Faculty of Mechanical Engineering
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Item type:Publication, E. Doncheva, M.Petreski, A.Krstevska N.Avramov, J.Djokikj, “Sustainability assessment of welding processes: a review “, IIW 2022 International Conference on Welding and Joining - Innovative Welding and Joining Technologies to achieve Carbon Neutrality and promote Sustainable Development, (21-23.07.2022), Tokyo, Japan, Program | IIW2022.(The International Institute of Welding (IIW), 2022-07-21); ; Over the past several years, sustainability has become an important performance metric in industry and a significant driver for the development of innovative concepts and technologies, taking into account economic, social and environmental aspects. Welding is one of the major techniques used in manufacturing industries that requires a large amount of energy and resources and also it is considered dangerous to health and the environment. Energy-saving and constraints in carbon emissions have become a priority in the manufacturing sector therefore, the minimum energy-oriented sustainable welding processes are highly recommended. This paper aims to provide a structured overview of the wide field of research in sustainable production with a focus on the sustainability assessment of welding processes. It describes and outlines the available methodologies used and explores the most recent advances in the field. Based on a broad literature review, research gaps are identified and the scope of future work is discussed. Furthermore, this paper contributes to the advancement of current practices in measuring and assessing the sustainability of welding processes. - Some of the metrics are blocked by yourconsent settings
Item type:Publication, A review of nanoparticle effects on aluminum alloys and weldability(ACADEMY OF SCIENCES AND ARTS OF THE REPUBLIC OF SRPSKA, 2022-09-08); Petreski, MartinThe ongoing trend for reducing energy consumption and emissions has led scientists to investigate new methodologies for improving lightweight materials in order to make them more qualified for different types of struc tural engineering applications The most common lightweight materials used in structural assembly are high-strength aluminum alloys that show certain difficulties when welded and require special techniques for achieving homog enous crack-free welded joints. Nanoparticle reinforcement of aluminum al loys is a promising methodology for phase-controlling solidification of welded joints. The microstructure and properties of these welds are determined by the nanoparticles introduced and the welding parameters used during the welding process. The aim of this paper is to go over recent publications on nanoparti cle reinforcements of aluminum alloys and their use in welding production. It summarizes the effect of different nanoparticle reinforcements on grains and properties of welded joints and discusses further development and application of hybrid nanostructured aluminum alloys. - Some of the metrics are blocked by yourconsent settings
Item type:Publication, Design for Sustainability: A Review(Scientific technical Union of Mechanical Engineering, 2023); Sustainability is topic of great concern since the last decade and still today does not lose of its popularity. Reason for that is that the contemporary way of living is causing great damages to the environment. Designers have been talking about changing the ways in which the products are designed in order to have sustainable product. But, for achieving sustainability many aspects need to be addressed, such as: cultural, social, economical and technological. Nowadays, we believe that these aspects are on higher level and we can talk about sustainable design. Every product development process starts with the design phase and this is why we believe that it is most important for making improvements of the products. In this paper we have the premise that good and appropriate design can have positive influence on the sustainability. In order to check the validity of the premise we are reviewing paper dealing with sustainability, eco design, and engineering materials - Some of the metrics are blocked by yourconsent settings
Item type:Publication, Sustainability and application of life cycle assessment in welded structures(SCIENTIFIC TECHNICAL UNION OF MECHANICAL ENGINEERING INDUSTRY-4.0, 2023-01-08); ; ; - Some of the metrics are blocked by yourconsent settings
Item type:Publication, Sustainability and application of life cycle assessment in welded structures(SCIENTIFIC TECHNICAL UNION OF MECHANICAL ENGINEERING INDUSTRY-4.0, 2023-11-08); ; ; - Some of the metrics are blocked by yourconsent settings
Item type:Publication, Solutions and Procedures for Repairing a Damaged Vertical Cylindrical Tank – Depositor(ELSEVIER B.V., 2023); - Some of the metrics are blocked by yourconsent settings
Item type:Publication, PROCEDURES OF WELDING METAL PRODUCTS WITH MIG/MAG ROBOT WELDING(Mechanical engineering scientific journal, 2023); This research paper describes robot welding programming and different approach of three appli-cations in manufacturing processes by welding. It gives an overview of robot manipulator and its main components. For the experimental work a 6-axis robot arm is used and three different welds are made. Detailing of programming for every example with or without synchronization with the positioner and the trajectory is discussed. The paper presents steps of software development for online programming of a robot arm with or without synchronization. - Some of the metrics are blocked by yourconsent settings
Item type:Publication, WIRE-ARC ADDITIVE MANUFACTURING: RECENT DEVELOPMENTS AND POTENTIAL(The Academy of Applied Technical Studies Belgrad, 2023-12-15); ; ; Wire-arc additive manufacturing (WAAM) is a promising technology for producing medium and large components without traditional subtracting technologies. It is a hybrid of two manufacturing techniques: additive manufacturing and welding. The use of this technology has grown significantly due to advantages such as material and energy savings while achieving high deposition rates and low cost. However, there are some issues with microstructure homogeneity, and properties are affected due to the complexity of the arc-induced thermal cycles and metallurgical mechanisms, resulting in high residual stresses, distortion, porosity, cracks, and delamination. This article summarises the progress made in the field of wire additive manufacturing, with a focus on welding systems, tool path design software, material analysis, and control systems. It also highlights some critical aspects that must be addressed to ensure high-quality production, such as control and diagnosis mechanisms for defect monitoring, the effects of parameters and their optimisation possibilities for improving quality, ensuring process stability, and possible post-deposition heat treatments. The conclusions suggest further improvements to the wire-additive manufacturing process in terms of accuracy, reliability, and efficacy, as well as future applications of the technology and research activities. - Some of the metrics are blocked by yourconsent settings
Item type:Publication, Sustainability and environmental life cycle analysis of welding processes(International Journal of Structural Integrity, Emerald Publishing Limited, 2024-07-29)