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Previous Speakers

Claudia Reuter

Claudia Reuter

Managing Director USA

Nneile Nkholise

Nneile Nkholise

Central University of Technology South Africa

Alexander V Manzhirov

Alexander V Manzhirov

Ishlinsky Institute for Problems in Mechanics Russia

Tomasz Kurzynowski

Tomasz Kurzynowski

Wroclaw University of Science & Technology Poland

Hamid Idriss

Hamid Idriss

University of Sharjah UAE

Mojtaba Moatamedi

Mojtaba Moatamedi

UiT The Arctic University of Norway Norway

Ahmed S. Razeen

Ahmed S. Razeen

Cairo University Egypt

Frederic Dumur

Frederic Dumur

Aix Marseille University France

Euro 3D Printing 2019

About Us

Conference Series warmly welcomes all the experts in the field of “3D Printing & Modelling”, Research Scientists, Students, Academic Faculty, Design Engineers, Mechanical engineers, Industrial engineers, Aerospace engineers, Architects, 3D Artists, Industrialists, Business Entrepreneurs, Manufacturing Devices Companies, Additive Manufacturing  Industries and Suppliers, Medical Implants Organisation & Companies, Custom Parts Manufactures, Sports Equipment Industry, Robots Manufacturing Industries and related areas to attend its upcoming “4th International  Conference on Advances in 3D Printing and Modelling” (Euro 3D Printing 2019) to be held on April 15-16, 2019  at Amsterdam, Netherlands.

This 3D Printing Conference is based on the theme “Trembling the notion of what "can and can’t" be developed in 3D Printing & Modelling”. Euro 3D Printing 2019 Conference will make the perfect platform to reunite the Speakers, Renowned Speakers, Business Persons, CEO’s, across the sphere to most exciting and tremendous event, with interactive sessions, Poster Presentation, world-class Exhibition. To introduce a new, efficient, durable and economical materials in the respective field is the main motive of Euro 3D Printing Meeting 2019 for both the developed and developing countries.

We look forward to seeing you in the 4th World Congress on “Advances in 3D Printing and Modelling” in Amsterdam, Netherlands.

The main objective of this Conference is to provide a platform to discuss recently developed Advances in 3D printing3D Modelling & Additive Manufacturing.  The topic includes (but are not limited to) various categories of application. Typically 3D Printing3D Modelling or any Additive Manufacturing (processes, types, materials, challenges, applications etc.) related topics are welcome.

About 3D Printing:

3D printing is any of various processes in which material is joined or solidified under computer control to create a three-dimensional object with the material being added together (such as liquid molecules or powder grains being fused together). 3D printing is used in both rapid prototyping and Additive Manufacturing (AM). 3D Printing has made its presence felt in some of the finest product research and development laboratories.

Industries that use 3D Printing

  • Architecture Industry.
  • Automotive Industry.
  • Commercial Products
  • Consumer Goods Industry.
  • Consumer Electronics.
  • Defense Industry.
  • Dental Industry.
  • Education Industry.
  • Medical Industry.
  • Mold Industry. 
  • Aerospace Industry.         

About 3D modelling:

In 3D computer graphics, 3D modelling (or three-dimensional modelling) is the process of developing a mathematical representation of any surface of an object (either inanimate or living) in three dimensions via specialized software.

Industries that use 3D modelling software

  • Entertainment.
  • Gaming.
  • Architecture.
  • Publishing.
  • Advertising and Marketing.
  • Geology and Science.

Major Applications of 3D Printing (3DP) in various sectors:

1.      3DP Applications in Healthcare and Medical:

Surgical guides, Bioprinting ,Printing for Liver Tissue Engineering,  Biomaterials, Orthopaedics, Radiation Oncology, dentistry, ocular prosthesis, eye model,  eyes 3D Medtech Printing, Tissue and Organ Printing,  hearing aids, prostheses, Virtual surgical planning,  Traumatology, Tissue engineering scaffold, custom prosthetics and education models for medical professionals.

2.      3DP Applications in Architecture and Construction:

Aesthetic and durable models for conception and promotion of construction industry, development of contour crafting process, building disaster relief shelters.

3.      3DP Applications in the Maritime Industry:

Boat propeller, spare parts for nautic racing,  yacht, chain mail for ships, CICADA Navy Drones, Current Turbines, Prototypes and improved spare part management for shipbuilding.

4.       3DP Applications in Food Industry:

Food  Industries  have come up with different  innovations in the 3DP Industry  such as

Foodini uses edible ingredient squeezed out of stainless steel in order to create a range of dishes. It’s a 3D Printer for foodstuffs

3D System, Chefjet is using crystallized fine-grain sugar in order to achieve perfect geometric configuration.

While some are using syringes to dispense chocolate into a beautiful pattern.

5.        3DP Applications in Automotive:

It’s completely a new way of thinking car based on new  Technologies & Innovation. It has transformed the way automobiles are designed, developed, and manufactured. Several new innovations like Local Motors LM3D Swim, Audi Spare Parts,  Blade, Honda Access, WilliamsF1, Hankook Tires, BMW Thumb Tool, Luxexcel Automotive lenses,  Ai Design in automobiles are examples of engineering and researches brought up in automobiles.

6.        3DP Applications in Textile,  Fashion & Jewellery Industry:

3D printing (3DP) is increasing in a number of industries and its applications have been extended to diverse disciplines - including the textile industry as well as the fashion industry. The potential method used are stereolithography, selective laser sintering, fused deposition modelling, PolyJet, and binder jetting. One can create custom-made clothing using various 3D modelling software that allows you to create clothing that suits you depending on your body types.

3D Bioprinting Congress | 3D Medtech Printing Expo | 3D Prototyping | 4D Printing | 3D Printing in Traumatology | 3D printing Biomaterials Congress | 3D printing in dentistry | Tissue engineering scaffold | 3D printed prostheses | Tissue and Organ Printing | 3D printed prostheses | 3d printing expo | 3d printing trade shows  | 3d printing events | 3d printing conference USA | UK | Asia Pacific | Middle East | Amsterdam | Netherlands

Who should attend?

Conferences and meetings are the platforms where we learn, exchange and integrate knowledge globally. The arrival of innovations, technologies, machines, materials, additive manufacturing is evolving so quickly that if you do not speed up, you will lag behind. 3D Printing applications broaden the horizon of many industries and tremendously useful everywhere.

Targeted Audiences for the Congress ""

  • Research Scientists,
  • Students,
  • Academic Faculty,
  • Design Engineers,
  • Mechanical engineers,
  • Industrial engineers,
  • Aerospace engineers,
  • Architects,
  • 3D Artists,
  • Industrialists,
  • Business Entrepreneurs,
  • Manufacturing Devices Companies,
  • Additive Manufacturing,
  • Industries and Suppliers,
  • Medical Implants Organisation & Companies,
  • Custom Parts Manufactures,
  • Sports Equipment Industry,
  • Robots Manufacturing Industries

3D Bioprinting Congress | 3D Medtech Printing Expo | 3D Printing in Traumatology | 3D printing Biomaterials Congress | 3D printing in dentistry | rapid prototyping | Tissue engineering scaffold | 3D printed prostheses | 3d printing industry growth | 3d printing market size | 3D Image Processing | 3d printing opportunities and challenges | 3d printing research report | 3d printing trade shows  | 3d printing events | 3d printing conference | USA | UK | Asia Pacific Middle East | Amsterdam | Netherlands

Why to attend?

As we all know in any profession networking is very important. At a conference ingenious, innovative ideas are introduced and several new information is exchanged among experts.One gets to learn from other and improves own skills and knowledge about their field. It is a great platform for leaders to exchange views and information, allowing them to discuss tomorrow's challenges as well as share ideas on how to leverage current business opportunities Moreover provide business leaders to network and meet like-minded professionals.

Conference Series is privileged to felicitate Euro 3D Printing 2018 Organizing Committee and Chairs who supported the success of this event. Conference Series would like to thank every individual participant for the enormous exquisite response. This inspires us to continue organizing events and conferences for further research in the field of  "3D Printing and Modelling".

With the valuable feedback received from the participants of 3D Printing 2018, Conference Series is glad to announce the commencement of “4th International Conference on Advances in 3D Printing & Modelling 2019, Amsterdam, Netherlands highlighting the theme "Trembling the notion of what CAN AND CANNOT be developed in 3D Printing.". We welcome all the eminent researchers, students, and delegate participants to take part in this upcoming conference to witness invaluable scientific discussions and contribute to the future innovations in the field of 3D Printing3D ModellingTechnologiesInnovation, Advancement and its concomitant risk factors.

More any query, please contact us at:

3D Printing Conference 3D Modelling Conference Advances in 3D Printing & Modelling 2019 3D Printing Expo 3D Printing Meetings 2019 | 3D Bioprinting Congress | 3D Medtech Printing Expo | 3D Printing in Traumatology | 3D printing Biomaterials Congress | 3D printing in dentistry | Tissue engineering scaffold | 3D printed prostheses 3d printing industry growth | 3d printing market size | 3d printing opportunities and challenges | 3d printing research report | 3d printing trade shows  | 3d printing events 3d printing conference | USA UK | Asia Pacific Middle East | Amsterdam | Netherlands                                                                              


Scientific Sessions

Track 1: Trends & Innovation in 3D Printing

The year 2017 had been a super exciting year for the 3dprinting industry, with plenty of new players appearing on the scene, as well as countless new collaborations and innovations, the young field is revolutionizing prototyping and manufacturing, and changing the world of design, medicine, construction etc. Rapid prototyping is helping companies realise their ideas into products faster. 3D printed prototypes make all the difference when the need is to convey an idea properly or when it is necessary to ascertain a product/part’s functionality in the real-world before investing in expensive tooling. We’ve bundled their input for you in a list of trends we anticipate for 2018 & 2019.

  • Better Software, More Integration
  • Organic, Wearable Materials
  • Faster Speeds, Increased Productivity
  • Better and Cheaper Metal Printing
  • Mass Customization Goes Mainstream
  • 3D Printed Food
  • 3D Printed Shoes
  • 3D Printed Organs
  • 3D Printing Redefining Air Travel
  • Consumer 3D Printing

Track 2: 3D Printing User Friendly & Advance Software

It says your prints are only as good as the software you’re using. 3D printing software serves many different purposes from 3D Modelling to sculpting to customizing. There has come a diverse range of applications and many come with perks like cloud database capabilities and many more. These provide users with various abilities ranging from modelling to rendering to conception and presenting to clients as well. 3D Softwares used here are the virtual sculpting tools, focusing on the concepts of  3D Modelling and 3D Printing. With the software, one can achieve a real  3D Printed model of desire shape and desire imagination and even a new world in design and manufacturing with parameters that are only just beginning to be explored.

Track 3: 3D Modelling

3D Modelling is being used all over the world in various industries like films, animation and gaming, interior designing, architecture and many more. They are also widely used in the medical industry for the interactive representations of anatomy. In 3D computer graphics, 3D modelling is the process of developing a mathematical representation of any surface of an object (either inanimate or living) in 3D via specialized software. A large market for 3D models (as well as 3D-related content, such as textures, scripts, etc.) still exists – either for individual models or large collections. Several online marketplaces for 3D content allow individual artists to sell content that they have created, including TurboSquid, CGStudio, Creative Market,  Sketchfab and CGTrader.

  • 3D models printed with a 3D printer
  • 2D images created via 3D rendering
  • 3D simulations of an object or building

Track 4: 3D Printing in Electronics Industry, Automotive, Aerospace Development & Military Science.

3D Printing  or we can say “Additive manufacturing”  is now being used in a number of different industries all over the world, including aerospace developmentautomotivemilitary science . One of the most beneficial reasons to contemplate using additive manufacturing processes rather than conventional engineering is the ability to create electronic circuits in very small spaces. There’s a range of functional components which can also be easily created, including electronics. Additive manufacturing machines can produce conductor, resistor, dielectric and semiconductor inks which can be processed to create both active and inert components. Shielding, antennas and sensors are just some of the types of electronic components which can be created. Combining additive manufacturing in both the aerospace and electronics industries provides some very advantageous technology, including the ability to print directly onto the wing of unmanned aerial vehicles, creating a lighter and more streamlined design.

  • 3D-Printed Electronics:  Applications and Opportunities
  • 3D Printing for Prototyping in the Electronic Industry
  • 3D-Printed Electronics:  Hardware, Materials and Service Offerings
  • Potential for Revenue Generation by 3D-printed Electronics
  • Segmenting a Future 3D-printed Electronics Sector
  • Printed Electronics:  Emerging Specialist Firms
  • Ongoing R&D in 3D-Printed Electronics
  • 3D-Printed Metals, Dielectrics for the Electronics Industry
  • The Future of 3D-Printed Electronics is non-Proprietary Materials
  • Supply Chain Structure for the 3D-Printed Electronics Sector
  • Market Forecasts for 3D-Printed Electronics
  • 3d printing applications in electronics
  • 3d printing embedded electronics
  • optomec 3d printer

Track 5: 3D Printing in Ceramics 3D Craft & Home Decor

3D Printing works much ahead than the existing designs. The décors’ of your dreams from vases to tall door’s. Everything at this designate complexities is now achievable using 3D Printing. This 3D printer delivers metal printed components with high-quality material properties and, compared to industry standards, low-surface roughness values, fine features and no residual stresses. New techniques and innovation are coming up with more aesthetical, durable decors and crafts with the invention in 3D Printing there comes new acrostic to win new aesthetic culture to craft more aesthetical decors using different pursuits.

  • 3D Technology in Fine Art and Craft
  • Fusion of 3D Printing and Traditional Craftsmanship
  • 3D Printing - Hobbyists & Crafts
  • 3d printing community projects
  • thingiverse 3d printer
  • bio-inspired ceramics composites

Track 6: G-code in 3D printing

Wikipedia says that G-code (also RS-274), which has many variants, is the common name for the most widely used numerical control (NC) programming language. It is used mainly in computer-aided manufacturing to control automated machine tools.

G-code is a language in which people tell computerized machine tools how to make something. The "how" is defined by g-code instructions provided to a machine controller (industrial computer) that tells the motors where to move, how fast to move, and what path to follow. The two most common situations are that, within a machine tool such as a lathe or mill, a cutting tool is moved according to these instructions through a toolpath cutting away material to leave only the finished workpiece and/or, an unfinished workpiece is precisely positioned in any of up to 9 axis around the 3 dimensions relative to a toolpath and, either or both can move relative to each other.

  • How G-Code Works?
  • Changing a pallet
  • Rapid movement
  • A series of controlled feed moves, resulting in a workpiece cut, a bored hole, or a decorative profile shape
  • Controlling  feed movement, in an arc or a straight line
  • Setting tool information
  • What Is The Purpose Of CAM Software?

Track 7: Modelling and Simulation(M&S) techniques of 3D Printing Additive Manufacturing.

M&S is the use of a physical or logical representation of a given system to generate data and help determine decisions or make predictions about the system. Additive Manufacturing (AM) or 3D Printing (3DP) for exacting applications still faces a technical challenge. The expansion of 3DP  has created a need for simulation and data management tools. Numerous 3D techniques that have been developed to manufacture complex-shaped components along with more precision that will help to optimize the 3DP process in order to reduce production costs, improve performance & increase robustness/reliability by optimizing design i.e. it all requires is systematic modelling and simulation especially at the time of designing.   

  • Simulation modelling
  • Process simulation 
  • Computational methods
  • Lightweight additively manufactured structures;
  • Integration of modelling with process design
  • Methods to control & minimize defects. 
  • Analyzing variation of properties, such as orientation, volume and print direction

Track 8: 3D Printing in Healthcare, Life Sciences & Medicines

3D Printing applications in medicine are revolutionizing day by day. It includes bio printing, customized implants and prosthetics, medical models and medical devices that revolutionize healthcare and also overcoming many traditional medicines and methods. These Printed models are playing a vital role in the teaching of healthcare, life sciences, medicines. Moreover, its application is expanding rapidly in this era. Some majors branches are listed below:

  • 3D Bio printing
  • 3D Printing for Liver Tissue Engineering
  • 3D printing in Biomaterials
  • Clinical applications of 3D Printing in Orthopaedics
  • 3D printing in Radiation Oncology
  • 3D printing in dentistry
  • 3D printing ocular prosthesis
  • 3D printed eye model
  • 3D printed eyes
  • 3D Medtech Printing
  • Tissue and Organ Printing
  • 3D Printing in hearing aids
  • 3D printed prostheses
  • Virtual surgical planning 
  • Clinical applications of 3D Printing in Traumatology
  • Tissue engineering scaffold
  • 3D Tissue Models

Track 9:  3D Printing in Textile, Fashion World & Jewellery Industry

3D Printing gives us the ability to handle any level of complexity and also ensures pinpoint accuracy especially in industries like Jewellery, Entertainment, and Fashion where lies less scope of slip-up. For the world of fashion, 3D Printing is not a new concept and when it comes to fashion world it has to be astonishing, astounding, sensational, stunning and what not?                                            

With the help of 3D Printing, the world has come up with several techniques of magnificent work

  • Gold 3D Printer
  • 3d printed jewellery  wax
  • 3d printing jewellery moulds
  • 3D Printed Jewellery for the Fashion Forward.

Track 10: 3D Printing in Construction Arena

Advanced printers have been built that can extrude multiple materials, providing a level of speed and flexibility that was not present before. The printer reads the file and lays down successive layers of materials, such as plastics, resins, concrete, sand or metals, until the entire object is created. Currently, they have only been  used to create 3D models of a structural design, prototypes, and smaller non-structural elements such as landscaping bricks or decorative components. Extremely large 3D printers have already been built that can use concrete-like materials to fabricate a variety of large structural components and even entire buildings, such as emergency huts and residences. Raw materials tested include: Recycled plastic, Bioplastics, Concrete. Synthetic stone-like material made of sand and chemicals

  • Reduced materials usage
  • Increasing the ability to design a larger variety of customized homes and buildings
  • Savings  in construction waste
  • Reduction of production time by 50%-70%
  • Reduction of construction labor costs 
  • Lower costs for customized design.
  • Increasing rate of construction, faster and more accurate.
  • Recycling of unused construction components.
  • Health and safety risks.
  • Lower cost housing or to create designs which is not possible with traditional construction.
  • Changes in the type of skills and labor required.
  • Risks and errors in the digital model that could result in problems onsite that will need special handling or rework.
  • The printers are not necessarily faster than traditional construction. More time may be required for onsite component production
  • 3D Printing for Pressurised Concrete
  • Virtual and Rapid Prototyping Methods, Wind and Earthquake Simulations on a Five Storey Building
  • 3D Construction Printing
  • 3D printed buildings
  • 3D printed bridges
  • Extra-Terrestrial Printed Structure 

Track 11: 3D Bio Printing

The promise of printing human organs began in 1983 when Charles Hull invented stereolithography. Now 3D BioPrinting techniques are used to combine cells, growth factors, and biomaterials to fabricate biomedical parts that maximally imitate natural tissue characteristics. 3D Printer can be used to print tissues and organs to help research drugs and pills. Researchers at Wake Forest University in North Carolina say they have created a 3D printer that can produce organs, tissues, and bones that could theoretically be implanted into living humans. Around 115,000 people in the United States are currently on the waiting list for a lifesaving organ transplant. Another name is added to the national transplant waiting list every 10 minutes. This technology and industry will see explosive growth, with the potential to disrupt many aspects of healthcare and drug development.

  • pressure assisted bioprinting
  • bioprinting challenges
  • benefits of bioprinting
  • bio-Ink in 3D Printing
  • tissue engineering
  • laser assisted bioprinting
  • laser manufacturing
  • rapid prototyping
  • micropatterning
  • high cell density printing
  • drawbacks of 3D Printing

Track 12: Impact & Assessment on Environment using 3D Printing

Upcoming amazing technology will help to provide us with a cleaner, greener way out. 3D printed parts are proving to have considerable advantages over conventional manufacturing processes. Since there’s little waste in 3D printing, there’s no excess cutting, drilling and milling. Less refining and assembly also means a reduction in storage before sale and distribution. This is yet another area that reduces the overuse of resources on a mass production scale. Numerous negative impacts like fumes, toxic by-products, excess energy requirements etc has been intervened in 3D printing. Moreover it’s the hope of innovators and scientists to correct all these current problems with future 3D technology. Imagine a world where eco-friendly 3D printed parts produced all we could ever need in a less sophisticated manner and thereby minimal impact on our planet and everything that is a part of it. So it still not a clear picture. Let us find together at the Congress in order to get some more clues to achieve it.

  • Global  picture in which 3D Printing fits in
  • Negative impact of 3D Printing technology
  • Widespread earth-friendly 3D printing materials to look out for in the future
  • Role of 3D Printing in saving the environment

Track 13: Future Technologies, Planning & Challenges in 3D Printing.

As in early times, humans picked up bones and rocks to pound, cut and kill, technology has been used to change the world and to alter the manner of our existence. 3D printers have many promising areas of potential future application. It may also be used to make future buildings. Demonstrating the potential, over in China an amazing company called WinSun Decoration Design Engineering has already 3D printed a number of houses.3D Printers also to create replacement organs, and even to directly repair the human body in situ. This is known as bioprinting and is an area of rapid development also. In some respects, the market for personal 3D printing is now growing very rapidly, with over a million personal 3D printers likely to be sold annually by 2020. Here come some Future Discussion Topics.

  • Metal Printing Will Become More Affordable
  • Expect More Vertical Applications Of 3d-Printed Manufacturing
  • Additive Manufacturers Will Demand New Design Tools
  • Look For More Materials
  • Expect Even More Mass Customization
  • Output/Quality Problems with 3D Printing.
  • The Process Is Unreliable. Too Much 3D Printer Troubleshooting
  • The Workflow.
  • The Target: It’s wrong.
  • The Market: It’s Prematurely Mature.

3D Bioprinting Congress 3D Medtech Printing Expo | 3D Printing in Traumatology | 3D printing Biomaterials Congress | 3D printing in dentistry | Tissue engineering scaffold | 3D printed prostheses | 3d printing industry growth | 3d printing market size | 3d printing opportunities and challenges | 3d printing research report | 3d printing trade shows  | 3d printing events | 3d printing conference | USA | UK | Asia Pacific Middle East | Amsterdam | Netherlands

Abstract Eligibility Criteria


  • Individuals may submit up to two regular abstracts as the first author.
  • Individuals may submit an unlimited number of Trials in Progress abstracts.
  • Individuals may serve as a co-author on an unlimited number of abstracts.


  • All types of 3D Printing & Additive Manufacturing research are eligible for submission.
  • Abstract should address scientific questions, detail clinical observations, or contain primary scientific data.
  • Data from the long-term follow-up of previously presented trials may be submitted only if significant new information can be shown. 
  • Interim analysis of a prospective randomized trial will be considered if it is performed as planned in the original protocol and is statistically valid.
  • Abstracts related to subjects should be combined into a single abstract. Please Note: Submission of multiple abstracts on a single study may result in the rejection of one or more abstracts.

Submission Requirements

Provide your full name, academic degree(s), institution, address, and email address and recent photograph. You will receive all future correspondence from us regarding the status of your abstract. 

The selected abstracts will be published in Conference Proceedings.


Speaker Presentations Sessions and Time limits:

Keynote Speech 40-45 Minutes,

Workshop/Symposium 60 Minutes

Plenary Speech 20-25 Minutes, 

Poster Presentation 10-15 Minutes

3D Bioprinting Congress | 3D Medtech Printing Expo | 3D Printing in Traumatology | 3D printing Biomaterials Congress3D printing in dentistry | Tissue engineering scaffold3D printed prostheses | 3d printing industry growth3d printing market size | 3d printing opportunities and challenges | 3d printing research report3d printing trade shows  | 3d printing events | 3d printing conferenceUSA | UKAsia Pacific Middle East Amsterdam | Netherlands

Market Analysis

Marketing is a competitive business where individuality becomes the secret to success. A market analysis studies the attractiveness and the dynamics of a special market within a special industry. 

The factors driving the 3D printing market are the reduction of errors, high degree of accuracy, efficient use of raw materials, ability to build customized products, simultaneous use of multiple materials for printing, efficient use of production time and financials, and competency over traditional techniques among others. On the contrary, high production cost to individual users, expensive 3D printing software, lack of channel partner assistance, and scarcity of skilled labours are some of the restraints for the global 3D printing industry.

The 3D printing market is estimated to be valued at USD 32.78 Billion by 2023, at a CAGR of 25.76% between 2017 and 2023. The base year considered for the study is 2016, and the market forecast has been done for the period between 2017 and 2023. The research methodology used to estimate and forecast the 3D printing market begins with capturing data on revenues of the key vendors in the market through secondary research.

3D Printing Functional & Industrial Enduse-(by2020).

The end-use in percent from different sectors is described in the (fig.1)chart.


The WHERE & WHO in 3D Printing.

 In 3D Printing "Technologies and Methods" involved in Industries, is nowadays increasing at the faster rate as per the increasing requirement and demands of societies. Some of the manufacturing methods involved in the Dental Industry mentioned in this (fig.2)chart. 


3D Bioprinting Congress | 3D Medtech Printing Expo | 3D Printing in Traumatology | 3D printing Biomaterials Congress | 3D printing in dentistry | Tissue engineering scaffold | 3D printed prostheses 3d printing industry growth | 3d printing market size | 3d printing opportunities and challenges | 3d printing research report | 3d printing trade shows  | 3d printing events 3d printing conference | USA | UK | Asia Pacific Middle East Amsterdam | Netherlands

Learn More

Top 10 Global 3D Printing Companies 

  • 3D Systems
  • ExOne
  • HP Inc.
  • Materialise NV
  • Nano Dimension
  • Organovo
  • Proto Labs
  • Stratasys
  • SLM Solutions Group AG
  • Voxeljet

Best 3D Printing Companies

  • Formlabs
  • Carbon
  • Made In Space
  • Ultimaker
  • 3D Hubs
  • WASP
  • Prusa3D
  • Markforged
  • BeeHex
  • BigRep
  • Aleph Objects (Lulzbot)
  • Collider
  • Impossible Objects
  • Local Motors
  • BCN3D
  • Apis Cor
  • colorFabb
  • 3D-Fuel (3DomFuel)
  • Doob Group
  • E3D
  • Nano Dimension
  • Cazza
  • Open Bionics
  • Zortrax
  • Nanoscribe GmbH
  • Monoprice
  • Stratasys
  • EOS
  • Shapeways
  • Materialise
  • Sculpteo
  • Divergent3D
  • Prodways

List of 3D printer manufacturers

  • 3D makeR Technologies – Barranquilla, Colombia
  • 3D Systems – Rock Hill, South Carolina, USA
  • Airwolf 3D – Costa Mesa, California, USA
  • Aleph Objects – Loveland, Colorado, USA 
  • BigRep – Germany
  • Carbon – Redwood City, California, USA
  • CELLINK - Boston, Massachusetts, USA
  • CRP Group - Modena, Italy
  • envisionTEC – Gladbeck, Germany
  • Formlabs – Somerville, Massachusetts, USA
  • Fusion3 – Greensboro, North Carolina, USA
  • HP Inc. - Palo Alto, California, USA
  • Hyrel 3D – Norcross, Georgia, USA
  • Kikai Labs - Buenos Aires, Argentina
  • M3D – Fulton, Maryland, USA
  • MakerBot – New York City, New York, USA
  • Materialise NV – Leuven, Belgium
  • Printrbot – Lincoln, California, USA
  • Prusa Research - Czech Republic
  • Robo3D – San Diego, California, USA
  • Sciaky, Inc. – Chicago, Illinois, USA
  • Sindoh - Seoul, South Korea
  • Solidator - tangible engineering – Stuttgart, Germany
  • Solidoodle – New York City, USA
  • Stanley Black & Decker - Connecticut, USA 
  • Stratasys – Minneapolis, Minnesota, US
  • Ultimaker – Geldermalsen, Netherlands
  • Velleman – Belgium
  • Voxeljet – Friedberg, Germany
  • Zortrax – Olsztyn, Poland
  • ZYYX - Gothenburg, Sweden

Types of 3D Printing Technology

  • Stereolithography
  • Digital Light Processing
  • Selective Laser Sintering
  • Material Jetting
  • Material Jetting
  • Sand Binder Jetting
  • Metal Binder Jetting
  • Fused Deposit Modelling

Colleges and Universities associated with 3D Printing

  • North Carolina State University, USA
  • University of Sheffield, UK
  • Northeastern University
  • University of Nottingham, UK
  • Western Carolina University, USA
  • University of Iowa, USA
  • University of Northern Iowa, USA
  • Iowa State University, USA
  • University of Exeter, UK
  • Pennsylvania State University
  • Arizona State University
  • Auckland University of Technology
  • Binghamton University
  • Case Western Reserve University Carnegie Mellon University
  • Central Washington University
  • De Montfort University
  • Georgia Institute of Technology
  • University of Illinois Urbana-Champaign
  • Indiana University–Purdue University Indianapolis
  • Kent State University
  • Lehigh University
  • Lorain County Community College
  • Louisiana State University
  • Loughborough University
  • Southern Illinois University
  • Harvard’s School of Engineering and Applied Sciences, USA
  • Princeton University, USA
  • Cornell University, USA
  • Nanyang Technological University, Singapore
  • University of Connecticut, USA
  • Penn State University, USA
  • Michigan Technological University
  • Mississippi State University
  • Missouri S&T
  • Massachusetts Institute of Technology
  • MIT Lincoln Laboratory
  • Monash University
  • Milwaukee School Of Engineering
  • NC State University
  • Northern Illinois University
  • University of Notre Dame
  • Ohio University
  • Oregon State University
  • Pennsylvania State University
  • Pennsylvania State University
  • RMIT University
  • Rochester Institute of Technology
  • University of Arizona
  • University of Cincinnati
  • Wyss Institute for Biologically Inspired Engineering, USA

3D Bioprinting Congress 3D Medtech Printing Expo | 3D Printing in Traumatology | 3D printing Biomaterials Congress | 3D printing in dentistry | Tissue engineering scaffold | 3D printed prostheses 3d printing industry growth | 3d printing market size | 3d printing opportunities and challenges | 3d printing research report | 3d printing trade shows  | 3d printing events 3d printing conference | USA | UK | Asia Pacific Middle East | Amsterdam | Netherlands


Past Conference Report

3D Printing 2018

International Conference on 3D Printing Technology and Innovations was held in London, UK, during March 19-20, 2018.

3D Printing 2018 witnessed an amalgamation of peerless speakers who enlightened the crowd with their knowledge and confabulated on various new-fangled topics related to the field of 3D Printing. The highly exalted conference hosted by Conference Series LLC Ltd was marked with the attendance of renowned and brilliant researchers, business delegates and talented student communities representing more than 20 countries around the world. The conference has tried grounding every aspect related to 3D Printing, covering all the possible research areas and crux. 

The conference aimed a parallel rail with theme “Exploring New Technologies and Innovations in 3D Printing”. The meeting engrossed a vicinity of cognizant discussions on novel subjects like Advances in 3D Printing & Additive Manufacturing Technology, Innovations in 3D Printing, Design for 3D Printing, 3D Printing Materials, Benefits of 3D Printing and Technology, Future Technology in 3D Printing, Challenges in 3D Printing, 3D printing in Biomaterials, Clinical applications of 3D Printing Innovations, Applications of 3D Printing in healthcare & medicine,             3D Printing Technology Impact on Manufacturing Industry, 3D Image Processing and Visualization, 3D printing technology and innovations, Metal 3D Printing, Polymers in 3d printing, 3D Bio printing, Lasers in 3D Printing in Manufacturing Industry, 3D Printing of Supply Chain Management, Tissue and Organ Printing and other allied areas of 3D Printing. The conceptual and applicable knowledge shared, will also foster organizational collaborations to nurture scientific accelerations.

We are thankful to all our speakers for encouraging and supporting us to conduct the conference and catapulting the same to pinnacle of success.

The Organizing Committee would like to thank the moderator Dr. Othman Ahmad Othman, University of Nottingham, UK and Dr. Patrycja    Szymczyk for their contributions which resulted in smooth functioning of the conference.

A series of invited lectures by the members of the Keynote Forum marked the commencement of the event. Prominent speakers like Alexander V Manzhirov from Ishlinsky Institute for Problems in Mechanics - RAS, Russia, Lin Li from The University of Manchester, UK, Miroslav Zetek from University of West Bohemia, Czech Republic, Tomasz Kurzynowskifrom Wroclaw University of Science & Technology, Poland, Frederic Dumur from Aix Marseille University, France, Gremillard Laurent from  MATEIS (UMR CNRS 5510), France, Yasunori Ota from Value Engineering Trainer, Japan, Ikuo Yamamoto from  Nagasaki University, Japan, Devi K Kalla from  Metropolitan State University of Denver, USA, Xipeng Xu from Huaqiao University, China, Pinlian Han from South University Of Science And Technology, China, Edwin Joffrey Courtial from ICBMS, Claude Bernard University Lyon 1, France, Jia Min Wu from Huazhong University of Science and Technology, China, Sonke Steenhusen from Fraunhofer Institute for Silicate Research ISC, Germany, Teresa Russo from  National Research Council, Italy, Daniel S Engstrom from Loughborough University, UK, J Yang from University of Nottingham, UK, Frank Schubert from Chemnitz University of Technology, Germany, Yuanqiang Tan from Huaqiao University, China, Josefine Morgenstern from Karlsruhe Institute of Technology (KIT), Germany, Patrycja Szymczyk from Wroclaw University of Science & Technology, Poland, Claudia Reuter from Techstars, USA, Bernd Schob from Chemnitz University of Technology, Germany, Camilo Zopp from Chemnitz University of Technology, Germany, Marta Flisykowska from Academy of Fine Arts, Poland, Geoffrey Mitchell from CDRSP-IPL, Portugal, Nuno Alves from CDRSP-IPL, Portugal, Artur Mateus from CDRSP-IPL, Portugal, Wenhui Song from UCL Centre for Nanotechnology and Regenerative Medicine, UK, Chao Zhu from University of Manchester, UK, Sara Varetti from Polytechnic University of Turin, Italy, Jehad Nasereddin from University of East Anglia, UK, Sarah Gretzinger from Karlsruhe Institute of Technology (KIT), Germany, Jiun-Hong Liu from Chung Yuan Christian University, Taiwan,  Mohamed Aburaia from University of Applied Sciences Technikum Wien, Austria, Katarzyna Czwakiel from Cracow University of Technology, Poland, Sahar Sultan from Stockholm University, Sweden, Shuai Ma from Chongqing University, China gave their fruitful contributions in the form of highly informative presentations and made the conference a top notch one.

Conference Series LLC Ltd is prerogative to thank the Organizing Committee Members, Keynote speakers, Chairs on transcribing the plenary sessions in a diversified and variegate manner to make this conference an enviable artefact.

Conference Series LLC Ltd International Conference on 3D Printing Technology and Innovations would not have reached the pinnacle if not with the support of International, multi-professional steering committee and coordination of the International Journal of Advancements in Technology, Journal of Material Sciences & Engineering, International Journal of Advance Innovations, Thoughts & Ideas. Hence, we express our deep sense of gratitude.

After the successful completion of 3D Printing 2018 we are glad to announce our next upcoming conference which is going to be held in Amsterdam, Netherlands

4th International Conference on Advances in 3D Printing & Modelling” which is going to be held during April 15-16, 2019 in Amsterdam, Netherlandswith the theme Trembling the notion of what CAN AND CANNOT be developed in 3D Printing ”.

Mark your calendars; we are hoping to see you soon!

Let us meet again @ Amsterdam for 3D Printing 2019 Conference



Past Reports  Gallery  

To Collaborate Scientific Professionals around the World

Conference Date April 15-16, 2019

Speaker Opportunity

Supported By

International Journal of Advance Innovations, Thoughts & Ideas International Journal of Advancements in Technology Journal of Material Sciences & Engineering

All accepted abstracts will be published in respective Conference Series LLC LTD International Journals.

Abstracts will be provided with Digital Object Identifier by

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