The Additive Manufacturing Research Group offers a unique opportunity for UK & EU residents to undertake fully funded PhD studentships in the internationally recognised Wolfson School of Mechanical & Manufacturing Engineering, Loughborough University, UK. These studentships are available across a broad range of
Our research group explores the development of additive manufacturing processes and new application areas for the technologies to benefit industry and the wider society. About us We work on cross-disciplinary projects covering communication, electronics, prosthetics, design, biomaterials, aerospace, energy and
Smart Materials (embedded sensors, eSHM, SHM, UM, ) Main projects overview. Hi-PAS. 01/01/2019 – 31/12/2022. High-Precision Hybrid Laser-based Additive & Subtractive Manufacturing. Within this project we will explore the capabilities of a beyond state-of-the-art hybrid laser-based additive and subtractive manufacturing platform.
Welcome to the Moridi Research Group at Cornell, a.k.a. the Laboratory for Advanced Materials and Manufacturing! At LAMM, we exploit the intrinsic properties (i.e. rapid solidification, melt pool dynamic, intrinsic heat treatment) as well as the flexibility of additive manufacturing (i.e. local or site specific metallurgy and incorporation of
Welcome to Swiss MAM The Medical Additive Manufacturing research group (Swiss MAM) is located at the Department of Biomedical Engineering (DBE) of the University of Basel.We develop innovative
Research Group: Laboratory for Extreme Mechanics & Additive Manufacturing Research Areas Our group uses novel experimental, analytical, and computational tools to explore materials with extreme properties or under extreme conditions, particularly for
Additive manufacturing and sustainability The Additive Manufacturing and 4D Printing Research group conducts research on novel use of materials, design guidelines and the societal impact of using 3D Printing. This is a self-funded topic and the objective of this PhD research study is to develop a framework that can assess how good practice and
Multiscale Modeling for Additive Manufacturing. Advanced manufacturing techniques like selective laser melting (SLM) and directed energy deposition (DED) have the potential to
Laser processing is a general term for manufacturing of different products out of different material using laser beam. In addition to manufacturing research is done on other methods using laser beam. In general, laser processing is an efficient and sustainable method that is utilized e.g. joining, cutting and drilling of metals and non-metallic
Abstract. This review discusses the cell structure induced by additive manufacturing (AM) with a focus on stainless steel 316L and maraging steel 18Ni-300
Additive Manufacturing. Additive Manufacturing (AM) creates three-dimensional (3D) objects by stepwise layer-by-layer building approaches which are controlled by a digital model. As a novel production technology for the design and manufacturing of high-performance components, the use of AM is increasing at a fast rate in wide ranging
Sheet lamination processes include ultrasonic additive manufacturing (UAM) and laminated object manufacturing (LOM). The Ultrasonic Additive Manufacturing process uses sheets or ribbons of
In today''s era, additive manufacturing (AM) is attracting unparalleled attention across the globe. From initial obscurity, today there is practically no sphere of life untouched by this technology. The quantum of research in this field has witnessed overwhelming growth which in turn leads to impressive newer developments at almost
Research in the Additive Manufacturing area is making fundamental advances in processes that offer multi-material, multifunctional, and multiresolution
5 · Additive manufacturing (AM), commonly known as 3D printing, has garnered significant attention across various industries for its flexibility and simplicity in fabrication.
In this review article, we summarize the current status of cutting-edge additive manufacturing technologies and their applications in the fields of nuclear
Capabilities and facilities. Metal 3D Printers: Concept Laser Mlab cusing 200 R and ProX DMP 300. Mechanical properties testing facilities, including in situ testing, controlled temperatures and environments, micro-mechanical testing, fatigue and wear testing. High resolution microscopy and tomography, including Scanning electron microscope
The MIT Mechanosynthesis Group, led by Professor John Hart, aims to advance the science and technology of manufacturing, which is essential to the continued and sustainable growth of our world.Our focus areas
5 · Directed Energy Deposition (DED) covers a range of terminology: ''Laser engineered net shaping, directed light fabrication, direct metal deposition, 3D laser cladding'' It is a more complex printing process commonly used to repair or add additional material to existing components (Gibson et al., 2010). A typical DED machine consists of a
We have comprehensive additive manufacturing laboratories, supported by state-of-the-art testing and analysis facilities. Furthermore, a strategic theme of our current and future research activities focuses on exploring
The Laboratory for Extreme Mechanics & Additive Manufacturing (LEMAM), in the Department of Materials Science and Engineering (MSE) at the University of Toronto (U of T), aims to use novel experimental and analytical methods to explore new materials, particularly metallic materials, with extraordinary properties, covering many length and
KU Leuven is pioneering in Additive Manufacturing (AM) since 1990. Research on AM was initiated at the Mechanical Engineering Department of KU Leuven by Professor Jean-Pierre Kruth. Initially, research focused on the production of polymer parts for rapid prototyping purposes. This led to the foundation of '' Materialise '', the first spin
The Gu Research Group works at the intersection of mechanics, additive manufacturing, materials, and artificial intelligence. We aim to develop deep learning algorithms to
Furthermore, a strategic theme of our current and future research activities focuses on exploring the combination and integration of Additive Manufacturing with other emerging fields of science and
Additive Manufacturing (AM) @ ETH. At ETH, over 40 research groups are active in AM / 3D printing. To support community building, foster collaborations and coordinate joint activities in this broad area of research, additivETH is our platform for capacity build-up in AM. The interest in AM continues to rise among researchers and students at ETH
History Additive Manufacturing (AM) research was initiated at KU Leuven by Professor Jean-Pierre Kruth in 1990. Initially, research focused on the production of polymer parts for rapid prototyping purposes. This led to the foundation of ''Materialise'', the first spin-off company of the AM-group, which is known today as one of the key players in additive
KU Leuven has been involved in additive manufacturing research since 1990. While this research was multi-disciplinary from the start, over the years it became even more so. An increasing number of KU Leuven groups from different faculties, departments and locations are involved in AM material, machine, process and application
About Us. Advanced Manufacturing Technology Research Group aims to unveil scientific and technological state-of-the art in advanced manufacturing technologies via pursuing academic and industrial research projects. The group has currently almost twenty members including post-graduate and graduate students.
From 2010 to 2015 Daniel was a post doc at Imperial College London, University College London and University of Oxford carrying out research on a variety of projects ranging from nanofluidic filters for HIV detection to additive manufacturing at the nanoscale. In 2015 Daniel took up the position as Lecturer in 3D printing at
To address this mission, we have developed three related research themes that are the focus of our work in the group: 1. Bio-Inspired Design. 2. Architected Materials. 3. Additive Manufacturing. Navigate to our research themes, projects or publications to learn more. About Us 3DX Research is a group of undergraduate and graduate
Overview. Materials science is central to new advanced manufacturing methods that offer significant benefits over traditional manufacturing. Materials engineers develop innovative multi-material manufacturing approaches that can enable new products, automation, better energy efficiency and greater sustainability.
Additive manufacturing (AM) has its roots in a number of processes developed in the late 1980s (Levy et al., 2003). It has since been classified as a revolutionary set of processes for product development and
Read the latest articles of Additive Manufacturing at ScienceDirect , Elsevier''s leading platform of peer-reviewed scholarly literature.
Ray Research Group/Additive Manufacturing. Ray Research Group/Epidermal Microfluidics. Ray Research Group/Acoustic Assembly. Homepage of the Ray Research Group at the University of Hawaii at
Additive Manufacturing, Performance & Tribology Center Directors: Matthew Brake, C. Fred Higgs III The Additive Manufacturing, Performance & Tribology (AMPT) Center at Rice University is an industry-focused, multidisciplinary research unit that leverages the deep expertise of Rice engineering faculty to solve the fundamental problems facing
Additive Manufacturing. We''re working on rapid certification and new process development in additive manufacturing, particularly, the Directed Energy Deposition (DED) and laser powder bed fusion (PBF), aiming to
Everybody recognises the term 3D printing nowadays but what many people mean when talking about 3D printing is actually one of the several Additive Manufacturing (AM) processes. However, as 3D Printing is an important process in the AM family, → The 7 Processes, it will be used here to explain the basic steps in the AM
Additive manufacturing is the process of creating an object by building it one layer at a time. It is the opposite of subtractive manufacturing, in which an object is created by cutting away at a solid block of material until the final product is complete. Technically, additive manufacturing can refer to any process where a product is created
The Additive Manufacturing Network (AMN) will seek to coordinate research activities at Imperial College London. Providing strategic direction and a unified front for AM based research. Increasing external exposure and to act as a focal point for exchange of expertise and resources. Focusing external parties from academic, research labs