A processing center for using digital hybrid technologies

The role of additive technologies in industrial development was highlighted, in particular, for implementation of the concept “Industry 4.0”. We discussed their significance for digital manufacturing of parts having complex configuration with internal cavities and functionally gradient properties. We analyzed the main drawbacks of additive technologies and suggested the ways to overcome them. We described the problem in creating the equipment for hybrid technologies on the basis of a processing center and an industrial robot. We developed a concept for creating a Russian-made machine-tool for using hybrid technologies. Solutions are proposed for improving the structure of the material of parts.

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Operating Digital Manufacturing in Industry 4.0: the role of advanced manufacturing technologies

Procedia CIRP ◽

10.1016/j.procir.2020.04.063 ◽

2020 ◽

Vol 93 ◽

pp. 174-179

Author(s):

Elias Ribeiro da Silva ◽

Ana Carolina Shinohara ◽

Christian Petersson Nielsen ◽

Edson Pinheiro de Lima ◽

Jannis Angelis

Keyword(s):

Industry 4.0 ◽

Digital Manufacturing ◽

Advanced Manufacturing ◽

Advanced Manufacturing Technologies ◽

Manufacturing Technologies

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Composite Materials Cyberspace Constraints

Materials Science Forum ◽

10.4028/www.scientific.net/msf.957.348 ◽

2019 ◽

Vol 957 ◽

pp. 348-357

Author(s):

Gabriel Raicu ◽

Alexandra Raicu

Keyword(s):

Industry 4.0 ◽

Critical Infrastructure ◽

Industrial Robot ◽

Modern Technology ◽

Smart Devices ◽

Cyber Threats ◽

Composites Materials ◽

Role Of It ◽

High Degree

Industry 4.0 era, as a whole, when economical entities not need to worry only about the classical business issues like natural disasters, asymmetrical competition, loss of key employees, among others, will be faced with increasingly sophisticated cyber threats targeting critical infrastructure as well as the smart devices that we use to control them virtually. Modern technology is prone to vulnerabilities that can be exploiting to get into targeted networks. Any connected system or industrial robot can easily be scanned for vulnerabilities that can be exploited and lead to the production of defective goods. As a paradox of this society, the future of Polymeric and Composites Materials and of related infrastructure will be based on high degree of automation – despite all associated cyber risks. Moreover, the blue efficiency paradigm will be based on increased role of IT and AI tools that will push the cyber risks even further. The paper will address the cyberspace constraints and corresponding solutions applied to Polymeric and Composites Materials paradigm.

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The role of pure fluidic devices in machine tool applications

Production Engineer ◽

10.1049/tpe.1969.0020 ◽

1969 ◽

Vol 48 (4) ◽

pp. 169

Author(s):

K. Foster ◽

G.A. Parker

Keyword(s):

Machine Tool ◽

Fluidic Devices

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Cyber-Physical Systems, Internet of Things, and Big Data in Industry 4.0: Digital Manufacturing Technologies, Business Process Optimization, and Sustainable Organizational Performance

Economics Management and Financial Markets ◽

10.22381/emfm14320193 ◽

2019 ◽

Vol 14 (3) ◽

pp. 23

Keyword(s):

Big Data ◽

Internet Of Things ◽

Organizational Performance ◽

Process Optimization ◽

Industry 4.0 ◽

Cyber Physical Systems ◽

Digital Manufacturing ◽

Physical Systems ◽

Manufacturing Technologies ◽

Business Process Optimization

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Industry 4.0 and big data: role of government in the advancement of enterprises in Italy and UAE

International Journal of Business Performance Management ◽

10.1504/ijbpm.2020.108317 ◽

2020 ◽

Vol 21 (3) ◽

pp. 261

Author(s):

Lucio Poma ◽

Haya Al Shawwa ◽

Elisabetta Maini

Keyword(s):

Big Data ◽

Industry 4.0 ◽

Role Of Government

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Regional industrial development in a dual-core industry space in China: The role of the missing service

Habitat International ◽

10.1016/j.habitatint.2019.102072 ◽

2019 ◽

Vol 94 ◽

pp. 102072

Author(s):

Chaoran Hu ◽

Yi Zhou ◽

Canfei He

Keyword(s):

Industrial Development ◽

Dual Core

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Emerging Industrial Revolution: Symbiosis of Industry 4.0 and Circular Economy: The Role of Universities

Science Technology and Society ◽

10.1177/0971721820912918 ◽

2020 ◽

Vol 25 (3) ◽

pp. 505-525 ◽

Cited By ~ 4

Author(s):

Seeram Ramakrishna ◽

Alfred Ngowi ◽

Henk De Jager ◽

Bankole O. Awuzie

Keyword(s):

Economic Growth ◽

Circular Economy ◽

Industry 4.0 ◽

Business Models ◽

Industrial Revolution ◽

New Technologies ◽

Production Systems ◽

Fourth Industrial Revolution ◽

New Jobs

Growing consumerism and population worldwide raises concerns about society’s sustainability aspirations. This has led to calls for concerted efforts to shift from the linear economy to a circular economy (CE), which are gaining momentum globally. CE approaches lead to a zero-waste scenario of economic growth and sustainable development. These approaches are based on semi-scientific and empirical concepts with technologies enabling 3Rs (reduce, reuse, recycle) and 6Rs (reuse, recycle, redesign, remanufacture, reduce, recover). Studies estimate that the transition to a CE would save the world in excess of a trillion dollars annually while creating new jobs, business opportunities and economic growth. The emerging industrial revolution will enhance the symbiotic pursuit of new technologies and CE to transform extant production systems and business models for sustainability. This article examines the trends, availability and readiness of fourth industrial revolution (4IR or industry 4.0) technologies (for example, Internet of Things [IoT], artificial intelligence [AI] and nanotechnology) to support and promote CE transitions within the higher education institutional context. Furthermore, it elucidates the role of universities as living laboratories for experimenting the utility of industry 4.0 technologies in driving the shift towards CE futures. The article concludes that universities should play a pivotal role in engendering CE transitions.

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The Role of Industry 4.0 and BPMN in the Arise of Condition-Based and Predictive Maintenance: A Case Study in the Automotive Industry

Applied Sciences ◽

10.3390/app11083438 ◽

2021 ◽

Vol 11 (8) ◽

pp. 3438

Author(s):

Jorge Fernandes ◽

João Reis ◽

Nuno Melão ◽

Leonor Teixeira ◽

Marlene Amorim

Keyword(s):

Business Process ◽

Automotive Industry ◽

Industry 4.0 ◽

Process Model ◽

Business Process Management ◽

Process Management ◽

Predictive Maintenance ◽

The Evolution Of Industry

This article addresses the evolution of Industry 4.0 (I4.0) in the automotive industry, exploring its contribution to a shift in the maintenance paradigm. To this end, we firstly present the concepts of predictive maintenance (PdM), condition-based maintenance (CBM), and their applications to increase awareness of why and how these concepts are revolutionizing the automotive industry. Then, we introduce the business process management (BPM) and business process model and notation (BPMN) methodologies, as well as their relationship with maintenance. Finally, we present the case study of the Renault Cacia, which is developing and implementing the concepts mentioned above.

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