European Congress on
3D Printing & Additive Manufacturing

 Theme  :  Future innovations in 3D printing & Additive Manufacturing

  September 23-24, 2021

 Park Inn by Radisson Amsterdam Airport Schiphol, Amsterdam, Netherlands

 Conference Brochure  Abstract Submission  Organizing Committee  Conference Program

3D Printing-2021

3D Printing and Additive Manufacturing is the procedure of creating three dimensional solid substances from a digital file. The formation of a 3D printed object is attained using additive processes. In an additive procedure an object is shaped by laying down successive layers of material up to the object is created.

3D Printing allows easy fabrication of multifaceted shapes, many of which cannot be shaped by any other manufacturing method. The additive nature of the expertise means that geometric complication does not come at a higher price. So with this in mind, we Coalesce Research Group are going to organize a conference on our 3D Printing to make your research known to the world and public to know about 3D Printing.

We Coalesce Research Group providing an amazing chance to communicate with world-class scientists, Astronauts and experts at "European Congress on 3D Printing & Additive Manufacturing"  on September 23-24, 2021 at Amsterdam, Netherlands.

The 2-Day conference with the theme of “Future innovations in 3D Printing & Additive Manufacturing” will bring scientists, researchers and students together at 3D Printing and Additive Manufacturing Congress from all over the world.

Developments in 3D Printing & Additive Manufacturing Technology

3D Printing & Additive manufacturing is a process of making three dimensional solid objects by setting down consecutive layers of material from a digital file. It is also known as rapid prototyping. Outside quick and high-resolution fabrication, additive manufacturing poses amazing second-order insinuations. Promising decimated economic and environmental costs, 3D printing eliminates tremendous amounts of waste, as raw material requirements are reduced by as much as 90 percent.

3D Printing in Healthcare, Medicines & Life Sciences

3D Printing technology holds great potential in the field of drug delivery. Pharmaceuticals can be printed in custom-made doses for every single patient, with layering intended to provide immediate or sustained release of the medication to deliver a definite healing effect. 

3D Bio Printing

Three dimensional (3D) bio printing is the utilization of 3D Printing–like methods to combine cells, advance aspects, and biomaterials to produce biomedical parts that extremely imitate natural tissue characteristics. Presently, bio printing can be used to print tissues and organs to help research drugs and pills. 3D Bio printing is a method that has rapidly increased popularity for its capability to make extremely aligned tissues.

3D Image Processing and 3D Image Visualization

3D image processing is the visualization, dispensation, and study of 3D image data through geometric alterations, filtering, image separation, and other morphological operations. 3D image data can derive from a selection of devices and file arrangements. To efficiently import and visualize 3D images, it is significant to have access to the fundamental data and metadata for the images.

3D Printing & 4D Printing

4D Printing is a future form of additive built-up with effects that endure beyond the print. It is similar to 3D Printing in the sense that an object is also built layer by layer. However, the object can then change over time, after being built.

3D Printing in Tissue Engineering & Organ Printing

Tissue and Organ failure is due to by aging, illness, accidents, and birth defects. The extant treatment for these failures is replacement from a living Organ/Tissue Donor. Three-Dimensional Printing, or stereo lithography, is the way toward keeping resources in layers to shape 3D objects. Developments in this technology, together with biomaterials, will permit a patient's own cells to be used to build replacement tissues and organs for those in need. The ordinary process for bio printing 3D tissues and organs includes: Imaging, Design approach, Material/Cell determination, Printing, and Application. Imaging of the earth of the injured tissue is useful in the outline procedure, and includes the utilization of X-ray, CT scan, and MRI imaging. Minitissues are the smallest auxiliary and functional components of a tissue, similar to a kidney nephron.

3D Printing Industries

The origin of 3D Printing in 'Rapid Prototyping' were recognized on the principles of Industrial prototyping as a technique for fast-tracking the earliest stages of product development with a rapid and clear process for creating models that permits for multiple repetitions of product to reach more quickly and effectively at an optimum solution. This saves time and cash at the beginning of the whole product enhancement process and guarantees certainty in front of production tooling.

3D Printing Materials

An extensive range of materials can be used for 3D Printing, for example, ABS plastic, PLA, polyamide (nylon), glass filled polyamide, silver, titanium, steel, wax, photopolymers and polycarbonate. The materials available for 3D printing have proceeded significantly since the beginning of the invention. There is currently an extensive variety of various material types, which are provided in various states.

3D Printing of Supply Chain Management

3D Printing means a significantly simplified, extremely reactive, and infinitely flexible supply chain fulfills the order. In the forthcoming years the supply chain, the customer places the order first, and then a local, extremely automated 3D printing shop produces the finished product and then carries it, often via drones.

3D Printing Technology & 3D Printing Market

The market has been divided on the basis of printer, material form, material shape, process, technology, software, service, application, vertical, and geology. 3D printing is presently used to make difficult parts, models (quick prototyping), and little arrangement fragments. Rationalization of conception work process through computerized generation operations, powder taking care of and reusing abilities, and mobile production controls is filling the attention for industrial printers.

3D Printing in Manufacturing

3D Printing or additive manufacturing has the concentration of some solid talks in the manufacturing industry in the most recent couple of years. While the idea of 3D printing has been around for some time, new progressions in the innovation have begun to bring down the cost of the procedure to levels that make it more possible for common manufacturing use. The procedure of developing particular apparatus to gather an article layer by layer has some one of a kind and captivating points of attention over old-style manufacturing.

B2B and B2C Partnering and Collaborations

3D Printing 2020 is the best stage to meet B2B partners face to face and share their views. There is a great growth in the field of 3D print arena and massive demand for sellers and buyers of technology and devices. The conference will create a platform to gather all the scientists, researchers and all related personalities from all over the world to validate and exchange their innovations and ideas.

Challenges in 3D Printing

The major challenges of 3d printing we’ve heard over the years and all over the industry including Equipment costs, Limited materials available, Post-processing necessities, Manufacturing costs, Lack of in-house additive manufacturing resources, Lack of expertise and/or training among workforce/employees, Narrow repeatability (correctness from build to build), Lack of formal values, Lack of proven certification of additive manufacturing’s capabilities, Software development, Data storage requirements and others.

Innovations in 3D Printing & Designs in 3D Printing

3D Printing technology is relentlessly evolving and positively has a considerable measure in its pocket for the future. The level of customization that the expertise offers opens up the door for its application in numerous enterprises, permitting it to take care of a considerable measure of issues. This review will intemperance you with a look at work in improvement in the 3D Printing Industry. Designing for 3D printing cannot be the same when compared to designing of other purposes. Something that looks outstanding in your CAD program could be hard to print which makes a frustrating experience for any Manufacturer. So, there are some important design guidelines to generate an easily printable object.

Lasers in 3D Printing in Manufacturing Industry

Subsequently, a laser is used to scan the powder layers, sintering together with the particles thus making the first 3D layer of an article. The laser scanning procedure produces present and adjoining layers simultaneously, thus crafting the solid part. 

Metal 3D Printing

Metal 3D printing also known as Metal Additive Manufacturing (AM) and Direct Metal Laser Sintering (DMLS) is the process by which portions are fabricated by a laser combining together high performance metals, layer by layer. Metal printing methods like powder bed fusion, metal binder jetting, and directed energy deposition advanced at a volatile pace. There are several varieties of metal 3D printing that each have their own specific benefits.

Polymers in 3D Printing

Polymers are macromolecules made of many rehashing subunits called monomers. These monomers are synchronized by covalent bonds where atoms share electrons being a strong union. The procedure to transport a polymer is known as polymerization reaction. Thermoplastic polymers are actually significant in Additive Manufacturing. Thermoplastics are polymers which reduce when they are warmed and harden as they cool. These polymers are used for plastic 3D prints, importantly Selective Laser Sintering (SLS). There are a few prominent thermoplastics that can be used with this procedure, carrying a variety of results depending on their base properties.

3D Printing Future Technology

3D Printing, or preservative manufacturing, has the potential to democratize the fabrication of goods, from food to medical supplies. In the future, 3D printing machineries could make their way into homes, businesses, disaster sites, and even outer space. The ultramodern buildings excess less cement, cutting expenses and assets. In the future, home printers will integrate substructure together with drainage pipes and even possibly smart sensors, rendering a fully integrated living experience.

Nano 3D Printing

Nanotechnology is the handling of material with at least one dimension sized from 1 to 100 nanometers. Nanotechnology has a lot in mutual with the additive manufacturing technology. At least, these two technologies are starting to revolutionize a lot of different divisions, from the medical industry, to chemistry or consumer products. The nanotechnology and 3D micro printing can totally be0020joined to create new impressive projects.

Clinical applications of 3D printing in Orthopedics and Traumatology

It has been positively used in various fields nevertheless it is relatively newer to Medicine and Orthopedic Surgery. Growth of metallic implants and modified prostheses is eventually the most significant and most treasured way, when relating the 3D printing in the arena of orthopedics. This is determined by the resources, apparatus, and manufacturing abilities obtainable for 3D printing.

Speaker guidelines

For Speakers:

       • Keep the number of slides in your Presentation to a minimum and follow the assigned slots.
       • Please stop when signaled to do so by the Chair.
       • Personal laptops should not be used unless in any unavoidable conditions.
       • The Videos will not be recorded.
       • Question Sessions, thanks and acknowledgement of the speakers will take place during the session or after completion of the session, so please stay until the end of the session.

For Poster

        • Each poster should be approximately 1x1 M in Size The title, contents, text and the author’s information should be clearly visible even from 1-2 feet.
        • Present numerical data in the form of graphs, rather than tables.
        • If data must be presented in table-form, keep it Simple to be easily understandable.
        • Visuals should be simple, clear and bold. Avoid acronyms and mathematical notations as much as possible.
        • Posters with 800-1000 words or less are perfect.
        • Avoid submitting compactly packed, highly worded- count posters.
        • Categorize your poster into subdivisions, e.g., Introduction, Methods, Results; Discussion, Conclusions, and Literature Cited.
        • Use bright colors to enhance the better visibility Besides your project, you can also include future research plans or questions

Opportunities for Conference Attendees:

For Researchers & Faculty:

         • Speaker Presentations
         • Poster Display
         • Symposium hosting
         • Workshop organizing

For Universities, Associations & Societies:

         • Association Partnering
         • Collaboration proposals
         • Academic Partnering
         • Group Participation

For Students & Research Scholars:

         • Poster Presentation Competition (Winner will get Best Poster Award)
         • Young Researcher Forum (Award to the best presenter)
         • Student Attendee
         • Group Registrations

For Business Speakers:

         • Speaker Presentations
         • Symposium hosting
         • Book Launch event
         • Networking opportunities
         • Audience participation

For Companies:

         • Exhibitor and Vendor Booths
         • Sponsorships opportunities
         • Product launch
         • Workshop organizing
         • Scientific Partnering
         • Marketing and Networking with clients

Abstract Peer-review Process/Guidelines:

         • The Reviewing Committee of 3D Printing Conferences ensures high-quality peer review process for all abstracts submitted to the conference.
         • The decision of abstract acceptance will be judged by a panel of experts emphasizing whether the findings and / or conclusions are novel and make useful contributions to the field.
         • The committee operates a single / double-blind peer review process for all the abstracts submitted, where both the reviewer and the author remain anonymous.

The following are the steps that each abstract of 3D Printing Conferences undergoes during the process of peer review:

         • All submitted abstracts are reviewed by internal editorial team to ensure adherence to the conference scope and abstracts which have passed this initial screening are then assigned to the session chair / review committee for evaluation.
         • Once the reviews have been received, the review committee decides to accept or reject a manuscript, or to request revisions from the author in response to the reviewers’ comments. If the decision tends to be minor revision or major revision, authors will be given 14 days to resubmit the revised abstract.

Criteria to be considered for Scoring:

The abstract should be reviewed according to the following criteria:

         • Originality of concept/approach and level of innovativeness
         • Significance/impact/relevance to conference theme
         • Quality of research design/theoretical argument
         • Conclusions and interpretations of results
         • Presentation style: Coherence and clarity of structure

Why Choose Us?

• Presenting Your Organization’s Work on a Global Platform
• Discuss and Overwhelmed Issues in your Arena by Expert Advice
• Chairing/ Co-chairing a Session
• Meeting the new People from 22+ Different Countries
• Increasing your Scope of Knowledge Competitive Advantage
• Opportunity to Collaborate and Sponsor



As a speaker you will be presenting to a room full of senior representatives from all over the world, each providing a different perspective from the sector. Your organization’s expertise and knowledge will be showcased to key players in the field of 3D Printing & Additive Manufacturing and will be a unique platform to increase your reputation within the sector. 


Each time will be held at a different place, new and different people will attend. This can enlarge building collaborations and help you in developing new relationships.


As a speaker you will be facilitated with free access to two days of the symposium and related workshops and will be given the prospect to hear from other senior researchers from the sector and consider difficulties and clarifications in the field of 3d Printing, our numerous Q&A sessions and panel discussions.


This conference offers unrivalled opportunities to work with other key leading experts from the Universities and Hospitals to discuss the main challenges in the sector and to come together to produce strategies to find solutions to these problems


By leading one of the renowned Workshops, you will be presented with a perfect forum for an in depth discussion and debate into a key issue. These sessions can vary in format from case-study-led debate with interactive breakout sessions to a presentation based discussion group on a topic that may need a particular in-depth focus.


While we regulate our conference theme and flow, we invite our key supporters to suggest potential speakers, Delegate and topics that might also improve the program. That’s why it’s significant to commit early to sponsorship, before the program is final


To increase your presence at the event, why not chair the event, a day, or a precise session to extant yourself and your association as one the leading players in a specific topic area? As a chair, you will work closely with us and our line-up of senior level speakers to ensure an event’s success.


Organizing Committee

Vyacheslav R. Falikman

Vyacheslav R. Falikman

National Scientific Research Center - Russia


Sarah Goehrke

Sarah Goehrke

Additive Integrity LLC - USA


Jinqiang Ning

Jinqiang Ning

Georgia Institute of Technology - USA


Ludmila Kucerova

Ludmila Kucerova

University of West Bohemia - Czech Republic


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Hans-Werner Schmidt

Hans-Werner Schmidt

University of Bayreuth - Germany


Sean Lyons

Sean Lyons

Athlone Institute of Technology - Germany


Wolfgang Wenzel

Wolfgang Wenzel

Karlsruhe Institute of Technology - Germany


Ruth Cardinaels

Ruth Cardinaels

Eindhoven University of Technology - Netherlands


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