Towards comprehensive digital evaluation of low-carbon machining process planning

IF 1.7 3区 工程技术 Q3 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE Ai Edam-Artificial Intelligence for Engineering Design Analysis and Manufacturing Pub Date : 2022-07-25 DOI:10.1017/S0890060422000105
Zhaoming Chen, Jinsong Zou, Wei Wang
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引用次数: 3

Abstract

Abstract Low-carbon process planning is the basis for the implementation of low-carbon manufacturing technology. And it is of profound significance to improve process executability, reduce environmental pollution, decrease manufacturing cost, and improve product quality. In this paper, based on the perceptual data of parts machining process, considering the diversity of process planning schemes and factors affecting the green manufacturing, a multi-level evaluation criteria system is established from the aspects of processing time, manufacturing cost and processing quality, resource utilization, and environmental protection. An integrated evaluation method of low-carbon process planning schemes based on digital twins is constructed. Each index value is normalized by the polarized data processing method, its membership is determined by the fuzzy statistical method, and the combination weight of each index is determined by the hierarchical entropy weight method to realize the organic combination of theoretical analysis, practical experience, evaluation index, and process factors. The comprehensive evaluation of multi-process planning schemes is realized according to the improved fuzzy operation rules, and the best process planning solution is finally determined. Finally, taking the low-carbon process planning of an automobile part as an example, the feasibility and effectiveness of this method are verified by the evaluation of three alternative process planning schemes. The results show that the method adopted in this paper is more in line with the actual production and can provide enterprises with the optimal processing scheme with economic and environmental benefits, which may be helpful for more data-driven manufacturing process optimization in the future.
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迈向低碳加工工艺规划的综合数字化评价
低碳工艺规划是实施低碳制造技术的基础。对提高工艺可执行性、减少环境污染、降低制造成本、提高产品质量具有深远的意义。本文以零件加工过程感知数据为基础,考虑到工艺规划方案的多样性和影响绿色制造的因素,从加工时间、制造成本与加工质量、资源利用、环境保护等方面建立了多层次的评价标准体系。构建了一种基于数字孪生的低碳工艺规划方案综合评价方法。各指数值采用极化数据处理方法归一化,其隶属度采用模糊统计方法确定,各指标的组合权重采用层次熵权法确定,实现理论分析、实践经验、评价指标、过程因素的有机结合。根据改进的模糊操作规则对多工艺规划方案进行综合评价,最终确定最佳工艺规划方案。最后,以某汽车零部件的低碳工艺规划为例,通过对三种备选工艺规划方案的评价,验证了该方法的可行性和有效性。结果表明,本文所采用的方法更符合生产实际,能够为企业提供具有经济效益和环境效益的最优加工方案,对未来更多数据驱动的制造工艺优化有所帮助。
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来源期刊
CiteScore
4.40
自引率
14.30%
发文量
27
审稿时长
>12 weeks
期刊介绍: The journal publishes original articles about significant AI theory and applications based on the most up-to-date research in all branches and phases of engineering. Suitable topics include: analysis and evaluation; selection; configuration and design; manufacturing and assembly; and concurrent engineering. Specifically, the journal is interested in the use of AI in planning, design, analysis, simulation, qualitative reasoning, spatial reasoning and graphics, manufacturing, assembly, process planning, scheduling, numerical analysis, optimization, distributed systems, multi-agent applications, cooperation, cognitive modeling, learning and creativity. AI EDAM is also interested in original, major applications of state-of-the-art knowledge-based techniques to important engineering problems.
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