增材制造设计背景下装配结构可打印性和可集成性分析专家系统

IF 2.5 2区工程技术 Q1 ENGINEERING, MULTIDISCIPLINARY

Journal of Engineering Design Pub Date : 2023-08-22 DOI:10.1080/09544828.2023.2248800

Maolin Yang, Wei Dai, Pingyu Jiang

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引用次数: 0

摘要

与减法制造相比，增材制造具有生产形状和功能更复杂的零件的能力。增材制造设计（DfAM）旨在生产可增材制造的设计解决方案。在DfAM过程中，分析目标组件的可打印性和可集成性是重要任务。然而，这些任务需要系统地分析目标组件中各部件的结构/功能/材料特性、工作条件和相互作用关系，充分了解所应用AM设备的能力和局限性，并考虑AM加工的特点进行综合设计决策等。这使得执行可打印性和可集成性分析任务具有挑战性。在这方面，建立了一个专家系统，该系统通过面向功能-行为-结构的装配结构特征分析、基于本体实例的装配结构特性建模和基于改进RETE算法的设计决策来实现。该系统能够提供关于目标组件中的哪些零件可以打印以及这些可打印零件中的哪些可以集成打印的决策指导。通过这种方式，它可以以计算机辅助的方式支持DfAM的实现。开发了一个封装该系统的WebApp，并以机械臂DfAM的重新设计项目为例进行了研究。

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An expert system for analysing the printability and integratability of assembly structures under the context of design for additive manufacturing

Additive manufacturing (AM) has the capability of producing parts with more complicated shapes and functions compared with subtractive manufacturing. Design for additive manufacturing (DfAM) aims at producing design solutions that can be additively manufactured. During DfAM, analysing the printability and integratbility of a target assembly are important tasks. However, the tasks require systematic analysis of the structural/functional/material characteristics, working conditions, and interaction relations among the parts in the target assembly, fully understanding of the capability and limitation of the applied AM equipment, and comprehensive design decision-making considering the characteristics of AM processing, etc. This makes it challenging to conduct printability and integratbility analysis tasks. In this regard, an expert system is established which is realised with Function-Behaviour-Structure oriented assembly structure characteristic analysing, ontology instance-based assembly structure characteristic modelling, and modified RETE algorithm-based design decision-making. The system is capable of providing decision guidance on which parts in a target assembly can be printed and which among these printable parts can be printed integratedly. In this way, it can support DfAM implementation in a computer-aided manner. A WebApp that encapsulates the system is developed, and a robot arm DfAM redesign project is used as a case study.

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来源期刊

Journal of Engineering Design 工程技术-工程：综合

CiteScore

5.00

自引率

33.30%

发文量

审稿时长

4.5 months

期刊介绍： The Journal of Engineering Design is a leading international publication that provides an essential forum for dialogue on important issues across all disciplines and aspects of the design of engineered products and systems. The Journal publishes pioneering, contemporary, best industrial practice as well as authoritative research, studies and review papers on the underlying principles of design, its management, practice, techniques and methodologies, rather than specific domain applications. We welcome papers that examine the following topics: Engineering design aesthetics, style and form- Big data analytics in engineering design- Collaborative design in engineering- Engineering concept design- Creativity and innovation in engineering- Engineering design architectures- Design costing in engineering Design education and pedagogy in engineering- Engineering design for X, e.g. manufacturability, assembly, environment, sustainability- Engineering design management- Design risk and uncertainty in engineering- Engineering design theory and methodology- Designing product platforms, modularity and reuse in engineering- Emotive design, e.g. Kansei engineering- Ergonomics, styling and the design process- Evolutionary design activity in engineering (product improvement & refinement)- Global and distributed engineering design- Inclusive design and assistive engineering technology- Engineering industrial design and total design- Integrated engineering design development- Knowledge and information management in engineering- Engineering maintainability, sustainability, safety and standards- Multi, inter and trans disciplinary engineering design- New engineering product design and development- Engineering product introduction process[...]