Optimal milling cutter helix selection for period doubling chatter suppression

IF 14 1区 工程技术 Q1 ENGINEERING, MANUFACTURING International Journal of Machine Tools & Manufacture Pub Date : 2024-09-10 DOI:10.1016/j.ijmachtools.2024.104211
M. Sanz-Calle , A. Iglesias , L.N. López de Lacalle , Z. Dombovari , J. Munoa
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Abstract

In high speed milling, interrupted cutting conditions can lead to period doubling chatter vibrations. While many studies have already confirmed that the use of helical tools can effectively shrink or remove these regions of unstable cutting, none of them has provided clear guidance to select the minimum helix that completely cancels the period doubling lobes. This study addresses this gap by introducing a novel analytical formula for a critical tool helix pitch: if the helix pitch is below the critical flip depth of cut of the straight helix cutter multiplied by π, the flip lobes will totally vanish. This rule is not only valuable for chatter-free process planning purposes, but it also establishes exact limit below which the fast and simple zeroth order stability algorithm can provide exact stability boundaries for helical tools. The effectiveness of the formula is numerically corroborated over three different milling scenarios: thin wall milling, slender tool and machine tool structure chatter cases. Finally, the findings are validated through experimental cutting tests.

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优化铣刀螺旋选择,抑制周期加倍颤振
在高速铣削中,断续切削条件会导致周期倍频颤振。虽然许多研究已经证实,使用螺旋刀具可以有效地缩小或消除这些不稳定的切削区域,但没有一项研究为选择能完全消除周期倍频振叶的最小螺旋度提供了明确的指导。本研究针对这一缺陷,提出了一个新颖的临界刀具螺旋间距分析公式:如果螺旋间距低于直螺旋刀具的临界翻转切削深度乘以 π,翻转裂片将完全消失。该规则不仅对无颤振工艺规划很有价值,而且还建立了精确的极限,在该极限以下,快速简单的零阶稳定性算法可以为螺旋刀具提供精确的稳定性边界。该公式的有效性通过三种不同的铣削情况进行了数值验证:薄壁铣削、细长刀具和机床结构颤振情况。最后,通过切削实验验证了上述结论。
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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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