additive manufacturing papers

Freedom of design, mass customisation, waste minimisation and the ability to manufacture complex structures, as well as fast prototyping, are the main benefits of

Additive manufacturing (AM) satisfying demands with low cost and production time. In addition, defects are formed by sudden heating and cooling within

Several benefits can be gained by using additive Manufacturing (AM) or 3D printing, including design flexibility, mass customization, waste minimization, quickly

Additive Manufacturing is a method in which manufacturing of components is done through layer by layer deposition of material on a base or substrate

Additive manufacturing is a recent trend in production processes owing to its many benefits. It can be defined as the process of producing parts through the deposition of material in a layer-by-layer

2. Additive manufacturing (3D printing): A review of materials, methods, applications, and challenges by Tuan D. Ngo (2018) – This paper covers the main advantage of additive manufacturing in fast

The paper will also discuss viable solutions to the challenges encountered by AM, including material constraints, quality assurance issues, and concerns about intellectual property. 2. Additive manufacturing technology. Additive manufacturing, a fast-evolving manufacturing technique, has transformed the manufacturing sector.

This paper presents an umbrella review of the existing literature on additive manufacturing (AM) in healthcare. The aim of this study was to identify the key findings and gaps in the current state of knowledge on the role of AM in healthcare, the most promising applications of AM in the biomedical sector and the future of AM in healthcare.

Abstract: The last few decades have seen rapid growth in additive manufacturing (AM) technologies. AM has implemented a novel method of production in design, manufacture, and delivery to end-users

This comprehensive article examines the most recent advances and problems in additive manufacturing. The present paper provides a concise overview of the fundamental principles and methodologies of additive manufacturing. Subsequently, it delves into the latest advancements and cutting-edge technologies in this domain,

As a 0D material, powder particles can be used to create almost any complicated engineering component by utilizing the high-performance manufacturing capabilities of additive manufacturing (AM). Although powder-based AM methods provide an outstanding practical value and development for modern manufacturing world, they

The objective of this overview paper is to provide readers with a comprehensive understanding of additive manufacturing. The fundamental concepts

The advent of additive manufacturing technologies significantly encouraged the development and usage of lattice structures. This paper aims to experimentally investigate the influence of dimension

As a result of the 2013 National Science Foundation (NSF) Workshop on Frontiers of Additive Manufacturing Research and Education, this paper summarizes AM''s current state, future potential, gaps and needs, as well as recommendations for technology and research, university–industry collaboration and technology transfer, and education and

Additive manufacturing (AM) is also known by various commercial names (including but not limited to) Towards the conclusion, the paper is summarized with discussion on the future outlooks and summary. The focus of this review is to analyze the different aspects related to AM materials as presented in Fig. 1.

Additive Manufacturing methods have helped significantly in reducing the weight of the components. Various technologies have evolved since 1980 s for the effective and efficient deposition of materials which are explained in this paper. The manufactured components are then analysed for strength and mechanical properties.

Additive manufacturing methods1–4 using static and mobile robots are being developed for both on-site construction5–8 and off-site prefabrication9,10. Here we introduce a method of additive

2. Classification of additive manufacturing technologies. There are many AM processes commercially available today. Different researchers have classified AM techniques in different ways [3, 6, [50], [51], [52]].One of the common classifications is on the basis of ASTM-F42 committee guidelines according to which AM can be classified into

One of these novel techniques is additive manufacturing (AM) which is capable of developing objects in lesser time and complications in comparison with

Additive Manufacturing is the peer-reviewed journal that provides academia and world-leading industry with high quality research papers and reviews in additive manufacturing. The journal aims to acknowledge the innovative nature of additive manufacturing and its broad applications to outline the current and future developments in the field.

In recent years, Additive Manufacturing (AM), also called 3D printing, has been expanding into several industrial sectors due to the technology providing opportunities in terms of improved functionality, productivity, and competitiveness. While metal AM technologies have almost unlimited potential, and the range of applications has

Abstract: This paper provides an overview on the main additive manufacturing/3D printing technologies suitable for many satellite applications and, in particular, radio-frequency components. In fact, nowadays they have become capable of producing complex net-shaped or nearly net-shaped parts in materials that can be

Additive manufacturing (AM) is the industrial production name for 3D printing, a computer-controlled process that creates three dimensional objects by deposing materials, usually in layers. The improvement of the techniques of AM (decrease of deposition time and/or decrease of the cost of the solution) is leading to an increase of

Solid-state production of uniform metal powders for additive manufacturing by ultrasonic vibration machining. Yaoke Wang, Malachi Landis, Clement Ekaputra, Valeria Vita, Ping Guo. Article 103993. View PDF. Article preview.

Abstract. Additive manufacturing (AM) is the industrial production name for 3D printing, a computer-controlled process that creates three dimensional objects by

Abstract: Additive manufacturing is a recent trend in manufacturing processes due to its many advantages. It can be defined as the process of manufacturing parts by depositing materials layer by layer. It has been a subject of intense study and examination by many scholars. The development of additive manufacturing as a

Progress in Additive Manufacturing is a scientific journal focusing on original and significant research in established and emerging Additive Manufacturing processes

The additive manufacturing (AM) is rapidly developing technology and widely accepted by the manufacturing industries all over the world because of its capability to fabricate large size components with high deposition rate (Ref 1).According to the American Society for Testing and Materials (ASTM), AM is defined as "processes of

Additive manufacturing (AM) technology like 3-D printing allows the fabricationof nearly any shape or structure from digital 3D model data [1].The method involves printing alternating layers of various materials. Charles Hull developed stereolithography (SLA) in 1986; since then, other variants of this technology have

Robotic additive manufacturing system: development of suitable range of process parameters for 3D printing of a large-sized object in PLA polymer. Eduardo Costa Pulquerio. Gustavo Franco Barbosa. Sidney Bruce Shiki. Full Research Article 09 June 2024.