Machinability and pulse characteristics of Ti-16Al-14Nb (α/β) alloy in wire-electric discharge machining process: A surface integrity study

Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering Pub Date : 2024-05-23 DOI:10.1177/09544089241255942

K. Veera Venkata Nagaraju, M. Joseph Davidson, G. Venkatesh, M. Manjaiah, K. Harikrishna

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Abstract

The goal of the present work is to produce the efficient cutting of Ti-16Al-14Nb (α/β) alloy through wire-electric discharge machining and contemplate the terminologies such as machining ability, surface integrity and material removing capability. For this, the experimentation has been designed by considering three process parameters, pulse-on time ( Ton), pulse-off time ( Toff) and peak current ( Ip) at three significant levels (low, high, intermediate) in L27 order designed from design of experiments. The effect of these process variables on pulse characteristics, surface roughness ( Ra), kerfwidth ( Kw) and material removal rate ( MRR) is analyzed and mathematically modeled with analysis of variance. The results state that the highest MRR (0.521, 0.51, 0.506 mm3/sec) and low surface roughness (8.91, 8.89, 8.68 µm) values are observed at the highest level (110 µs, 15 µs, 8 A). If the pulse duration is kept at low ( Ton = 40µs, Toff = 3µs), the increase in peak current from 3 A to 8 A leads to a 64.54% increase in MRR and a 52.9% increase in Ra values. ANOVA results stated that Ton has contributed 20.4%, 35.8% and 19.3%, and Ip has contributed 43.1%, 30.5% and 46.6% influence on MRR, Kw and Ra respectively. The voltage–current characteristics studies confirmed that the strong intense pulses at a higher peak current (8 A) resulted in the increased MRR (0.521 mm3/sec) and Ra (8.43 µm) leading to the formation of swages and ridges. The surface integrity analysis derived from Abbott–Firestone curve agreed that the lowest level has shown better skewness ( Rsk = −0.274) and at highest level showed a larger deviation in skewness ( Rsk = +2.672) signifies that higher asymmetry (poor) of the surface.

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线-电火花加工过程中 Ti-16Al-14Nb (α/β) 合金的可加工性和脉冲特性：表面完整性研究

本工作的目标是通过线放电加工对 Ti-16Al-14Nb (α/β) 合金进行高效切割，并考虑加工能力、表面完整性和材料去除能力等术语。为此，实验设计考虑了三个工艺参数，即脉冲开启时间（Ton）、脉冲关闭时间（Toff）和峰值电流（Ip），按 L27 的顺序设计了三个重要水平（低、高、中）。分析了这些工艺变量对脉冲特性、表面粗糙度（Ra）、切口宽度（Kw）和材料去除率（MRR）的影响，并通过方差分析建立了数学模型。结果表明，在最高水平（110 微秒、15 微秒、8 A）时，材料去除率最高（0.521、0.51、0.506 立方毫米/秒），表面粗糙度较低（8.91、8.89、8.68 微米）。如果脉冲持续时间保持在较低水平（Ton = 40µs，Toff = 3µs），峰值电流从 3 A 增加到 8 A 会导致 MRR 增加 64.54%，Ra 值增加 52.9%。方差分析结果表明，Ton 对 MRR、Kw 和 Ra 的影响分别为 20.4%、35.8% 和 19.3%，Ip 对 MRR、Kw 和 Ra 的影响分别为 43.1%、30.5% 和 46.6%。电压-电流特性研究证实，峰值电流较高（8 A）的强脉冲导致 MRR（0.521 立方毫米/秒）和 Ra（8.43 微米）增加，从而形成了漩涡和脊。根据 Abbott-Firestone 曲线得出的表面完整性分析表明，最低水平的偏斜度较好 ( Rsk = -0.274)，而最高水平的偏斜度偏差较大 ( Rsk = +2.672)，表明表面的不对称性较高（较差）。

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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Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering

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