侵蚀尺寸处理方法在“金属复合材料”接头中产生横向紧固件的应用

I. Taranenko
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引用次数: 0

摘要

在工程物体的高载荷单元的设计中,特别是在航空航天工程的物品中,出现了在具有预定强度和实现给定功能的能力的金属和复合材料物品之间建立可靠接头的问题。选择具有横向紧固元件的“金属复合材料”接头的结构制造解决方案的开发和选择作为研究目标。作为研究“金属-复合材料”接头可能的结构制造解决方案的对象,该接头使用嵌入复合材料并连接到金属制品或在其表面上生产的横向紧固元件。考虑了三种类型的紧固微元件,即锥形单片、圆柱形和片状,并考虑了不同的紧固元件生产技术。在给定的“金属复合接头”承载能力下,对上述类型的微型紧固件的典型带微型销的平面制品的质量进行了估算。将紧固元件生产的劳动强度和能耗等可制造性的定量指标视为研究结果。提出了紧固件制造方法的比较方法。该方法是基于对相应的劳动强度和能源消耗的具体数字指标的分析。这些指标是针对假设由铝、钛合金和不锈钢制成的微型引脚进行比较的。所提出的分析模型的显著特点是同时考虑了主要和辅助技术操作,这些操作对制造业劳动强度和持续时间有显著影响。将传统的圆柱铣刀和圆盘铣刀的铣削工艺与最新的金属丝电蚀切削方法进行了比较。对制品表面微型紧固件的形状、类型和布置方案的选择以及在给定材料下生产微型销的精确制造工艺提出了建议,作为结论。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Application of erosion dimensional treatment methods for creation transversal fasteners in “metal-composite” joints
At design of high-loaded units of engineering objects, especially such as articles of aero-space engineering, the problem of creation of reliable joints between metal and composite articles having predefined strength and ability to fulfill given functions appears. Development and grounding of selection of structural-manufacturing solutions of “metal-composite” joints with transversal fastening elements is selected as the objective of studying. As the object for studying possible structural-manufacturing solutions of “metal-composite” joints that use transversal fastening elements which are embedded to composite and attached to metal article or produced on its surface. Three types of fastening micro-elements are considered, i.e. pyramidal monolithic, cylindrical and sheet-formed, also different technologies of fastening elements production are considered too. Mass of typical flat article with micro-pins at given load-carrying ability of “metal-composite joint” was esti-mated for above-mentioned types of micro-fasteners. Such quantitative indexes of manufacturability as labor-intensity and energy consumption of fastening elements production were considered as results of studies. Approach to comparison methods of fastening elements manufacturing is suggested. This approach is based on analysis of correspondent numerical specific indexes of labor-intensity and energy consumption. These indexes are com-pared for micro-pins which are assumed to be produced of aluminum, titanium alloys and stainless steels. Distinctive feature of suggested model of analysis is taking into consideration both main and auxiliary techno-logical operations, which influence significantly on manufacturing labor-intensity and duration. Process of classical milling with cylindrical and disc mills is compared with up-to-date methods of electro-erosion cutting with wire. Recommendations for selection shape, type and arrangement scheme of micro-fasteners on article surface and exact manufacturing process of micro-pins production at given material are formulated as conclusions.
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