International Conference on

Advanced Materials for Additive Manufacturing

Theme: Innovations in Advanced Materials for Next-Generation Additive Manufacturing

June 2-3, 2025 | Tokyo, Japan 

Innovation-Driven Research

Scientific Sessions/Topics


Please provide a concise overview of your proposed talk, presentation, symposium, or workshop that aligns with your session interest, including key themes and objectives.

Metal additive manufacturing materials are specially designed materials that achieve the production of complex metal parts and components in 3D printing processes. Generally, they consist of a wide range of alloys, including stainless steel, titanium, aluminum, and nickel-based superalloys chosen to have unique mechanical properties, corrosion resistivity, and thermal stability.

The additive manufacturing materials used must be compatible with those applied in Selective Laser Melting (SLM), Electron Beam Melting (EBM), or similar technologies that build complex geometries with layer upon layer of metal powders. These characteristics include a high strength-to-weight ratio, light structures easy to produce, and minimal waste. As industries as varied as aerospace and healthcare increasingly employ metal additive manufacturing, needs for more advanced materials will drive further acceleration of the development of composition and processing techniques that will improve performance and expand application versatility.

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These are flexible materials used in the additive manufacturing of polymers in the 3D printing process for making varied parts and products. There are materials within this category that are classified, but have their unique properties leading to varied applications. Some of the most common are PLA, ABS, PETG, Nylon, and TPU since for their strength, flexibility, durability, and relatively easy processing. These can print designs with very high accuracy and can create pretty intricate designs and geometries, so they are suitable for parts used for prototyping, tooling, and end-use parts.

A major advantage to polymer additive manufacturing materials is that they are lightweight, and when combined with their ability to be easily modified and customized, this opens up opportunities that relate to a wide range of applications-from consumer products and aerospace to healthcare and automotive. As material science continues to develop, the types of polymers available are expanding, improving performance, and pushing their applicability in new ways.

Advanced materials are designed in additive manufacturing to have functional and smart, properties since their nature allows for transformation under outer stimuli, which is capable of responding to distinctive tasks beyond the classic structural functions. These materials may have properties such as self-healing, shape memory, or responsiveness to temperature, light or electric fields. Another common element in additive manufacturing processes like 3D printing is the integration of functional materials, which enables making parts that have a sense or act or respond to their surroundings. Some examples are conductive polymers as electronic materials, biomaterials for medical implants, and phase-change materials for thermal management purposes. Smart materials can be applied to creating very personalized and innovative products within various spheres.

For instance, in the medical area, implants are printed with 3D technology; they can administer drugs if they are framed according to human body conditions. In aeronautics, lightweight structures can be designed according to required conditions to change their form of action with aerodynamic purposes. The potential of functional and smart materials for additive manufacturing will continue to build on with the pace of research and development in this field, leading to breakthroughs in design, efficiency, and performance in numerous applications.

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Advanced materials are designed in additive manufacturing to have functional and smart, properties since their nature allows for transformation under outer stimuli, which is capable of responding to distinctive tasks beyond the classic structural functions. These materials may have properties such as self-healing, shape memory, or responsiveness to temperature, light or electric fields. Another common element in additive manufacturing processes like 3D printing is the integration of functional materials, which enables making parts that have a sense or act or respond to their surroundings. Some examples are conductive polymers as electronic materials, biomaterials for medical implants, and phase-change materials for thermal management purposes. Smart materials can be applied to creating very personalized and innovative products within various spheres.

For instance, in the medical area, implants are printed with 3D technology; they can administer drugs if they are framed according to human body conditions. In aeronautics, lightweight structures can be designed according to required conditions to change their form of action with aerodynamic purposes. The potential of functional and smart materials for additive manufacturing will continue to build on with the pace of research and development in this field, leading to breakthroughs in design, efficiency, and performance in numerous applications.

session addresses the ways CAE impacts modern design and manufacturing in terms of efficiency and accuracy in engineering analysis with CAE tools. Students learn how CAE can be applied in industry across initial designs into full production and testing phases. These key topics include the principles and methodologies behind CAE, such as finite element analysis (FEA), computational fluid dynamics (CFD), and multibody dynamics (MBD). Attendees will learn how these tools enable engineers to simulate real-world conditions, predict performance, and optimize designs before actual physical prototypes exist. Integration with other technologies-the use of CAD and additive manufacturing-will also be discussed.

Typically this indicates how this synergy works in simplifying the design process and how interactions between different engineering teams are eased. Participants will discuss the benefits of using CAE for material selection, structural integrity assessment, and thermal analysis. The workshop will provide case studies and real-life examples of the struggle and progress of CAE technologies, up to the application of machine learning and AI for enhanced predictivity. Be with us to find out how CAE drives innovation and improves outcome in engineering design for more effective and efficient product development.  

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In this session, the advancements and applications of metals and alloys are covered within AM-a technology that promises to revolutionize the manufacturing landscape through the complexities and performance of high production parts. Participants explore how emerging metal AM technologies are the base of traditional manufacturing and opening new avenues for various industries. Major topics will include the different ways in which metals are additively manufactured, including DMLS, EBM, and Binder Jetting. Attendees will learn about the unique properties of metal powders: particle size

, distribution, flow characteristics influencing the print process. The session will detail benefits of metals made using AM, including weight reduction; design flexibility and complexity that could be produced by this technology that was impossible and difficult to achieve any other conventional means. Applications in aerospace, automotive, and medical devices where performance is critical will be discussed among the participants. Recent research will be used to provide a comprehensive overview of the new developments in metal additive manufacturing, including new alloys and composite materials. Join us to find out how metal AM is going to drive innovation into product performance and alter the nature of manufacturing forever.

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The session will explore how new technologies in 3D printing and bio-printing are transforming medical fields-from patient care and surgical planning to tissue engineering. Participants will learn about their potential to revolutionize treatment with personalized, innovative approaches in various medical applications. The topics will include the use of development of the patient-specific anatomical model within preoperative planning and surgical simulations- further accuracy and better results of surgery with complex procedures. The presentations will also be directed towards 3D printing and its use in the manufacture of customized implants and prosthetics specifically tailored for certain patients to achieve higher comfort and functionality. Topics of the session will include the excitement of bio-printing: the printing of living cells to create tissue constructs and organoids for regenerative medicine, followed by discussion of the problems and state-of-the-art developments in respect to the technologies of bio-printing-scaffold design, biocompatibility, vascularization. Explore research and clinical trials expanding what is possible through 3D printing and bio-printing in healthcare through case studies and real-world application

. Attend to learn about how these technologies shape the future of medicine, drive innovation, and enhance patient outcomes with personalized and advanced medical solutions.

solutions and treatments in medical applications. Of course, this summit will also provide important topics such as patient-specific anatomical models for surgical simulations and preoperative planning, which, of course, represent preciseness and outcome success in complex procedures. Participants will also be updated on the latest 3D printing techniques in creating personalized implants and prosthetics for patients, thus enhancing comfort and functionality. The session will also include one of the most interesting applications-related topics: bio-printing where living cells are printed in an orderly manner to create tissue constructs and organoids used for regenerative medicine. Participants will be able to explore recent challenges and advancement of bio-printing technologies,

including scaffold design, biocompatibility, and vascularization necessary for the development of functional tissues. By case studies and real-world applications, participants will gain insight into current research and ongoing clinical trials that will change the landscape of possibilities concerning 3D printing and bio-printing in the healthcare sector. Join us to discover how these technologies shape the future of medicine, drive innovation, and enhance patient outcomes through personalized and advanced medical solutions.

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This session will explore the principles and best practices of DfAM, a prime methodology in optimizing particular product designs for existing 3D printing technologies. Participants will learn how strong DfAM can improve performance, cut costs, and streamline production processes in many industries. Important topics will include the basics of what drives the approach to design as either more conventional or designed more for additive manufacturing, which will highlight how geometric complexity, support structures, and material properties play into decisions in design. Participants will also hear about strategies that take advantage of the capabilities of additive manufacturing to create intricate lattice structures, reduce weight in complex assemblies, and introduce features not feasible by any other means of manufacture

. The session emphasizes the benefits of design iteration and prototyping which can be tried out quickly and perfected for incorporation into the product. The session will further explore the DfAM tools and software, exploring their applications and giving case studies in sectors like aerospace, automotive, and consumer products that have successfully utilized the said techniques. This will be developed through engaging discussions and practical examples, allowing attendees to understand how design should be approached with an additive mindset that leads to innovation and maximizes the benefits of 3D printing. Join us and discover how Design for Additive Manufacturing is shaping product development futures and transforming traditional manufacturing paradigms.

Electromechanical and robotics systems combine mechanical engineering, electronics, and computer science to give machined automated solutions that can be utilized for accomplishing complex types of work. Electro-mechanical systems integrate sensors, actuators, controllers, and software, allowing interaction between machines with their environment to execute the precise and efficient functions for whatever that is required. Electromechanical systems typically contain components that include motors and gears, converting electrical energy into physical motion. This allows for industrial uses like automated assembly lines, conveyor systems, or other robotic arms in manufacturing processes. Electronic control systems enhance the capabilities while keeping them trackable in real-time and controllable in performance. Robotic systems don’t end there.

They utilize advanced technologies, like artificial intelligence and machine learning, for flexibility in adapting to changing conditions, learning from what has been experienced, and executing a wide range of tasks-from simple pick-and-place operations to much more complex procedures, such as surgery, agriculture, and logistics.

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VENUE


Tokyo, Japan, is a dynamic global metropolis that serves as the country’s political, economic, and cultural heart. It stands as one of the world’s most populous cities and is renowned for its cutting-edge technology, efficient public transportation, and iconic skyline dominated by skyscrapers.  

Tokyo seamlessly blends centuries-old traditions with modern advancements, offering visitors a rich tapestry of experiences. From serene Shinto shrines and historic temples to bustling markets and trendy neighborhoods, Tokyo showcases Japan’s blend of ancient heritage and contemporary lifestyles. Its vibrant culinary scene ranges from Michelin-starred restaurants to casual izakayas (Japanese pubs), while its diverse entertainment options encompass traditional kabuki theater, sumo wrestling, and futuristic digital art exhibitions. 

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    FAQ's

    Payment for 3D Printing & Additive Manufacturing conference can only be made by credit card or debit card online. All you have to do is visit the official website of 3D Printing & Additive Manufacturing conference then click on Register Now to do the payment.

    Additive manufacturing, commonly known as 3D printing, is a process of creating three-dimensional objects by adding material layer by layer based on digital models. This innovative manufacturing technique allows for complex designs, customization, and rapid prototyping, revolutionizing how products are designed and produced across various industries.

    An Advanced Materials Conference focuses on the latest developments and innovations in materials science and engineering, specifically related to advanced and high-performance materials. This type of conference explores how these materials can enhance additive manufacturing processes, enabling next-generation applications and technological advancements.

    The International Conference on Advanced Materials for Additive Manufacturing is ideal for researchers, engineers, material scientists, and industry professionals involved in additive manufacturing and materials science. Attendees of this Advanced Materials Conference will benefit from insights into cutting-edge materials and technologies that are shaping the future of additive manufacturing event.

    Attending the conference provides numerous benefits, including exposure to the latest innovations in advanced materials that are driving the next generation of additive manufacturing. As one of the key Additive Manufacturing Event, it offers valuable networking opportunities with leading experts, access to groundbreaking research, and practical knowledge on applying advanced materials to enhance manufacturing processes.