This document discusses 3D printing technology and its uses. It describes how 3D printing works by using a digital 3D design to build an object in layers by depositing material. The document outlines the benefits of 3D printing such as customization, complexity of designs, being tool-less, sustainability, and allowing imagination. It also provides details on the jewelkreator 3D printer such as its specifications, functions, applications in medicine, consumer goods, architecture, and industry.
Additive manufacturing, more professionally called rapid prototyping will bring us to a new reality of unusual and customizable object production. It involves the creation of a three dimensional object by laying down successive layers of materials. An automated method whereby 3D objects of realistic size are swiftly made on a reasonable sized machine connected to a computer containing blueprints for the objects. These physical working models are produced from a digital file by printing layer by layer. It helps to make substantial models of objects either designed using a CAD program or scanned using a 3D scanner. This ground-breaking method for creating models with the use of inkjet expertise saves time and cost by eliminating the need to design; print and amalgamate together separate model parts. Objects with different colors and multiple materials can be made out of these printers. This technology is not only used for prototyping but also helps in manufacturing right from home. It is used in a variety of industries including footwear, architecture, medical, aerospace, engineering and construction, and a number of consumer products. This industrial revolution bridges a gap between the cyberspace and the physical world and is therefore likely to play some part in all our futures.
Study on the Fused Deposition Modelling In Additive ManufacturingIJERD Editor
Additive manufacturing process, also popularly known as 3-D printing, is a process where a product
is created in a succession of layers. It is based on a novel materials incremental manufacturing philosophy.
Unlike conventional manufacturing processes where material is removed from a given work price to derive the
final shape of a product, 3-D printing develops the product from scratch thus obviating the necessity to cut away
materials. This prevents wastage of raw materials. Commonly used raw materials for the process are ABS
plastic, PLA and nylon. Recently the use of gold, bronze and wood has also been implemented. The complexity
factor of this process is 0% as in any object of any shape and size can be manufactured.
Both traditional and modern manufacturing methods have changed the face of the manufacturing industry over the years. But which method is best for the job at hand? Here's an overview of how the most common manufacturing methods compare.
Additive manufacturing, more professionally called rapid prototyping will bring us to a new reality of unusual and customizable object production. It involves the creation of a three dimensional object by laying down successive layers of materials. An automated method whereby 3D objects of realistic size are swiftly made on a reasonable sized machine connected to a computer containing blueprints for the objects. These physical working models are produced from a digital file by printing layer by layer. It helps to make substantial models of objects either designed using a CAD program or scanned using a 3D scanner. This ground-breaking method for creating models with the use of inkjet expertise saves time and cost by eliminating the need to design; print and amalgamate together separate model parts. Objects with different colors and multiple materials can be made out of these printers. This technology is not only used for prototyping but also helps in manufacturing right from home. It is used in a variety of industries including footwear, architecture, medical, aerospace, engineering and construction, and a number of consumer products. This industrial revolution bridges a gap between the cyberspace and the physical world and is therefore likely to play some part in all our futures.
Study on the Fused Deposition Modelling In Additive ManufacturingIJERD Editor
Additive manufacturing process, also popularly known as 3-D printing, is a process where a product
is created in a succession of layers. It is based on a novel materials incremental manufacturing philosophy.
Unlike conventional manufacturing processes where material is removed from a given work price to derive the
final shape of a product, 3-D printing develops the product from scratch thus obviating the necessity to cut away
materials. This prevents wastage of raw materials. Commonly used raw materials for the process are ABS
plastic, PLA and nylon. Recently the use of gold, bronze and wood has also been implemented. The complexity
factor of this process is 0% as in any object of any shape and size can be manufactured.
Both traditional and modern manufacturing methods have changed the face of the manufacturing industry over the years. But which method is best for the job at hand? Here's an overview of how the most common manufacturing methods compare.
Additive Manufacturing: 3D Printing--Past, Present, and Future360mnbsu
This presentation explored the foundation of ‘the next industrial revolution’ - how additive manufacturing systems such as 3D printers and 3D production systems are changing the future of product development and manufacturing. Mr. Fischer presented examples of how design engineers use 3D production systems for concept modeling and prototyping, but also how manufacturing engineers are now employing these technologies for various applications such as jigs, fixtures, check gauges, and even as a bridge-to-tooling and low-volume end-use parts.
From the 2013 Taking Shape Summit: Additive Manufacturing: 3D Printing--Beyond Rapid Prototyping.
This presentation describes in detail about 3d printing and various stages in it .. It also describes about organ printing.. how it is used in hummer , M1 tank, Xerox company .. This presentation can be useful to take seminars and paper presentations ..
A presentation I gave at UMass Lowell's Innovation Hub on how to 3D print for strength, fit and speed. Might not mean much without my audio, but mainly for the attendees to have a copy.
3D Printing Service Improves your business strategy and speeds up your innovation. It starts manufacturing high-quality products to cutting edge 3D printing technologies. The popularity of Metal 3D Printing goes to the variety of its materials.
Additive Manufacturing: 3D Printing--Past, Present, and Future360mnbsu
This presentation explored the foundation of ‘the next industrial revolution’ - how additive manufacturing systems such as 3D printers and 3D production systems are changing the future of product development and manufacturing. Mr. Fischer presented examples of how design engineers use 3D production systems for concept modeling and prototyping, but also how manufacturing engineers are now employing these technologies for various applications such as jigs, fixtures, check gauges, and even as a bridge-to-tooling and low-volume end-use parts.
From the 2013 Taking Shape Summit: Additive Manufacturing: 3D Printing--Beyond Rapid Prototyping.
This presentation describes in detail about 3d printing and various stages in it .. It also describes about organ printing.. how it is used in hummer , M1 tank, Xerox company .. This presentation can be useful to take seminars and paper presentations ..
A presentation I gave at UMass Lowell's Innovation Hub on how to 3D print for strength, fit and speed. Might not mean much without my audio, but mainly for the attendees to have a copy.
3D Printing Service Improves your business strategy and speeds up your innovation. It starts manufacturing high-quality products to cutting edge 3D printing technologies. The popularity of Metal 3D Printing goes to the variety of its materials.
3D Printing Devices From Principles to ApplicationDaniel Thomas
3D Printing is NOW a rapidly evolving technology consisting of many different methods for fabricating a new generation of advanced components and structures.
The most important aspect of this technology is that 3D Printing becomes a sustainable, scalable and viable future manufacturing method.
Research focuses on making complex components from a range of innovative and functional materials. These are being used to make new machines and functioning devices.
This lecture will consider the different 3D Printing technologies being developed.
What is 3D printing , How Does 3D Printing Work , Types of 3d printing , The History of 3D Printing , 3D Printing Technologies , Common manufactures of 3D printing , 3D Printing Materials , 3D Printing Common applications , Things can't be 3D Printed , By Eng. Osama Ghandour
#WhatIs3DPrinting , #HowDoes3DPrintingWork , #TypesOf3dPrinting , #TheHistoryOf3DPrinting , #3DPrintingTechnologies , #CommonManufacturesOf3DPrinting , #3DPrintingMaterials , #3DPrintingCommonApplications , #ThingsCan'tBe3DPrinted , #ByEng.OsamaGhandour ,
3DPrinting Technologies
echnologiesthatbuild3Dobjectsbyaddinglayer-upon-layerofmaterial,whetherthematerialisplastic,metal,concreteoranycompositematerials. There are three types of Printer.
1.Stereo lithography (SLA)
2.Selective laser sintering (SLS)
3.Fused deposition modeling (FDM)
3D Printing Technology PPT by ajaysingh_02AjaySingh1901
This PPT make on 3D printing Technology or additive manufacturing in which we cover the need, history importants, future scope, trend before the 3DP, advantage and disadvantage, limitations, application of 3DP
3D Printing - A Manufacturing RevolutionMichael Hu
The question is not if but when companies need to consider 3D printing. A.T. Kearney is helping forward-thinking players overcome the challenges and take advantage of powerful opportunities in this next generation of manufacturing.
3D printing, also known as additive printing technology, allows manufacturers to develop objects using a digital file and variety of printing materials.
Application of 3 d printing in construction management (1) (1)adarshkaushik6
This ppt is completely about 3d printing and its application in construction. This ppt is done by students of Thiagarajar college of engineering Madurai.
It is a group of technologies that build 3D objects by adding layer-upon-layer of materials where the material may be plastic, metal, concrete even in future it may be human tissues also.
By group of technologies we mean 3D Printing, Rapid Prototyping (RP), Direct Digital Manufacturing (DDM), layered manufacturing and additive fabrication here.
Similar to 3D Printing Additive Manufacturing (20)
State of ICS and IoT Cyber Threat Landscape Report 2024 previewPrayukth K V
The IoT and OT threat landscape report has been prepared by the Threat Research Team at Sectrio using data from Sectrio, cyber threat intelligence farming facilities spread across over 85 cities around the world. In addition, Sectrio also runs AI-based advanced threat and payload engagement facilities that serve as sinks to attract and engage sophisticated threat actors, and newer malware including new variants and latent threats that are at an earlier stage of development.
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The Art of the Pitch: WordPress Relationships and SalesLaura Byrne
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LF Energy Webinar: Electrical Grid Modelling and Simulation Through PowSyBl -...DanBrown980551
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UiPath Test Automation using UiPath Test Suite series, part 3DianaGray10
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2. introduction
• What is Additive Manufacturing and its uses?
Additive Manufacturing refers to a process by which
digital 3D design data is used to build up a component in
layers by depositing material. The term "3D printing" is
increasingly used as a synonym for Additive Manufacturing.
However, the latter is more accurate in that it describes
a professional production technique which is clearly
distinguished from conventional methods of material removal.
Instead of milling a work piece from solid block
www.jewelkreator.com
3. 3D printing Technology
• 3D printing or additive manufacturing is a process of making
three dimensional solid objects from a digital file.
• In an additive process an object is created by laying down
successive layers of material until the entire object is created.
• A 3D printer is a type of industrial robot.
www.jewelkreator.com
5. Stereolithography
• Stereolithography is an additive manufacturing process
that works by focusing an ultraviolet (UV) laser on to a vat of
photopolymer resin.
www.jewelkreator.com
6. How does 3D printing work?
Step 1
• It all starts with making a virtual design of the object you
want to create. This virtual design is made in a CAD
(Computer Aided Design)
Step 2
• Once completed, the STL file needs to be processed by a piece
of software called a "slicer," which converts the model into a
series of thin layers and produces a G-code file.
Step 3
• This G-code file can then be printed with 3D printing
software
www.jewelkreator.com
7. How does 3D printing work?
www.jewelkreator.com
8. 3D Printing Benefits & Value
• Customization
3D printing processes allow for mass customization — the
ability to personalize products according to individual needs
and requirements.
• Complexity
it has also made a significant impact on industrial
applications, whereby applications are being developed to
materialize complex components that are proving to be both
lighter and stronger than their predecessors. Notable uses are
emerging in the aerospace sector where these issues are of
primary importance.
www.jewelkreator.com
9. 3D Printing Benefits & Value
• Tool-less
For industrial manufacturing, one of the most cost-, time-
and labor-intensive stages of the product development
process is the production of the tools. For low to medium
volume applications, industrial 3D printing — or additive
manufacturing — can eliminate the need for tool production
and, therefore, the costs, lead times and labor associated
with it.
www.jewelkreator.com
10. 3D Printing Benefits & Value
• Sustainable / Environmentally Friendly
3D printing is also emerging as an energy-efficient technology
that can provide environmental efficiencies in terms of both
the manufacturing process itself, utilizing up to 90% of
standard materials, and, therefore, creating less waste, but
also throughout an additively manufactured product’s
operating life, by way of lighter and stronger design that
imposes a reduced carbon footprint compared with
traditionally manufactured products.
www.jewelkreator.com
11. 3D Printing Benefits & Value
• Build your Imagination
In the modern boom of digital art and design, the possibilities
are not only accelerating but limitless. One can now 3D print
almost anything they imagine after drawing it up virtually. In
a relatively short time, an idea, concept, dream or invention
can go from a simple thought to a produced part that you can
hold.
www.jewelkreator.com
12. Functionality of jewelkreator
Continuous high speed printing without
compromising quality
Excellent repeatability
Excellent smooth surface
Fastest cycle time
Direct casting
Easy to remove pointed support
Long life led source
www.jewelkreator.com
13. Specification
• Platform size : 100mm*58mm*200mm
4.00inch*2.30inch*8.00inch
• Slice thickness: 0.01-.010mm
• Building speed : 45mm per hour
• Led life: 30,000 hours
• Accuracy : 10 micron to 50 micron
www.jewelkreator.com
14. Application Area
• Medical Implants
3D printers can be used to manufacture medical devices
with a range of functional enhancements. Current
developments include surface coatings for improved wear
resistance, and 5-axis toolpath generation to coat complex 3-
dimensional surfaces.
www.jewelkreator.com