Computer-aided design of technical documentation on the digital product models of Industry 4.0

The purpose of this study is to analyze the ergonomic properties of knitwear, that form sense of thermophysiological comfort of a person and their connection with the geometric characteristics of the knitted structure to study the prospects of comfort predicting using computer-aided design systems. Methodology. During the research methods of theoretical analysis, basics of the theory of knitting, theories of thin elastic shell, basic concepts of mechanics and the basics of hydrodynamics were used. Findings. In the course of the work a theoretical analysis of scientific works and normative and technical documentation on various aspects of the definition and provision at the required level of ergonomic properties of knitwear that characterize the level of its convenience and comfort has been carried out. It was found that many researchers refer as most influencing the sense of comfort such properties as: air permeability, water vapour permeability, thermal resistance, hygroscopicity, electrical resistance, as well as stiffness and stretchability, that most affect the ability of knitwear to keep shape and fit the size of the human body. It was found that all abovementioned knitwear properties depend on the geometric characteristics of the knitted structure, such as yarn diameter; the loop length; wale spacing; course spacing; the thickness of the knit and others. Theoretical models of mechanical and physical properties of knitwear are functions of the geometrical characteristics of its structure, therefore the quality prediction of physical behaviour of knitwear depends on the quality of the 3D geometric model of the yarn, knitted in the knit. Scientific novelty. As a result of an analytical review of scientific publications and normative and technical documentation, the ergonomics of knitwear that form a feeling of thermophysiological comfort were determined, and their connection with the geometric characteristics of the knitwear structure was established. Practical value. Theoretical models of air permeability, thermal conductivity and stretchability, published in scientific journals, from the point of view of the possibility of their use as the basis for mathematical support of the computer-aided design system of knitted clothing are analyzed.

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DEVELOPMENT OF SYSTEM OF HYDRAULIC JACK COMPUTER-AIDED DESIGN

Bulletin of Bryansk state technical university ◽

10.12737/23238 ◽

2016 ◽

Vol 2016 (4) ◽

pp. 214-222

Author(s):

Владислав Колякин ◽

Vladislav Kolyakin ◽

Дмитрий Орехов ◽

Dmitriy Orekhov ◽

Андрей Аверченков ◽

...

Keyword(s):

Computer Aided Design ◽

Parametric Models ◽

Hydraulic Jack ◽

Technical Documentation ◽

Conceptual Approach ◽

Essential Information ◽

Hydraulic Equipment ◽

Computer Aided ◽

Design Systems ◽

Aided Design

The paper reports the problems in automation of designing hydraulic jacks of oneway action. The analysis of methods of computeraided design systems creation is carried out and the algorithms of allowing the formation of a system for computer-aided design of hydraulic jacks are under development. A conceptual approach to a jack choice depending on conditions of its operation allows reducing time for the analysis of requirements specification. In the course of the work with the system there were developed eight basic modules of the system. These modules allow reducing considerably time for the technical documentation development essential for manufacturing jacks with oneway operation and decreasing other costs in the course of designing. Databases created store all the essential information for the proper work of basis modules and also that of standard products, 3 D parametric models and associative drawings. The system developed meets all the requirements imposed on CADs. It is applicable at enterprises engaged in production and repair of hydraulic equipment. The Hydraulic Jack CAD was tested at a functioning enterprise and justified hopes.

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Digital Product Development

Mechanical Engineering ◽

10.1115/1.2008-aug-3 ◽

2008 ◽

Vol 130 (08) ◽

pp. 34-38

Author(s):

Mark A. Burgess

Keyword(s):

Product Development ◽

Process Modeling ◽

Computer Aided Design ◽

Geometric Modeling ◽

Digital Product ◽

Design Engineers ◽

Current Trends ◽

Computer Aided ◽

Aided Design ◽

Integrated Supply Chain

This article discusses changes in the digital product development. Advances in computing power are multiplying the capabilities of design engineers. Information technology has advanced at a tremendous pace. Developers of design systems have exploited this capability with sophisticated mathematics, and today's systems are capable of producing very complex designs in much higher definition than ever before. Advances in geometric modeling have made it possible to represent 3-D solids in minute detail. Process modeling, which began with the study of a single manufacturing process, eventually gave way to complete factory flow simulations. The recent advances in IT enabled crossing the boundaries among technology, geometry, and process modeling with integrated computer-aided engineering, computer-aided design, and process planning. Current trends have now extended process modeling throughout the integrated supply chain and the extended enterprise.

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Prototyping Human-Centered Products in the Age of Industry 4.0

Journal of Mechanical Design ◽

10.1115/1.4050736 ◽

2021 ◽

pp. 1-15

Author(s):

Salman Ahmed ◽

Lukman Irshad ◽

Onan Demirel

Keyword(s):

Computer Aided Design ◽

Industry 4.0 ◽

Product Development Process ◽

Digital Human Modeling ◽

Fidelity Level ◽

Human Modeling ◽

Computer Aided ◽

Aided Design ◽

Digital Human ◽

Product Interaction

Abstract Industry 4.0 promises better control of the overall product development process; however, there is a lack of computational frameworks that can inject human factors engineering principles early in design. This shortage is particularly crucial for prototyping of human-centered products where the stakes are high. Thus, a smooth Industry 4.0 transformation requires bringing computational ergonomics into the loop, specifically to address the needs in the digitized prototyping process. In this paper, a computational prototyping approach is explored that focuses on various fidelity levels and different human-product interaction levels when conducting ergonomics assessments. Three computational prototyping strategies were explored, including (1) a digital sketchpad based tool, (2) computer-aided design and digital human modeling based approach, and (3) a combination of computer-aided design, digital human modeling, and surrogate modeling. These strategies are applied to six case studies to perform various ergonomics assessments (reach, vision, and lower-back). It is suggest that designers must determine which fidelity level prototype to employ after applying a trade-off study between the accuracy of the ergonomics outcomes and the available resources. Understanding the intricacies between the fidelity level, type of ergonomic assessment, and human-product interaction level helps designers in getting one step closer to digitizing the human-centered prototyping in meeting Industry 4.0 objectives.

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