轻质构件
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轻质复合构件的孔加工技术研究
Boring Technique in Light Composite Component
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研究表明,工程陶瓷/玻璃钢轻质复合构件具有非常广阔的应用前景。
Research shows that engineering ceramics / GFRP light composite structure has a very broad application prospect .
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该加工工艺可推广应用于加工工程陶瓷、纤维复合材料以及其他类似结构和组份材料的轻质复合构件。从理论分析和试验研究两个方面,对复合构件的加工机理进行了深入研究。
Also , the machining process is suitable for machining engineering ceramics , fiber reinforced plastic composites and the similar lightweight composite components . Secondly , the machining mechanisms of lightweight composite component were studied theoretically and experimentally .
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但由于传统工艺的制约,在轻质复合构件车体成型过程中,无法准确预留一些装配特征,尤其是大量连接孔,需要根据装配现场的要求进行二次加工。
Because of the constraints of traditional technology , some assembly features can not be accurately set aside in the process of body shaping , especially a large number of connective holes , which should be drilled according to the requirements of assembly .
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薄板结构是轻质铝合金构件的主要特征,搅拌摩擦焊在这类技术方面具有很强的经济优势,在铝合金构件焊接成型中有着巨大的应用前景。
Sheet structure is the main features of lightweight aluminum components , friction stir welding has great economic advantage in such technology and has a great prospect in the forming of welded aluminum components .
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绑扎式钢管脚手架结构吸收了传统竹脚手架绑扎工艺方便快捷的优点,同时摒弃了竹材的材料缺点,采用轻质钢管作为结构构件,使结构承载力显著提高,是传承和创新的结合。
Steel tubular scaffold with binding used the lightweight steel tube as the structural component has the advantages of traditional bamboo scaffolding and gets rid the shortcomings of bamboo materials , which improve the bearing capacity significantly .
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高性能轻质材料层叠复合构件(核心材料是工程陶瓷以及纤维增强聚合物基复合材料)在装甲防护领域有着广泛的应用前景。
The lightweight laminated composite components made up of high performance lightweight materials have a broad application prospect in armor protection field , and the key materials of composite components are engineering ceramics and fiber reinforced plastic composites ( FRP ) .