Принципи 3d моделювання механічних деталей для застосування 3d принтера.

Q4 Computer Science

Journal of Computing and Information Technology Pub Date : 2020-12-15 DOI:10.36910/6775-2524-0560-2020-41-09

Володимир Семенович Лазебний, C. Досенко, О. Білевська

{"title":"Принципи 3d моделювання механічних деталей для застосування 3d принтера.","authors":"Володимир Семенович Лазебний, C. Досенко, О. Білевська","doi":"10.36910/6775-2524-0560-2020-41-09","DOIUrl":null,"url":null,"abstract":"The principles of 3D modeling of mechanical parts for the application of a 3D printer are revealed. The concept of \"3D printer\" is defined, it is noted that the 3D printer uses the method of layer-by-layer creation of a physical object on a digital 3D-model. A description of three-dimensional printing, such as rapid prototyping, is proposed, noting that this technology has broad prospects for development and implementation, because it has a number of advantages over traditional methods of creating various parts. The classification of 3D printers by purpose (consumer orientation) and by printing technology in the form of a table is given. Digital 3D technologies and cognitive programming are characterized, which open unique possibilities of reproduction of the most difficult spatial forms, objects and engineering constructions, mechanisms and it is emphasized that realization of these possibilities is connected with digital technology of management of material particles in 3D environment of 3D technology tools. Methods of 3D-modeling of mechanical parts are determined: 3D-modeling in the program COMPASS-3D; 3D scanning with a 3D scanner. Possibilities of the system of three-dimensional modeling which provide designing of machine-building products of any complexity and according to the most advanced design techniques are outlined. The system has tools for working by the method of \"top down\", or the method of downward design, as well as the method of \"bottom up\". The principles of scanning a part from four sides on an Artec 3D scanner using a rotary table are defined, where the scanning accuracy for this 3D scanner is up to 0.1% of the size of the scanned object. It is emphasized that scanning can be used to create accurate models of complex profile objects, which can then be used to obtain product prototypes, build new products based on existing ones.","PeriodicalId":38688,"journal":{"name":"Journal of Computing and Information Technology","volume":"405 1","pages":"51-58"},"PeriodicalIF":0.0000,"publicationDate":"2020-12-15","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"1","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Journal of Computing and Information Technology","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.36910/6775-2524-0560-2020-41-09","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"Q4","JCRName":"Computer Science","Score":null,"Total":0}

引用次数: 1

Abstract

The principles of 3D modeling of mechanical parts for the application of a 3D printer are revealed. The concept of "3D printer" is defined, it is noted that the 3D printer uses the method of layer-by-layer creation of a physical object on a digital 3D-model. A description of three-dimensional printing, such as rapid prototyping, is proposed, noting that this technology has broad prospects for development and implementation, because it has a number of advantages over traditional methods of creating various parts. The classification of 3D printers by purpose (consumer orientation) and by printing technology in the form of a table is given. Digital 3D technologies and cognitive programming are characterized, which open unique possibilities of reproduction of the most difficult spatial forms, objects and engineering constructions, mechanisms and it is emphasized that realization of these possibilities is connected with digital technology of management of material particles in 3D environment of 3D technology tools. Methods of 3D-modeling of mechanical parts are determined: 3D-modeling in the program COMPASS-3D; 3D scanning with a 3D scanner. Possibilities of the system of three-dimensional modeling which provide designing of machine-building products of any complexity and according to the most advanced design techniques are outlined. The system has tools for working by the method of "top down", or the method of downward design, as well as the method of "bottom up". The principles of scanning a part from four sides on an Artec 3D scanner using a rotary table are defined, where the scanning accuracy for this 3D scanner is up to 0.1% of the size of the scanned object. It is emphasized that scanning can be used to create accurate models of complex profile objects, which can then be used to obtain product prototypes, build new products based on existing ones.

查看原文本刊更多论文

揭示了应用于3D打印机的机械零件的三维建模原理。定义了“3D打印机”的概念，注意到3D打印机使用的是在数字3D模型上逐层创建物理对象的方法。提出了三维打印的描述，如快速成型，并指出该技术具有广阔的发展和实施前景，因为它比传统的制造各种零件的方法有许多优点。以表格的形式对3D打印机的用途(消费者定位)和打印技术进行了分类。数字3D技术和认知编程的特点是，它打开了最困难的空间形式，对象和工程结构，机制的复制的独特可能性，并强调实现这些可能性与三维技术工具的三维环境中的材料粒子管理的数字技术有关。确定了机械零件的三维建模方法:在COMPASS-3D程序中进行三维建模;用3D扫描仪进行3D扫描。概述了三维建模系统的可能性，该系统可以根据最先进的设计技术设计任何复杂的机械制造产品。系统有“自顶向下”、“向下设计”、“自底向上”等工作工具。定义了在Artec 3D扫描仪上使用转台从四面扫描零件的原理，该3D扫描仪的扫描精度可达被扫描物体尺寸的0.1%。强调扫描可用于创建复杂轮廓对象的精确模型，然后可用于获得产品原型，并在现有产品的基础上构建新产品。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

求助全文

约1分钟内获得全文求助全文

来源期刊

Journal of Computing and Information Technology Computer Science-Computer Science (all)

CiteScore

0.60

自引率

0.00%

发文量

审稿时长

26 weeks

期刊介绍： CIT. Journal of Computing and Information Technology is an international peer-reviewed journal covering the area of computing and information technology, i.e. computer science, computer engineering, software engineering, information systems, and information technology. CIT endeavors to publish stimulating accounts of original scientific work, primarily including research papers on both theoretical and practical issues, as well as case studies describing the application and critical evaluation of theory. Surveys and state-of-the-art reports will be considered only exceptionally; proposals for such submissions should be sent to the Editorial Board for scrutiny. Specific areas of interest comprise, but are not restricted to, the following topics: theory of computing, design and analysis of algorithms, numerical and symbolic computing, scientific computing, artificial intelligence, image processing, pattern recognition, computer vision, embedded and real-time systems, operating systems, computer networking, Web technologies, distributed systems, human-computer interaction, technology enhanced learning, multimedia, database systems, data mining, machine learning, knowledge engineering, soft computing systems and network security, computational statistics, computational linguistics, and natural language processing. Special attention is paid to educational, social, legal and managerial aspects of computing and information technology. In this respect CIT fosters the exchange of ideas, experience and knowledge between regions with different technological and cultural background, and in particular developed and developing ones.