Additive Manufacturing is the peer-reviewed journal that provides academia and world-leading industry with high quality research papers and reviews in
This work provides materials design principles for a novel charge-programmed additive manufacturing technique, which enabled 3D patterned
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.
Production Equipment and Digital Solutions for the Additive Age.
Additive manufacturing of conductive layers on a dielectric substrate has garnered significant interest due to its promise to produce printed electronics efficiently and its capability to print on
Additive electronics manufacturing continued to develop at a slower pace, making progress in a few niche markets—solar panels, blood glucose strips, and Duracell''s printed battery tester—but
Additive manufacturing techniques have by far been utilised to make 3D passive components (i.e. resistors, inductors, and capacitors), circuit boards and packages of power electronic devices. This
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
Particularly, it has shown the unique ability to make embedded electronics, 3D structural electronics, conformal electronics, stretchable electronics, etc. 3D
This work proposes a facile and economical hybrid additive manufacturing (HAM)technology combining fused deposition modeling (FDM) 3D printing and laser
There is high interest in the synergism of thin-film and flexible electronics with additive manufacturing. This review primarily focuses on the prospective developments in convergence with flexible electronics manufacturing technologies. Specifically, this paper covers
9 Body-temperature softening electronic ink for additive manufacturing of transformative bioelectronics via direct writing Back To Vol. 10, No. 9 Open access Research Article PHYSICAL SCIENCES Share on
Fully 3D printed electronics, also known as additively manufactured electronics (AME), refers to the electronics devices completely fabricated by
The Role of Conductive Inks in Additive Electronics Manufacturing. In a future characterized by flexibility, stretchability, sustainability, and affordability, conductive inks serve as tools to foster electronics innovation. In this blog, we will explore the role of conductive inks in today''s printed electronics landscape.
3D Printing and Additive Manufacturing of Electronics: Principles and Applications provides a comprehensive overview of the recent progress and
Hongzhong Liu 1. 1. State Key Laboratory for Manufacturing System Engineering, Xi''an Jiao Tong University, Xi''an 710049, China. 2. Qingdao Engineering Re-search Center for 3D Printing, Qingdao University of Technology, Qingdao 266033, China. 3. Nanomanufacturing and Nano-Optoelectronics Lab, Qingdao University of
In recent years, the industries and researchers have demonstrated a strong interest in 3D (3-dimensional) printed electronics due to their tremendous potentials to deliver unique features not attainable by traditional manufacturing methods. This latest technology is potentially revolutionary, and the upcoming research trend is inclining
Additive manufacturing (AM) has been adopted as one of the most versatile and rapid design-to-manufacturing approaches for printing a wide range of two- and three-dimensional parts, devices, and complex geometries layer
In recent years, 3D electronics printing has been emerging as a technology capable of harnessing the potentials of additive manufacturing in fabricating electronics and structural electronics. Electronics fabricated by additive manufacturing techniques, i.e. those involve materials deposition processes, are normally termed as "3D printed
Shaping the future in Electronics & Additive Manufacturing. Since early 2016, ioTech has been developing a unique disruptive multi-material additive manufacturing technology that can process almost any industry
There is high interest in the synergism of thin-film and flexible electronics with additive manufacturing. This review primarily focuses on the prospective
Charge-programmed 3D printing enables the fabrication of 3D electronics with lightweight and high precision via selective patterning of metals. This selective metal deposition is catalyzed by Pd nanoparticles that are specifically immobilized onto the charged surface and promises to fabricate a myriad of complex electronic devices with
In the context of electronics fabrication, applications of additive manufacturing are commonly referred to as printed electronics (PE). With a global market of $31.7 billion in 2018 and forecast for doubling to
Proceedings of the 17th Sound and Music Computing Conference, T orino, June 24th – 26th 2020. 102. Embedding Electronics in Additive Manufacturing f or Digital Musical. Instrument Design. Doga
This paper introduces an advanced liquid-cooled thermal management solution for power electronics. Utilizing a novel 3-D metal printing technology called electrochemical additive manufacturing (ECAM), copper cooling structures are printed directly onto the ceramic substrate of the component, thereby eliminating thermal interface materials and
We''ve pioneered additive manufacturing of electronics with our DragonFly platform, so if you don''t find what you''re looking for, please reach out. We''d love to help you build a case for investing in a DragonFly Pro precision additive manufacturing system, and add your company to our use case list.
Additive Electronics – Next Generation PCB Capabilities. Exciting news! This column marks the launch of a series of columns diving into semi-additive PCB (SAP) manufacturing processes. We will explore topics ranging from SWaP (space, weight, and packaging) benefits, signal integrity benefits, materials characterization, reliability
Additive Manufacturing of Electronic Systems (AMES) AM is being utilized to demonstrate high functional density systems by integrating different device technologies within a single unit through a continuous build-up process. The process includes integrating active and passive elements, signal and power distribution, optics, MEMS, and thermal
Moreover, the electronics industry can truly benefit from additive manufacturing. No stock, no minimum number of units and short turnaround are the key upsides of using Sculpteo''s 3D printing service for your electronic devices, regardless of where they are in product life cycle management.
Originality/value. This paper presents an improved multifunctional additive manufacturing method to produce fully packaged multilayer electronic systems. It discusses the development of new 3D printed, through layer z -axis connections and the use of a single electrically conductive adhesive material to produce all conductors.
Additive Manufacturing Letters is a highly selective peer-reviewed journal focused on rapid time-to-first-decision for short-format manuscripts describing early stage, emerging and/or ground-breaking research in the field of additive manufacturing. The preferred length of manuscripts is 5000 words . View full aims & scope.