Prediction Of The Coefficient Of Friction In The Single Point Incremental Forming Of Truncated Cones From A Grade 2 Titanium Sheet

Q3 Engineering

Tribologia: Finnish Journal of Tribology Pub Date : 2023-07-18 DOI:10.30678/fjt.127844

Marcin Szpunar, T. Trzepieciński

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Abstract

The aim of this paper is to analyze the effect of the process parameters on the coefficient of friction (COF) in the single-point incremental forming process. This investigation may be useful for further FEM analyses where the tool-workpiece contact must be set appropriately to obtain adequate results. The friction was analyzed between a solid tungsten carbide ⌀8 hemispherical ended tool with a radius of 4 mm and a grade 2 pure titanium sheet. As a lubricant, 10W40 engine oil was used. The experiment was of a central composite design and 20 runs in random order were carried out. The influence of input factors, namely spindle speed, tool feed and incremental step depth, was analyzed for the COF response. Two type of equations founded in the literature have been acquired to calculate COF values. An investigation of COF analysis was done for initial tool contact, the first tool full depth contact and stabilized forming region. Additionally, single components of the horizontal force (X-axis and Y-axis) were taken into account. Analysis of variance shows that there is no correlation between the input factors and the COF responses. However, the mean model fitted to the results obtained allows for the prediction of the COF by using the vertical force component and only one horizontal force component. The resulting mean value of the COF between the tool and the workpiece equals 0.4 for Eq. (1) initial contact, stabilized forming: Eq. (1) 0.656 and Eq. (2) 0.469.

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A级钛板截锥单点增量成形的摩擦系数预测

本文的目的是分析单点增量成形过程中工艺参数对摩擦系数的影响。这项研究可能对进一步的有限元分析有用，其中必须适当地设置工具-工件接触以获得充分的结果。分析了半径为4mm的实心硬质合金半球形端部刀具与2级纯钛板之间的摩擦。作为润滑剂，使用10W40机油。试验采用中心组合设计，按随机顺序进行20组试验。分析了主轴转速、刀具进给量和增量步进深度等输入因素对COF响应的影响。在文献中建立了两类方程来计算COF值。对刀具初始接触、刀具首次全深度接触和稳定成形区域进行了COF分析。此外，考虑了水平力的单个分量(x轴和y轴)。方差分析表明，输入因子与COF响应之间不存在相关性。然而，拟合结果的平均模型允许通过使用垂直力分量和仅一个水平力分量来预测COF。对于Eq.(1)初始接触，稳定成形，得到的刀具和工件之间的COF平均值等于0.4:Eq.(1) 0.656和Eq.(2) 0.469。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Tribologia: Finnish Journal of Tribology Materials Science-Surfaces, Coatings and Films

CiteScore

2.20

自引率

0.00%

发文量