Handling

B. Baker
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Abstract

Space Scientists and Engineers are under continuing pressure to establish increasingly rigid performance parameters in product design. The ever changing technical "state of the art" of space products dictates companion changes in the "state of the art" of supporting technical endeavors such as industrial engineering. One vital area in which industrial engineering must react in close concert with technical changes is material handling and packaging engineering. Material handling and packaging engineers must devise techniques, devices and systems to protect product performance parameters. In many instances, elements of the space industry have used a piecemeal approach to solve protective packaging and handling problems - with piecemeal results. A practical concept is needed to enable application of optimum industrial engineering to problems related to protection of space product reliability. This concept embraces recognition that space product manufacturers are part of a vast invention complex - and that this complex, in turn, is nothing more or less than an involved material flow. Accordingly, to enhance chances of space products to reliably perform; thoroughly integrated, cradle-to-grave protective packaging and handling systems and programs must be devised to cover every segment of the material flow - from raw materials to consumption. The manner of adoption of this concept by Lockheed's Missiles and Space Company and its efforts to bring to fruition practical results is presented.
产品可靠性通过集成包装和处理
空间科学家和工程师面临着在产品设计中建立越来越严格的性能参数的持续压力。空间产品不断变化的技术“最新技术”决定了支持技术努力(如工业工程)的“最新技术”的伴随变化。工业工程必须与技术变化密切配合的一个重要领域是材料处理和包装工程。物料处理和包装工程师必须设计技术、设备和系统来保护产品性能参数。在许多情况下,航天工业的各个部门都采用了零敲碎打的方法来解决保护性包装和处理问题,结果却是零敲碎打。需要一个实际的概念,使最佳工业工程能够应用于与保护空间产品可靠性有关的问题。这个概念包含了这样一种认识,即航天产品制造商是一个巨大的发明综合体的一部分,而这个综合体,反过来,也就是一个涉及的物质流。因此,提高空间产品可靠运行的机会;必须设计彻底集成的,从摇篮到坟墓的保护性包装和处理系统和程序,以覆盖从原材料到消费的物料流的每个环节。介绍了洛克希德导弹和空间公司采用这一概念的方式及其为实现实际成果所做的努力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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