“Global Congress and Expo on Advance 3D Printing and Modelling” in 2021. This event is planned during July 08-09, 2021, attempts to bring many Prominent Speakers, Professors, Deans, Surgeons, Physicians, Medical and Industrial Professionals, Young Researchers, Student Delegates and Business Delegates, together with information-packed Workshops, will fill the agenda.
This year we are focusing on the theme “Exploring New Innovations In 3D Printing And Modelling". 3D Printing also known as Additive manufacturing. It turns digital 3D models into compact substances by building them up in layers. The technology was first invented within the 1980s, and since that time has been used for rapid prototyping (RP). However, within the previous couple of years, 3D printing has additionally started to progress into a next-generation manufacturing technology that has the potential to permit the local, on-demand production of final products. This skill is used in the fields of jewellery, footwear, industrial design, architecture, engineering and construction (AEC), automotive, aerospace, dental and medical industries, education, geographic information systems, civil engineering, and many others.
Advanced technologies for 3D printing and additive manufacturing and the way these technologies have changed the face of direct, digital technologies for rapid production of models, prototypes and patterns. Because of its wide applications, 3D printing and additive manufacturing technology has become a strong new historic period within the field of manufacturing. The evolution of 3D printing and additive work technologies has changed design, engineering and manufacturing processes across industries like consumer products, aerospace, medical devices and automotive. The objective of this book is to help designers, R&D personnel, and practicing engineers understand the state-of-the-art developments in the field of 3D Printing and Additive Manufacturing.
3D Printing has been useful in medicine since 2000s. For manufacturing of custom pros-thetics and dental implants it had been first used then onwards the medical applications for 3D Printing has evolved significantly. By the use of 3D printing we can produce exoskeletons, windpipes, jaw bone, bones, ears, blood vessels, vascular networks, tissues, eye-glasses, cell cultures, stem cells and organs. The current medical applications of 3D Printing are often categorized into variety of categories that are creating im-plants, tissue and organ fabrication, prosthetics and pharmaceutical research concerning drug discovery and anatomical models.
Track 3: Innovations in 3D Printing
The world of 3D printing has the chance of making a more modern, better future. 3D Printing technology is consistently evolving and positively contains a extensive live in its pocket for the long run. the amount of customization that the technology offers release the door for its application in various enterprises, allowing it to require care of a substantial live of problems. This review can abandon you with a glance at work in advance within the 3D Printing business.
Track 4: Design for 3D Printing
Designing for 3D printing is completely different compared to planning of different functions. something that appears excellent in your CAD program can be difficult to print that makes a frustrating expertise for any Maker. So, there square measure some key style rules to form associate simply printable object.
Track 5: 3D Modeling
3D modeling is the process of developing a mathematical representation of any surface of an object in three dimensions via specific software. The product is called a 3D model. Somebody who works with 3D models may be referred to as a 3D artist. It can be presented as a two-dimensional image through a process called 3D rendering or used in a computer recreation of physical phenomena. The model can also be physically formed using 3D printing devices.
Models may be formed automatically or manually. The manual modeling process of preparing geometric data for 3D computer graphics is parallel to plastic arts such as sculpting.
Track 6: 3D Printing Materials
A wide vary of materials will be utilized for 3D printing, as an example, ABS plastic, PLA, polymeric amide (nylon), glass filled polymeric amide, stereo lithography materials (epoxy gums), silver, titanium, steel, wax, photopolymers and polycarbonate. The materials accessible for 3D printing have progressed considerably since the beginning of the innovation. there is presently a large assortment of varied material sorts, that area unit provided in numerous states. specific materials square measure currently typically made for specific stages performing dedicated applications with material properties that a lot of exactly suit the appliance. The energy round the promise of 3D printing has opened the floodgates. New printers square measure being created on a daily basis to print a large vary of materials from plastics, metals, composites, and cement, to organic materials, paper, and food.
Track 7: 3D Printing Future Technology
3D Printing is acquiring many directions as of currently and all signs are that it will carry on increasing in varied ranges soon. absolutely the most encouraging zones incorporate medical applications, custom elements substitution, and customized customer items. As materials enhance and expenses go down, totally different applications we can barely imagine nowadays will become potential.
3D Printing, whether at associate degree Industrial, native or individual level, brings an oversized group of benefits that standard ways for fabricate (or prototyping) simply cannot. 3D Printing forms take into consideration mass customization — the capability to customize things as per individual desires and stipulations. once you utilize a 3D printer over a lot of standard producing Processes, the list of materializing benefits is entirely long. From vital price investment and faster generation times to a lot of originative chance and a diminished carbon impression, there's no deficiency of focal points with these producing strategies. A 3D printer diminishes your overhead expenses altogether, and in additional ways that than one. Initially, it eliminates material expenses. instead of utilizing a serious sq. of plastic, metal or different material and removing the merchandise out of it we are able to utilize simply the materials completely essential for the construct (added substance producing). This not simply cuts your forthright expenses for materials, it additionally reduces the funds you'd usually pay on transporting and discarding that waste.
3D printing, or additive manufacturing, takes the concentration of some solid talks in the manufacturing industry popularly during 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 general manufacturing use. The procedure of utilizing specific equipment to gather an object layer by layer has some one of a kind and fascinating points of interest over traditional manufacturing.
Track 10: 3D Printing Technology & Market
3D printing additionally referred to as a additive producing technology wherever a 3 dimensional object is formed by setting down progressive layers of material. it is otherwise referred to as speedy prototyping. it is an automatic technique whereby 3D objects area unit quickly created on a reasonably estimated machine related to a computer containing blueprints for the thing.
The 3D printing Market is needed to realize USD thirty.19 Billion by 2022, at a CAGR of twenty-eight. 5% somewhere around 2016 and 2022. The market has been divided on the premise of printer, material kind, material form, process, technology, software, service, application, vertical, and earth science. 3D printing is presently accustomed create advanced elements, models (quick prototyping), and tiny arrangement segments. Streamlining of creation work method through processed generation instruments, powder taking care of and reusing capacities, and mobile production controls is filling the interest for industrial printers. the bottom year thought-about for this report is 2015 and also the figure timeframe is from 2016 to 2022.
Track 11: 3D Bio printing
3D Bio printing is that the approach towards creating cell styles in a very restricted area utilizing 3D printing technology, wherever cell capability and viability area unit saved within the printed build. 3D bioprinting adds to large advances within the meditative field of tissue engineering by granting analysis to be done on innovative materials known as biomaterials. In bioprinting, there area unit 3 major styles of printers that are utilized. These area unit inkjet, laser-assisted, and extrusion printers. 3D Bio printers area unit efficient to possess the capability to print skin tissue, heart tissue, and veins among alternative essential tissues that would be applicable for surgical procedure and transplantation.
Track 12: Metal 3D Printing
Metal 3D printing additionally referred to as Metal Additive manufacturing (AM) and Direct Metal laser Sintering (DMLS) is that the procedure by which elements are made-up by a optical device fusing along high performance metals, layer by layer. Metal printing processes like powder bed fusion, metal binder running, Associate in Nursing directed energy deposition developed at an explosive pace. There are varied varieties of metal 3D printing that every have their own specific blessings. Here are a number of the foremost common varieties wont to digitally craft metal objects.
DLP (Digital light Processing) could be a similar method to stereo lithography in this it is a 3D printing that works with photopolymers. difference distinction is that the source of illumination. DLP uses a a lot of typical light, like Associate in Nursing electric lamp with a liquid display board, that is applied to the whole surface of the vat of photopolymer organic compound during a single pass, typically creating it quicker than SL. additionally like SL, DLP produces extremely correct components with wonderful resolution, however its similarities additionally embrace a similar needs for support structures and post-curing. However, one advantage of DLP over SL is that solely a shallow vat of organic compound is needed to facilitate the method, that typically ends up in less waste and lower running prices.
Track 14: Polymers in 3d printing
Polymers are macromolecules made of many rehashing subunits called monomers. These monomers are coordinated by covalent bonds where atoms share electrons being a strong union. The method to deliver a polymer is known as polymerization reaction. Thermoplastic polymers are actually important 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, prominently Selective Laser Sintering (SLS). There are a few prominent thermoplastics that can be used with this procedure, delivering a variety of results depending on their base properties.
Track 15: 3D printing in space and aerospace
The airplane business incorporates a scope of business, modern and military applications, and is included divisions that plan, make, work and keep up the air ship or shuttle. Among the principal promoters of 3D printing, the airline industry is a driving force in the evolution of this technology for both manufacturing end-use parts and prototyping. Airlines depend on 3D printing to improve supply chain restrictions, limit warehouse space and reduce wasted materials from traditional manufacturing processes. Rapidly producing aircraft parts on request saves enormous amounts of space, time and money.
In fact, minimizing weight is the amount one way that aerospace manufacturing companies save money because weight affects an aircraft’s payload, fuel consumption, emissions, speed and even safety.
Track 16: 3D printing in Biomaterials
3D bio printing is the method of creating cell styles in a certain area utilizing 3D printing technologies, wherever cell capability and quality are saved within the printed build. 3D bioprinting contributes to large advances within the medical field of tissue engineering by taking into consideration analysis to be done on ingenious materials known as biomaterials. Biomaterials ar the materials adjusted and used for printing three-dimensional articles. a number of the foremost distinguished bioengineered substances are unremarkably stronger than the conventional real materials, as well as soft tissue and bone. These constituents will act as future substitutes, even upgrades, for the initial body materials.
3D Printing 2021 welcomes attendees, presenters, and exhibitors from all over the world. We are pleased to welcome all of you to attend and register for the “Global Congress and Expo on Advance 3D printing & Modelling” (3D Printing 2021) which is going to be held during July 08-09, 2021.
3D Printing 2021 focusing on sustainability concept implemented in design and construction of 3D materials in industries. It also discusses various advantages, innovations and modelling in all sectors. We welcome you to join along with us at the 3D Printing -2021, where you will make sure to have a significant involvement with researchers from around the globe. All the individuals of 3D Printing-2021 organizing committee look forward to meet you in the webinar.
Scope and Importance:
It is estimated that the overall market for 3D printing will have developed to around 15.9 billion dollars before the end of 2016. The 3D printing business sector is relied upon to achieve USD 30.19 Billion by 2022, developing at a CAGR of 28.5% somewhere around 2016 and 2022. As indicated by the IDC experts, worldwide incomes for the 3D printing business sector will detonate to a gigantic $35.4 billion by the year 2020. With 2016 revenue it is anticipated that it would reach $15.9 billion that implies the business will be doubled in the following five years. Generally speaking, the complex yearly development rate for the worldwide market within their 2015 through 2020 estimate period is an amazing 24.1%. The world 3D printing market has been sectioned in view of segment, application and geology. In opinion of part, the market is categorized into innovation, material and administrations. Worldwide market for 3D printing material incorporates polymers, metals and earthenware production. Also, 3D printing offers a wide exhibit of uses in different enterprises, namely consumer products, industrial products, defence & aerospace, automotive, healthcare, education & research and others.
Market Growth of 3D Printing in the last and upcoming ten years
3D printing materials have impressive growth in Middle East regions. Various 3D printing manufacturing companies have witnessed setting-up in the Middle East regions during the last few years. It’s showing that the trend is likely to continue over the next 10 years with the availability of low cost raw materials along with increasing manufacturing output in these regions.
Middle East 3D Printing Materials market value is anticipated to expand at a CAGR of 16.7% during the forecast period and along with that the Middle East 3D printing materials market volume is expected to register a CAGR of 11.2% during the forecast period.
Universities Associated with 3D printing
- Harvard’s School of Engineering and Applied Sciences, USA
- Princeton University, USA
- Cornell University, USA
- Wyss Institute for Biologically Inspired Engineering, USA
- Nanyang Technological University, Singapore
- University of Connecticut, USA
- Penn State University, USA
- North Carolina State University, USA
- University of Sheffield, UK
- 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
Industries Associated with 3D Printing
- 3D Systems – Rock Hill, South Carolina, USA
- AutoDesk – San Rafael, California, USA
- Airwolf 3D – Costa Mesa, California, USA
- Aleph Objects – Loveland, Colorado, USA
- Formlabs – Somerville, Massachusetts, USA
- Fusion3 – Greensboro, North Carolina, USA
- Hyrel 3D – Norcross, Georgia, USA
- M3D – Fulton, Maryland, USA
- MakerBot Industries – New York City, New York, USA
- Robo3D – San Diego, California, USA
- Sciaky, Inc. – Chicago, Illinois, USA
- Solidoodle – New York City, New York, USA
- Stratasys – Minneapolis, Minnesota, US
- Ultimaker – Geldermalsen, Netherlands
- Velleman – Belgium
- Voxeljet – Friedberg, Germany
- Zortrax – Olsztyn, Poland
- ZYYX 3D Printer - Gothenburg, Sweden
- Aurora Technology - Shenzhen, China
- Carima – Seoul, Korea
- envisionTEC – Gladbeck, Germany
- Kikai Labs - Buenos Aires, Argentina
- Materialise NV – Leuven, Belgium
List of Software used in 3D Printing:
- 123D Catch
- 3D Slash
- Netfabb Basic
- 3D-Tool Free Viewer
Medical Devices with 3D Printing Technology:
- Mouth Devices
- High-quality 3D scanners
- External prostheses
Advances in 3D Printing & Additive Manufacturing Technology
Applications of 3D Printing in Health Care & Medicine
Innovations in 3D Printing
Design for 3D Printing
3D Printing Materials
3D Printing Future Technology
Benefits of 3D Printing and Technology
3D Printing Technology Impact on Manufacturing Industry
3D Printing Technology & Market
3D Bio printing
Metal 3D Printing
Digital Light Processing (DLP) 3d printing
Polymers in 3d printing
3D printing in space and aerospace
3D printing in Biomaterials