About Conference
“5th International Conference on 3D Printing Technology and Innovations”
during Webinar, which includes prompt
keynote presentations, Oral talks, Poster presentations and Exhibitions.
3D Printing also
known as Additive manufacturing. It turns digital 3D models into solid
objects by building them up in layers. The technology was first invented
in the 1980s, and since that time has been used for rapid prototyping
(RP). However, in the last few years, 3D printing has additionally started to evolve into a next-generation manufacturing technology that
has the potential to allow the local, on-demand production of final
products or parts thereof. This technology 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.
CONFERENCE HIGHLIGHTS
3D printing is a form of Additive
manufacturing is a process of making three dimensional solid objects by laying
down successive layers of material from a digital file. It is also known as
rapid prototyping. According to Standard Terminology for Additive Manufacturing Technologies, The American
Society for Testing and Materials (ASTM) group “ASTM F42 – Additive
Manufacturing” developed a set of standards that classify the Additive
Manufacturing processes into some categories.
3D Printing has been applied in medicine since 2000s. For
manufacturing of custom pros-thetics and dental implants it was first used and 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 can be
categorized into a number 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
3D Printing technology is constantly
evolving and definitely has a considerable measure in its pocket for the
future. The level of customization that the technology 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 abandon you with a look at
work in advance in the 3D Printing Industry.
Track 4: 3D
Printing Materials
A wide range of materials can be utilized for 3D printing, for example, ABS plastic, PLA,
polyamide (nylon), glass filled polyamide, stereo lithography materials (epoxy gums), silver,
titanium, steel, wax, photopolymers and polycarbonate. The materials accessible
for 3D printing have progressed significantly since the beginning of the
innovation. There is presently a wide assortment of various material types,
which are provided in various states. Particular materials are now generally
produced for particular stages performing dedicated applications with material
properties that more precisely suit the application. The energy around the
promise of 3D printing has opened the floodgates. New printers are being
created each day to print a wide range of materials from plastics, metals, composites, and cement, to
organic materials, paper, and food.
Track 5: Metal 3D Printing
Metal 3D printing also known as Metal Additive Manufacturing (AM) and
Direct Metal Laser Sintering (DMLS) is the procedure by which parts are
fabricated by a laser fusing together high performance metals, layer by layer.
Metal printing processes like powder bed fusion, metal binder jetting, and
directed energy deposition developed at an explosive pace. There are various
sorts of metal 3D printing that each have their own
particular advantages. Here are some of the most common types used to digitally
craft metal objects.
3D Printing, whether at an Industrial, local or individual level, brings
a large group of advantages that conventional strategies for fabricate (or
prototyping) simply can't. 3D Printing forms take into account mass
customisation — the capacity to customize items as per individual needs and
prerequisites. When you utilize a 3D printer over more conventional manufacturing Processes, the list of
coming about advantages is entirely long. From significant cost investment
funds and quicker generation times to more imaginative opportunity and a
diminished carbon impression, there is no deficiency of focal points with these
manufacturing methods. A 3D printer diminishes your overhead expenses
altogether, and in more ways than one. Initially, it eliminates material
expenses. Rather than utilizing a major square of plastic, metal or other material and
removing the product out of it we can utilize just the materials totally
essential for the construct (added substance producing). This not just cuts
your forthright expenses for materials, it also reduces the funds you'd
typically spend on transporting and discarding that waste.
3D printing, or additive manufacturing, has been 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
achievable for general manufacturing use. The procedure of utilizing
specialized equipment to gather an object layer by layer has some one of a kind
and fascinating points of interest over traditional manufacturing.
Track 8: 3D
printing in Biomaterials
3D bio printing is the process of making cell designs in a bound space
utilizing 3D printing technologies, where cell capacity and suitability are
saved inside the printed build. 3D bioprinting contributes to huge advances in
the medical field of tissue engineering by taking into account research
to be done on inventive materials called biomaterials. Biomaterials are the materials adjusted and
utilized for printing three-dimensional articles. Some of the most prominent
bioengineered substances are normally stronger than the normal real materials,
including soft tissue and bone. These constituents can act as future
substitutes, even upgrades, for the original body materials.
Track 9: 3D Bio printing
3D Bio printing is the way towards making cell
designs in a restricted space utilizing 3D printing technology, where cell
capacity and viability are saved inside the printed build. 3D bioprinting adds
to huge advances in the medicinal field of tissue engineering by allowing for
research to be done on innovative materials called biomaterials. In
bioprinting, there are three major types of printers that have been utilized.
These are inkjet, laser-assisted, and extrusion printers. 3D Bio printers are streamlined to have the
capacity to print skin tissue, heart tissue, and veins among other essential
tissues that could be appropriate for surgical treatment and transplantation.
Track 10: 3D Printing Future Technology
3D Printing is moving in several directions
as of now and all signs are that it will keep on expanding in numerous ranges
later on. The absolute most encouraging zones incorporate medical applications, custom parts
substitution, and customized buyer items. As materials enhance and expenses go
down, different applications we can barely imagine today will become possible.
Research and technology development in 3D image processing and visualization envelops an expansive range of
activities. Based on the in-house center innovation of object triangulation with
the capacity to control both the blunder of estimate and the quantity of
triangles, four classes of complementing activities, reveal the broadness and
imperativeness of this R&D motivation.
Track 12: 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 procedure
to deliver a polymer is known as polymerization reaction. Thermoplastic polymers are really
important in Additive Manufacturing. Thermoplastics are polymers which relax when
they are warmed and harden as they cool. These polymers are utilized for plastic 3D prints, prominently Selective Laser Sintering (SLS). There
are a few prominent thermoplastics that can be utilized with this
procedure, delivering a variety of results depending on their base properties.
Track 13: Tissue and Organ printing
Tissue and Organ failure is brought on
by aging, illness, accidents, and birth defects. The present treatment for
these failures is replacement from a living or expired Organ/Tissue Donor.
Three-Dimensional Printing, or "stereo lithography", is the way
toward keeping materials in layers to shape 3D objects. "Bio printing" includes the utilization of
modified 3D printers, empowering them to print natural materials. Progressions
in this technology, alongside biomaterials, will enable a patient's own cells
to be utilized to build replacement tissues and organs for those in need. The
ordinary procedure for bio printing 3D tissues and organs includes: Imaging,
Design approach, Material/Cell determination, Printing, and
Application. Imaging of the earth of the harmed 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. These are utilized as a part of both "Biomimicry"
and “Self-assembly” strategies. The test of actualizing 3D printing with Organ and Tissue building is taking innovation
intended to print liquid plastics and metals, and adjusting it to a procedure
that prints delicate, living, natural materials.
Track 14: Nano 3D Printing
Nanotechnology is the manipulation of material
with at least one dimension sized from 1 to 100 nanometers. Nanotechnology has
a lot in common with the additive manufacturing technology. At least, these two technologies
are starting to revolutionize a lot of different sectors, from the medical
industry, to chemistry or consumer products. The nanotechnology and 3D microprinting can totally be combined to create new
impressive projects. That is where we can talk about nano 3D printing
Track 15: 3D Printing Industries
The origin of 3D printing in 'Rapid Prototyping' were established on the
standards of Industrial prototyping as a method for accelerating the earliest
stages of product development with a quick and clear method for creating models
that allows for multiple iterations of product to arrive more rapidly and
effectively at an optimum solution. This saves time and cash at the beginning
of the whole product improvement process and guarantees certainty in front of
production tooling. Industrial 3D printers are better than consumer-grade 3D
printers for manufacturing completely working, quality models. The best
business 3D printers have extensive print capacity, choice determination and
utilize to a great degree tough materials. 3D Printing applications cover different
segments from education to industry, and the entire value chain from models to
extra part management.
The biggest challenges of 3d printing we’ve heard over the years and
throughout the industry including Equipment costs, Limited materials available,
Post-processing requirements, Manufacturing costs, Lack of in-house additive manufacturing resources,
Lack of expertise and/or training among workforce/employees, Limited
repeatability (accuracy from build to build), Lack of formal standards, Lack of
proven documentation of additive manufacturing’s capabilities, Software
development and capabilities, Longer production timelines, Limited
recyclability, Risk of litigation/legal implication, Data storage requirements
and others.
Enduring the physical and mental results of having a cancer diagnosis is only the beginning of the
battle. Cancer patients then need to manage difficult treatment cycles and
related side effects. The high measurements of radiation used to destroy tumour
cells can likewise harm neighbouring healthy tissues. Although major
improvements in radiation technology, for example,
intensity modulated radiation therapy have led to reduced
toxicity, these techniques have a tendency to be complex requiring a few
arranging steps and security checks before the patient can begin treatment. 3D
printing is promising to take care of some of these issues and help in
providing personalized cancer treatment.
Track 18: Design for 3D Printing
Designing for 3D printing can be different when compared to designing of other purposes.
Something that looks excellent in your CAD program could be difficult to print
which makes a frustrating experience for any Maker. So, there are some key
design rules to create an easily printable object
3D printing also called as additive manufacturing technology
where a three dimensional object is made by setting down progressive layers of
material. It is otherwise called rapid prototyping. It is an automated technique
whereby 3D objects are rapidly made on a sensibly estimated machine associated
with a PC containing blueprints for the object.
The 3D printing Market is required to achieve USD
30.19 Billion by 2022, at a CAGR of 28.5% somewhere around 2016 and 2022. The
market has been sectioned on the premise of printer, material form, material
shape, process, technology, software, service, application, vertical, and
geology. 3D printing is currently used to make complex parts, models
(quick prototyping), and little arrangement segments. Streamlining of creation
work process through computerized generation instruments, powder taking care of
and reusing capacities, and mobile production controls is filling the interest
for industrial printers. The base year considered for this report is 2015 and
the figure time frame is from 2016 to 2022.
Track 20: 3D Printing of Supply Chain Management
3D printing has played an important role in
transforming the supply chain over the previous decade. Its recent
sparkle in the general population eye is yet a flash contrasted with the impact
of the technology has in the background on the production floor. It is
affecting each phase of the product development lifecycle, from the product
itself to packaging, presentation, conveyance—and so on. In all the buildup, it
can be hard to remove the substantial benefits of the technology from the
dreamy, more futuristic tales. The real differences 3D printing is conveying to
the supply chain exist in five key territories.
Supporting Journals
International Journal of Advance Innovations, Thoughts & Ideas
All accepted abstracts will be published in respective Conference Series LLC LTD International Journals.
Abstracts will be provided with Digital Object Identifier by Cross ref
See more : https://3dprinting.insightconferences.com/
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