Investigation on low hydrostatic stress extrusion technology for forming of large thin-walled components with high ribs

IF 14 1区 工程技术 Q1 ENGINEERING, MANUFACTURING International Journal of Machine Tools & Manufacture Pub Date : 2024-03-25 DOI:10.1016/j.ijmachtools.2024.104149
Zhimin Zhang , Zhe Chen , Yong Xue , Xing Zhang , Qiang Wang
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Abstract

An increase in hydrostatic stress improves the plasticity of metallic materials. However, for some special components, such as large thin-walled components with high ribs, excessive hydrostatic stress can cause several problems that make it impossible to prepare such components using plastic forming methods. In this study, the effect of hydrostatic stress on the deformation behavior of large thin-walled components with high ribs was investigated using a combination of numerical simulations and theoretical derivations. The results indicated that excessive hydrostatic stress leads to die failure, causing metal flow difficulties, uneven deformation, inconsistent mechanical properties, and reduced forming accuracy. Therefore, a low-hydrostatic-stress extrusion method was proposed by adjusting the contact friction, metal flow direction and displacement, and force boundary conditions to reduce the hydrostatic compressive stress. These principles are mainly reflected in the following three aspects: First, the size of the difficult deformation zone was reduced by changing the friction conditions from dry friction to fluid friction or boundary friction to reduce the frictional resistance. Second, the high-stress zone was eliminated by changing the metal flow direction, adjusting the strain state from unidirectional to multi-directional flow, shortening the metal flow path, and reducing the metal flow resistance. Third, the strong compressive stress state in the three directions was weakened by regulating the force boundary conditions and changing the loading method from one-way extrusion to multi-directional loading. Based on these principles, a series of new forming technologies have been developed, such as actively counteracting frictional resistance, slotting, and ditching on dies for long-lasting lubrication, multi-directional short-range metal flow, drawing-assisted extrusion, and multi-directional active loading. The adoption of these technologies realizes the labor-efficient formation of large thin-walled components with high ribs and provides the formed members with high precision and uniform mechanical properties.

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用于高肋大型薄壁部件成型的低静水压力挤压技术研究
静水压力的增加可提高金属材料的塑性。然而,对于一些特殊部件,如带有高肋的大型薄壁部件,过大的静水压力会导致一些问题,使其无法使用塑性成形方法制备。本研究采用数值模拟和理论推导相结合的方法,研究了静水压力对大型高肋薄壁部件变形行为的影响。结果表明,过大的静水压力会导致模具失效,造成金属流动困难、变形不均匀、机械性能不一致以及成型精度降低。因此,通过调整接触摩擦、金属流动方向和位移以及力边界条件来降低静压应力,提出了一种低静压应力挤压方法。这些原理主要体现在以下三个方面:首先,通过将摩擦条件从干摩擦改为流体摩擦或边界摩擦来减少摩擦阻力,从而缩小了困难变形区的尺寸。第二,通过改变金属流动方向,将应变状态从单向流动调整为多向流动,缩短金属流动路径,降低金属流动阻力,从而消除了高应力区。第三,通过调节受力边界条件,将加载方式从单向挤压改为多向加载,削弱了三个方向的强压应力状态。基于这些原理,一系列新的成形技术应运而生,如主动抵消摩擦阻力、开槽、在模具上开沟以实现长效润滑、多方向短程金属流动、拉伸辅助挤压、多方向主动加载等。这些技术的采用实现了高肋大型薄壁部件的省力成形,并使成形部件具有高精度和均匀的机械性能。
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来源期刊
CiteScore
25.70
自引率
10.00%
发文量
66
审稿时长
18 days
期刊介绍: The International Journal of Machine Tools and Manufacture is dedicated to advancing scientific comprehension of the fundamental mechanics involved in processes and machines utilized in the manufacturing of engineering components. While the primary focus is on metals, the journal also explores applications in composites, ceramics, and other structural or functional materials. The coverage includes a diverse range of topics: - Essential mechanics of processes involving material removal, accretion, and deformation, encompassing solid, semi-solid, or particulate forms. - Significant scientific advancements in existing or new processes and machines. - In-depth characterization of workpiece materials (structure/surfaces) through advanced techniques (e.g., SEM, EDS, TEM, EBSD, AES, Raman spectroscopy) to unveil new phenomenological aspects governing manufacturing processes. - Tool design, utilization, and comprehensive studies of failure mechanisms. - Innovative concepts of machine tools, fixtures, and tool holders supported by modeling and demonstrations relevant to manufacturing processes within the journal's scope. - Novel scientific contributions exploring interactions between the machine tool, control system, software design, and processes. - Studies elucidating specific mechanisms governing niche processes (e.g., ultra-high precision, nano/atomic level manufacturing with either mechanical or non-mechanical "tools"). - Innovative approaches, underpinned by thorough scientific analysis, addressing emerging or breakthrough processes (e.g., bio-inspired manufacturing) and/or applications (e.g., ultra-high precision optics).
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