Comparative Life Cycle Assessment of Various Grinding Strategies for Nickel Base Superalloys

Volume 2B: Advanced Manufacturing Pub Date : 2021-11-01 DOI:10.1115/imece2021-73073

A. K. Singh, Varun Sharma

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引用次数: 1

Abstract

During the grinding of advanced materials, several problems such as the generation of high temperatures, more energy consumption, excessive utilization of cutting fluids, and emissions of various harmful gases have been encountered, resulting in negative impacts on the environment. In order to mitigate such problems, this study focuses on the sustainability of the grinding process amalgamated with the introduction of ultrasonic vibration. The effect of ultrasonic vibration has been incorporated in grinding along with optimal machining parameters. Ionic Liquid (ILs) with vegetable oil has been used as a cutting fluid, which is categorized as a green solvent. Ionic Liquids (ILs) have been proved as a favourable sustainable alternative additive in the base oil to obtain the desired cutting fluid performance. A comparative study has been conducted for various grinding strategies to assess their environmental impacts using Life Cycle Assessment (LCA). Initially, Conventional Grinding (CG) and Ultrasonic Assisted Grinding (UAG) have been attempted. In the subsequent attempt, ultrasonically atomized fluid has been used for the CG and UAG processes. The SimaPro LCA software has been used to quantify the environmental impacts associated with these processes. The inputs for the LCA inventory are consisted of material consumption, energy consumption, and cutting fluid consumption. In this study, the ReCiPe 2016 V 1.04 midpoint and endpoint module has been used for carrying out the impact assessment. The results of the LCA impact assessment showed that the ultrasonic-assisted grinding performed using ultrasonically atomized cutting fluid exhibited the least adverse effects on the environment as compared to other mentioned counterparts. The cutting fluid and power consumption has been found significant contributor for the environment. The results obtained from LCA analysis can be utilized as a basis for sustainability assessment framework in the grinding of advanced materials.

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镍基高温合金各种磨削策略的寿命周期比较

在先进材料的磨削过程中，遇到了高温产生、能耗大、切削液的过度利用、各种有害气体的排放等问题，对环境造成了负面影响。为了减轻这些问题，本研究将重点放在引入超声振动的磨削过程的可持续性上。在优化加工参数的同时，考虑了超声振动对磨削的影响。含有植物油的离子液体已被用作切削液，是一种绿色溶剂。离子液体(ILs)已被证明是一种良好的可持续替代添加剂，可以在基础油中获得理想的切削液性能。采用生命周期评价(LCA)方法对不同磨矿策略的环境影响进行了比较研究。最初，常规磨削(CG)和超声辅助磨削(UAG)进行了尝试。在随后的尝试中，超声雾化流体被用于CG和UAG工艺。SimaPro LCA软件已被用于量化与这些过程相关的环境影响。LCA库存的输入包括材料消耗、能源消耗和切削液消耗。本研究采用ReCiPe 2016 V 1.04中点和终点模块进行影响评估。LCA影响评估结果表明，与其他方法相比，使用超声雾化切削液进行超声辅助磨削对环境的不利影响最小。切削液和功率消耗已被发现是环境的重要贡献者。LCA分析结果可作为先进材料磨削可持续性评价框架的基础。

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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Volume 2B: Advanced Manufacturing

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