{"title":"Exploring the possibility of undesirable manufacturing heritage reduction in parts made of composites and their joints","authors":"I. Taranenko, Tetiana Kupriianova","doi":"10.15587/2706-5448.2024.299227","DOIUrl":null,"url":null,"abstract":"The object of the research is the possibility of improving the quality of parts made of composites (CM) by means of pre-polymerization treatment of the wet package with intensive pulse loading. The existing technologies for forming parts from CM involve the compaction of the collected impregnated package of reinforcement layers and their subsequent polymerization under the influence of pressure and temperature. As a result of this technology, residual thermal and shrinkage stresses occur in the composite package, which lead to undesirable spatial deformations of profile parts, a violation of monolithicity in the areas of the connection of the composite and metal ends.\nUsing the example of an angular composite profile with a profile with doubler on one of the caps, the residual stress calculation is given and the method of choosing rational angles for stacking the reinforcing material is demonstrated in order to reduce the amount of residual thermal stresses that arise in the composite during its polymerization. The dependence of the twisting parameter of a long-dimensional composite profile of constant cross-section along its axis on the modulus of elasticity and the coefficient of linear temperature expansion is plotted. The work explains the mechanism of the emergence of such harmful technological heredity. The value of the residual deformations was estimated.\nBased on the analysis of the impregnation process of dry reinforcing material with a binder, the task of increasing the maximum contact area of the binder with fibers is formulated and a possible method of its increase is analyzed. Thus, using the model of capillaries between the fibers of the composite, it is concluded that it is necessary to apply additional pressure to the binder for its deeper advancement between the fibers.\nUsing a synergistic method of combining knowledge from various branches of industry and based on experimental data, a process of pre-polymerization loading of the impregnated package with intense impulse loading (shock waves) is proposed. This process greatly improves the quality of parts of the units produced.","PeriodicalId":22480,"journal":{"name":"Technology audit and production reserves","volume":"23 40","pages":""},"PeriodicalIF":0.0000,"publicationDate":"2024-02-29","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Technology audit and production reserves","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.15587/2706-5448.2024.299227","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"","JCRName":"","Score":null,"Total":0}
引用次数: 0
Abstract
The object of the research is the possibility of improving the quality of parts made of composites (CM) by means of pre-polymerization treatment of the wet package with intensive pulse loading. The existing technologies for forming parts from CM involve the compaction of the collected impregnated package of reinforcement layers and their subsequent polymerization under the influence of pressure and temperature. As a result of this technology, residual thermal and shrinkage stresses occur in the composite package, which lead to undesirable spatial deformations of profile parts, a violation of monolithicity in the areas of the connection of the composite and metal ends.
Using the example of an angular composite profile with a profile with doubler on one of the caps, the residual stress calculation is given and the method of choosing rational angles for stacking the reinforcing material is demonstrated in order to reduce the amount of residual thermal stresses that arise in the composite during its polymerization. The dependence of the twisting parameter of a long-dimensional composite profile of constant cross-section along its axis on the modulus of elasticity and the coefficient of linear temperature expansion is plotted. The work explains the mechanism of the emergence of such harmful technological heredity. The value of the residual deformations was estimated.
Based on the analysis of the impregnation process of dry reinforcing material with a binder, the task of increasing the maximum contact area of the binder with fibers is formulated and a possible method of its increase is analyzed. Thus, using the model of capillaries between the fibers of the composite, it is concluded that it is necessary to apply additional pressure to the binder for its deeper advancement between the fibers.
Using a synergistic method of combining knowledge from various branches of industry and based on experimental data, a process of pre-polymerization loading of the impregnated package with intense impulse loading (shock waves) is proposed. This process greatly improves the quality of parts of the units produced.
研究的目的是通过对湿包材进行预聚合处理和高强度脉冲加载,提高复合材料(CM)制件的质量。现有的 CM 部件成型技术包括对收集的浸渍强化层复合材料进行压实,然后在压力和温度的影响下进行聚合。该技术的结果是,复合材料包中会产生残余热应力和收缩应力,从而导致型材部件出现不理想的空间变形,并在复合材料和金属端部的连接处破坏整体性。以一个带角度的复合材料型材为例,其中一个盖子上有一个带倍增器的型材,给出了残余应力的计算方法,并演示了选择合理角度堆叠增强材料的方法,以减少复合材料在聚合过程中产生的残余热应力。绘制了轴向横截面恒定的长维复合材料剖面的扭曲参数与弹性模量和线性温度膨胀系数的关系曲线。这项工作解释了出现这种有害技术遗传的机理。根据对干增强材料与粘合剂浸渍过程的分析,提出了增加粘合剂与纤维最大接触面积的任务,并分析了增加接触面积的可能方法。因此,利用复合材料纤维之间的毛细管模型得出结论,有必要对粘合剂施加额外的压力,使其在纤维之间更深入地前进。利用结合各行业知识的协同方法,并以实验数据为基础,提出了用强烈的脉冲加载(冲击波)对浸渍包进行预聚合加载的工艺。这一工艺大大提高了所生产部件的质量。
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