The document discusses 3D printing technology. It begins with an overview of how 3D printing works by taking a digital CAD file and building an object layer by layer. It then provides a brief history of 3D printing and projections for significant growth in the industry. The document outlines several common uses of 3D printing including concept modeling, functional prototyping, manufacturing tools, and end-use parts. It also describes various applications of 3D printing in fields such as medical, food, entertainment, DIY, defense, fashion, and more. Finally, it presents scenarios for how 3D printing could be used, such as printing an entire movable home or the first 3D printed human.
3D printing has applications beyond creating small plastic trinkets. It is being used to create customized prosthetics and has potential applications in medicine like printing drugs, bones, and eventually full organs. Researchers are working on 3D printers that could print drugs at a molecular level, print bone scaffolds to help regenerate bone, and print organs which could transform how the healthcare system manages donors and waitlists. 3D printing technology is rapidly advancing and may eventually allow doctors to print full organs for patients within hours instead of months or years.
3D Printing in India: Show me the money! TGP2015Anindo Ghosh
3D printing has generated significant hype but also faces realities and challenges. While it may revolutionize manufacturing in some ways, instant printing of anything at home remains unlikely. Opportunities exist for both individuals and businesses in 3D printing services and applications across industrial, casual, scientific, and medical areas. However, technological obsolescence, regulatory barriers, and disruptive new technologies pose threats. Individual freelancing rates range from Rs. 500-5000 per hour while full-service business models could yield returns of 5-30% annually on investments of Rs. 2-40 crore.
Selecting The Right 3D Printer for the JobDesign World
Technology advances have made 3D printing a viable solution to meet today’s demands for design iterations and cost restraints. As such, the landscape of 3D printing machines comes in a range of prices and features. The leading major 3D printer vendors will discuss and explore your questions on the best printer for your specific needs, ranging from prototyping versus production, individual use versus group use, finish needs, and more.
“It is not craft as ‘handicraft’ that defines contemporary craftsmanship: it is craft as knowledge that empowers a maker to take charge of technology.” (Peter Dormer). This SlideShare is an introduction to 3D printing, illustrated with just a very small selection of appplications, mostly within applied art and designer making. Hoping this is inspirational and encourages you to try it out for yourself!
This presentatation is all about emergence of 3D Printing Technology in India.Many companies today use 3D Printing in their manufacturing process be it field of jewellery or automobiles,it all become the most sought processing material
Help me build an international 3D printing community. Come here weekly to check out the latest trends, stats, and samples in 3D printing. Comments are welcome!
Innovation Roundtable: The (actual and potential) impacts of 3D printing on b...Tim Minshall
3D printing (also known as Additive Manufacturing) has attracted a huge amount of interest. Some commentators believe that this technology has the potential to underpin a 'manufacturing revolution'. The truth is more complex and nuanced. 3D printing is not a single technology; it’s current application areas are numerous; and the impact it could have in a variety of sectors is hindered by multiple uncertainties. Researchers at the University of Cambridge and the University of Nottingham have been researching the ways in which 3D printing is changing current business models in a variety of sectors, and exploring the way in which these technologies could have a wider impact. This same team has also been gathering evidence to support the development of a UK national strategy for 3D printing / additive manufacturing. This presentation will provide an overview of the results of this research on 3D printing-enabled business model innovation, and highlight some of the current barriers and opportunities.
This document discusses 3D printing technology. It begins with a brief overview of how 3D printing works by building objects layer by layer from a digital file. It then provides a history of 3D printing, highlighting key developments. Examples are given of different uses for 3D printing, such as concept modeling, functional prototyping, manufacturing tools, end use parts, and more. Projections for significant growth in the 3D printing industry are mentioned. Notable 3D printer manufacturers and specific printer models are listed, along with potential future applications and scenarios involving 3D printing technology.
3D printing has applications beyond creating small plastic trinkets. It is being used to create customized prosthetics and has potential applications in medicine like printing drugs, bones, and eventually full organs. Researchers are working on 3D printers that could print drugs at a molecular level, print bone scaffolds to help regenerate bone, and print organs which could transform how the healthcare system manages donors and waitlists. 3D printing technology is rapidly advancing and may eventually allow doctors to print full organs for patients within hours instead of months or years.
3D Printing in India: Show me the money! TGP2015Anindo Ghosh
3D printing has generated significant hype but also faces realities and challenges. While it may revolutionize manufacturing in some ways, instant printing of anything at home remains unlikely. Opportunities exist for both individuals and businesses in 3D printing services and applications across industrial, casual, scientific, and medical areas. However, technological obsolescence, regulatory barriers, and disruptive new technologies pose threats. Individual freelancing rates range from Rs. 500-5000 per hour while full-service business models could yield returns of 5-30% annually on investments of Rs. 2-40 crore.
Selecting The Right 3D Printer for the JobDesign World
Technology advances have made 3D printing a viable solution to meet today’s demands for design iterations and cost restraints. As such, the landscape of 3D printing machines comes in a range of prices and features. The leading major 3D printer vendors will discuss and explore your questions on the best printer for your specific needs, ranging from prototyping versus production, individual use versus group use, finish needs, and more.
“It is not craft as ‘handicraft’ that defines contemporary craftsmanship: it is craft as knowledge that empowers a maker to take charge of technology.” (Peter Dormer). This SlideShare is an introduction to 3D printing, illustrated with just a very small selection of appplications, mostly within applied art and designer making. Hoping this is inspirational and encourages you to try it out for yourself!
This presentatation is all about emergence of 3D Printing Technology in India.Many companies today use 3D Printing in their manufacturing process be it field of jewellery or automobiles,it all become the most sought processing material
Help me build an international 3D printing community. Come here weekly to check out the latest trends, stats, and samples in 3D printing. Comments are welcome!
Innovation Roundtable: The (actual and potential) impacts of 3D printing on b...Tim Minshall
3D printing (also known as Additive Manufacturing) has attracted a huge amount of interest. Some commentators believe that this technology has the potential to underpin a 'manufacturing revolution'. The truth is more complex and nuanced. 3D printing is not a single technology; it’s current application areas are numerous; and the impact it could have in a variety of sectors is hindered by multiple uncertainties. Researchers at the University of Cambridge and the University of Nottingham have been researching the ways in which 3D printing is changing current business models in a variety of sectors, and exploring the way in which these technologies could have a wider impact. This same team has also been gathering evidence to support the development of a UK national strategy for 3D printing / additive manufacturing. This presentation will provide an overview of the results of this research on 3D printing-enabled business model innovation, and highlight some of the current barriers and opportunities.
This document discusses 3D printing technology. It begins with a brief overview of how 3D printing works by building objects layer by layer from a digital file. It then provides a history of 3D printing, highlighting key developments. Examples are given of different uses for 3D printing, such as concept modeling, functional prototyping, manufacturing tools, end use parts, and more. Projections for significant growth in the 3D printing industry are mentioned. Notable 3D printer manufacturers and specific printer models are listed, along with potential future applications and scenarios involving 3D printing technology.
The document discusses different types of 3D printing technologies including stereolithography (SLA), digital light processing (DLP), fused deposition modeling (FDM), selective laser sintering (SLS), selective laser melting (SLM), electron beam melting (EBM), laminated object manufacturing (LOM), and binder jetting (BJ). It provides details on the processes, materials used, applications, and advantages/disadvantages of each type.
3D printing is an advanced form of printing that builds three-dimensional objects from a digital file. The document outlines the history of printing from wooden block printing to modern techniques like laser printing. It then discusses the evolution of 3D printing from its early concepts in the 1970s to recent advancements. The document explains the 3D printing process and common methods like selective laser sintering and stereolithography. It discusses applications of 3D printing in industries like automotive, medical, and food as well as the role of 3D printing in Industry 4.0. The document also covers the size, cost and impacts of 3D printers as well as advantages, disadvantages, and future scope.
seminar report on 3d printing Shubham srivastavaofficiallyshubh
This document is a seminar report on 3D printing submitted by Shubham Srivastava to his professor Anuj Gupta. It includes an introduction to 3D printing, its history, sustainable aspects, materials used, general printing principles and applications. The report acknowledges those who helped with the seminar and provides an abstract, table of contents, and sections on the various topics relating to 3D printing.
3D printing is a process that creates three-dimensional objects from a digital file by depositing material layer by layer. It allows for quick production of customized objects without the constraints of traditional manufacturing. The most common type of 3D printer uses fused filament fabrication, which heats and extrudes plastic filament through a nozzle to build an object layer by layer. 3D printing offers advantages over conventional manufacturing like low-cost production of customized goods and on-demand creation without logistics.
This document provides an agenda for a discussion on 3D printing. It covers the origin and development of 3D printing technologies. It discusses how 3D printing is experiencing multidimensional growth and its evolution and major milestones. The document explores reasons for hype around 3D printing and where it falls on the technology hype cycle. It also looks at how 3D printing is supported by CEO business priorities and profiles major players in the industry.
This document provides an overview of the 3D printing industry. It discusses the various 3D printing methods like stereolithography, fused deposition modeling, and selective laser sintering. It also outlines the market size, key players, and industries utilizing 3D printing. The 3D printing industry is still small relative to global manufacturing but is expected to grow significantly in the coming years as applications expand in areas like healthcare, consumer products, and industrial design.
3D printer Technology _ A complete presentationVijay Patil
3D printing is a process of making 3D objects from a digital file by laying down successive layers of material. The first 3D printer was created in 1984 by Charles Hull. Since then, 3D printing has advanced and become used in many industries like industrial design, automotive, aviation, architecture, food preparation, and medicine. There are different 3D printing methods like selective laser sintering, stereolithography, and fused deposition modeling. While 3D printing provides advantages like rapid prototyping, reduced waste, and ability to create complex shapes, it also faces challenges like slow speeds, weak components, and high costs of materials and printers. However, 3D printing is expected to become more commonplace in the future
What Can 3D Printing Be Used For? Here Are 10 Amazing ExamplesBernard Marr
3D printing technology is advancing very rapidly, and today, it can be used to print many more things than most people realize. In this article, we look at ten innovative examples of what's possible today.
The document discusses 3D printing from an investment firm's perspective. It provides an overview of 3D printing, including its history, key players in the market, and potential areas of application. It then examines different viewpoints on whether 3D printing is just a buzzword or could revolutionize manufacturing. While some see it as a gimmick, optimists believe 3D printing will hybridize with conventional manufacturing as its costs decrease and capabilities increase.
The document announces an international conference on 3D printing and medicine to be held October 5-6, 2017 in Las Vegas, Nevada. The conference aims to promote knowledge sharing among professionals, researchers, industrialists, surgeons and students working in 3D printing. It will feature presentations on recent advancements in additive manufacturing, 3D bioprinting, engineered materials, and 3D imaging. Attendees will have opportunities to meet reputed designers and surgeons, and selected contributions will be published in a journal.
FARO 2014 3D Documentation Presentation by Direct Dimensions "3D Scanning for...Direct Dimensions, Inc.
Presentation at the 2014 FARO 3D Documentation Conference by Direct Dimensions called "3D Scanning for 3D Printing, Making Reality Digital, and then Physical Again, Part 2"
3D printing or additive manufacturing is a process of making three dimensional solid objects from a digital file. The creation of a 3D printed object is achieved using additive processes. In an additive process an object is created by laying down successive layers of material until the entire object is created. Each of these layers can be seen as a thinly sliced horizontal cross-section of the eventual object.
The document discusses the history and process of 3D printing. 3D printing, also known as additive manufacturing, is a process where a 3D object is created by laying down successive layers of material under computer control. The first 3D printer was created in 1984 by Charles Hull and worked by a technique called stereolithography. Today, there are several methods for 3D printing including selective laser sintering (SLS), stereolithography (SL), and fused deposition modeling (FDM). 3D printing has applications in industries such as medicine, architecture, industrial design, food, games and more.
3D Printing Presentation - 3D Printing 2.0 Kevin Vaughan
3D printer presentation. See what is new with 3D Printing 2.0. 3D Systems has unleashed a new breed of systems. See how this incredible technology is impacting a wide range of industries and users.
3D printing is a process of making 3D objects from digital files. It works by extruding molten plastic through a nozzle onto the build platform, layer by layer, until an object is complete. While entry-level 3D printers can be purchased for around 15,000 INR, costs vary significantly depending on features and quality. 3D printing has a wide variety of applications across industries like jewelry, gifts, automotive, construction, medical, aerospace, education, and more. Common materials used include plastics like PLA and ABS, but metals and other advanced materials are also options.
Zara aims to implement 3D scanning and printing at its flagship NYC store to test more sustainable manufacturing. The project would place 30 3D printers across 3 floors to allow customers to scan, customize, and print garments on-site in minutes. This could shorten Zara's supply chain and reduce waste compared to traditional manufacturing. If successful, the concept could influence other brands to incorporate 3D printing and move the fashion industry towards greater sustainability.
3D digital modelling and 3D printing: the case for using Anarkik3D's 3D haptic Cloud9 sketch/modelling software to assess these technologies for the non CAD user, the artist, applied artist, designer markers and all creative people.
The latest Top 10 from the Rassed research program explore different ways in which 3D printing is currently being used across the world.
Anticipated to become a mainstream technology in the near future, these slides show that 3D printing is already having an impact - with more to innovations and benefits envisaged in the coming years.
3D printing, also known as additive manufacturing, involves using computer-aided design to create three-dimensional solid objects by depositing material layer by layer. It was invented in 1984 and allows for complex shapes to be produced quickly and with less waste than traditional manufacturing. 3D printers work by taking a digital file and building the object layer by layer, with some common types being selective laser sintering, stereolithography, and fused deposition modeling. 3D printing has many applications in fields like engineering, industrial design, automotive, aerospace, medical, dental and jewelry manufacturing.
Designing is good, but the prototype is very important,
the role of 3-d printing in prototyping is defined in this presentation,
its a collection of knowledge,
find the references at end for more information
This document describes 'Canes Care, a University of Miami initiative to promote student well-being and success. 'Canes Care encourages a culture of caring within the student community and empowers students to support each other. It provides anonymous reporting, emergency contacts, and information on campus resources. 'Canes Care works with various university departments and student groups to identify and help students facing obstacles through communication, referrals, and follow up. The goal is to create a safe, welcoming environment where all students can fully participate in their academic experience.
The document discusses different types of 3D printing technologies including stereolithography (SLA), digital light processing (DLP), fused deposition modeling (FDM), selective laser sintering (SLS), selective laser melting (SLM), electron beam melting (EBM), laminated object manufacturing (LOM), and binder jetting (BJ). It provides details on the processes, materials used, applications, and advantages/disadvantages of each type.
3D printing is an advanced form of printing that builds three-dimensional objects from a digital file. The document outlines the history of printing from wooden block printing to modern techniques like laser printing. It then discusses the evolution of 3D printing from its early concepts in the 1970s to recent advancements. The document explains the 3D printing process and common methods like selective laser sintering and stereolithography. It discusses applications of 3D printing in industries like automotive, medical, and food as well as the role of 3D printing in Industry 4.0. The document also covers the size, cost and impacts of 3D printers as well as advantages, disadvantages, and future scope.
seminar report on 3d printing Shubham srivastavaofficiallyshubh
This document is a seminar report on 3D printing submitted by Shubham Srivastava to his professor Anuj Gupta. It includes an introduction to 3D printing, its history, sustainable aspects, materials used, general printing principles and applications. The report acknowledges those who helped with the seminar and provides an abstract, table of contents, and sections on the various topics relating to 3D printing.
3D printing is a process that creates three-dimensional objects from a digital file by depositing material layer by layer. It allows for quick production of customized objects without the constraints of traditional manufacturing. The most common type of 3D printer uses fused filament fabrication, which heats and extrudes plastic filament through a nozzle to build an object layer by layer. 3D printing offers advantages over conventional manufacturing like low-cost production of customized goods and on-demand creation without logistics.
This document provides an agenda for a discussion on 3D printing. It covers the origin and development of 3D printing technologies. It discusses how 3D printing is experiencing multidimensional growth and its evolution and major milestones. The document explores reasons for hype around 3D printing and where it falls on the technology hype cycle. It also looks at how 3D printing is supported by CEO business priorities and profiles major players in the industry.
This document provides an overview of the 3D printing industry. It discusses the various 3D printing methods like stereolithography, fused deposition modeling, and selective laser sintering. It also outlines the market size, key players, and industries utilizing 3D printing. The 3D printing industry is still small relative to global manufacturing but is expected to grow significantly in the coming years as applications expand in areas like healthcare, consumer products, and industrial design.
3D printer Technology _ A complete presentationVijay Patil
3D printing is a process of making 3D objects from a digital file by laying down successive layers of material. The first 3D printer was created in 1984 by Charles Hull. Since then, 3D printing has advanced and become used in many industries like industrial design, automotive, aviation, architecture, food preparation, and medicine. There are different 3D printing methods like selective laser sintering, stereolithography, and fused deposition modeling. While 3D printing provides advantages like rapid prototyping, reduced waste, and ability to create complex shapes, it also faces challenges like slow speeds, weak components, and high costs of materials and printers. However, 3D printing is expected to become more commonplace in the future
What Can 3D Printing Be Used For? Here Are 10 Amazing ExamplesBernard Marr
3D printing technology is advancing very rapidly, and today, it can be used to print many more things than most people realize. In this article, we look at ten innovative examples of what's possible today.
The document discusses 3D printing from an investment firm's perspective. It provides an overview of 3D printing, including its history, key players in the market, and potential areas of application. It then examines different viewpoints on whether 3D printing is just a buzzword or could revolutionize manufacturing. While some see it as a gimmick, optimists believe 3D printing will hybridize with conventional manufacturing as its costs decrease and capabilities increase.
The document announces an international conference on 3D printing and medicine to be held October 5-6, 2017 in Las Vegas, Nevada. The conference aims to promote knowledge sharing among professionals, researchers, industrialists, surgeons and students working in 3D printing. It will feature presentations on recent advancements in additive manufacturing, 3D bioprinting, engineered materials, and 3D imaging. Attendees will have opportunities to meet reputed designers and surgeons, and selected contributions will be published in a journal.
FARO 2014 3D Documentation Presentation by Direct Dimensions "3D Scanning for...Direct Dimensions, Inc.
Presentation at the 2014 FARO 3D Documentation Conference by Direct Dimensions called "3D Scanning for 3D Printing, Making Reality Digital, and then Physical Again, Part 2"
3D printing or additive manufacturing is a process of making three dimensional solid objects from a digital file. The creation of a 3D printed object is achieved using additive processes. In an additive process an object is created by laying down successive layers of material until the entire object is created. Each of these layers can be seen as a thinly sliced horizontal cross-section of the eventual object.
The document discusses the history and process of 3D printing. 3D printing, also known as additive manufacturing, is a process where a 3D object is created by laying down successive layers of material under computer control. The first 3D printer was created in 1984 by Charles Hull and worked by a technique called stereolithography. Today, there are several methods for 3D printing including selective laser sintering (SLS), stereolithography (SL), and fused deposition modeling (FDM). 3D printing has applications in industries such as medicine, architecture, industrial design, food, games and more.
3D Printing Presentation - 3D Printing 2.0 Kevin Vaughan
3D printer presentation. See what is new with 3D Printing 2.0. 3D Systems has unleashed a new breed of systems. See how this incredible technology is impacting a wide range of industries and users.
3D printing is a process of making 3D objects from digital files. It works by extruding molten plastic through a nozzle onto the build platform, layer by layer, until an object is complete. While entry-level 3D printers can be purchased for around 15,000 INR, costs vary significantly depending on features and quality. 3D printing has a wide variety of applications across industries like jewelry, gifts, automotive, construction, medical, aerospace, education, and more. Common materials used include plastics like PLA and ABS, but metals and other advanced materials are also options.
Zara aims to implement 3D scanning and printing at its flagship NYC store to test more sustainable manufacturing. The project would place 30 3D printers across 3 floors to allow customers to scan, customize, and print garments on-site in minutes. This could shorten Zara's supply chain and reduce waste compared to traditional manufacturing. If successful, the concept could influence other brands to incorporate 3D printing and move the fashion industry towards greater sustainability.
3D digital modelling and 3D printing: the case for using Anarkik3D's 3D haptic Cloud9 sketch/modelling software to assess these technologies for the non CAD user, the artist, applied artist, designer markers and all creative people.
The latest Top 10 from the Rassed research program explore different ways in which 3D printing is currently being used across the world.
Anticipated to become a mainstream technology in the near future, these slides show that 3D printing is already having an impact - with more to innovations and benefits envisaged in the coming years.
3D printing, also known as additive manufacturing, involves using computer-aided design to create three-dimensional solid objects by depositing material layer by layer. It was invented in 1984 and allows for complex shapes to be produced quickly and with less waste than traditional manufacturing. 3D printers work by taking a digital file and building the object layer by layer, with some common types being selective laser sintering, stereolithography, and fused deposition modeling. 3D printing has many applications in fields like engineering, industrial design, automotive, aerospace, medical, dental and jewelry manufacturing.
Designing is good, but the prototype is very important,
the role of 3-d printing in prototyping is defined in this presentation,
its a collection of knowledge,
find the references at end for more information
This document describes 'Canes Care, a University of Miami initiative to promote student well-being and success. 'Canes Care encourages a culture of caring within the student community and empowers students to support each other. It provides anonymous reporting, emergency contacts, and information on campus resources. 'Canes Care works with various university departments and student groups to identify and help students facing obstacles through communication, referrals, and follow up. The goal is to create a safe, welcoming environment where all students can fully participate in their academic experience.
This document discusses Jacob Robertson's use of social media platforms. Jacob uses Facebook to share information and photos with connections. He also uses Instagram to share photos and Twitter to share information and photos.
I. During a promotional period from November 2016 to December 2016 across several stores in Hyderabad, Trichy, Thrissur and Chennai, there was an average increase in new customers of 16% compared to non-promotional periods, and conversion rates increased from 41% to 43%.
II. However, additional costs were incurred due to longer store hours and voucher redemption times tying up cashiers. There were also issues with activation delays and manual work required.
III. Analysis of the data found ways to potentially improve the promotion through clientele-focused designs, targeting private labels, using mobile coupons, and gaining store team input on suggestions and effectiveness.
This document defines key vocabulary terms related to population studies, including birth rate, death rate, natural increase, infant mortality rate, life expectancy, and fertility rate. It also covers concepts like dependent population, population density, population distribution, and overpopulation and underpopulation. Family planning methods, population pyramids, and the aging population phenomenon are additionally defined.
This document discusses the impact of 3D printing on the value chain. It begins with an introduction to Berenschot, a Dutch consulting firm with experience in 3D printing. The document then outlines the benefits of 3D printing such as lower costs, better design capabilities, and new business models. It also notes obstacles like costs and lack of standards. The main impact of 3D printing is on each step of the value chain from product development to supply chains to new business models. Examples are provided to illustrate how 3D printing improves production efficiency and enables new supply chain approaches. New types of business models are also emerging from 3D printing's abilities.
This document lists several recreational activities to do on a day off including playing golf, going to the swimming pool, doing puzzles, watching a film, going for a walk, going shopping, and going rollerblading.
3D printing, also known as additive manufacturing, uses computer-aided design (CAD) software to create 3D objects by depositing material in successive layers. It was invented in 1984 and has since been used for medical applications like creating human organs and prosthetics. The 3D printing industry is projected to grow 300% over the next 7 years. 3D printing offers benefits for concept modeling, functional prototyping, manufacturing tools, durable parts, and finishing applications. It has uses in industries like medical, defense, fashion, food, and entertainment.
This document provides an overview of 3D printing, including its history, technologies, applications, effects, and challenges. It describes how 3D printing works by using computer-aided design to create a 3D model that is built up in layers, with different methods using materials like plastic, powder, or resin. Applications discussed include fashion, entertainment, medicine, and space exploration. Challenges addressed are intellectual property issues and potential misuse, though advantages are noted as flexibility, rapid prototyping, and cost effectiveness. The conclusion discusses the technology's promising future in areas like medicine, arts, and manufacturing.
3D printing, also known as additive manufacturing (AM), refers to various processes used to synthesize a three-dimensional object.[1] In 3D printing, successive layers of material are formed under computer control to create an object.[2] These objects can be of almost any shape or geometry and are produced from a 3D model or other electronic data source. A 3D printer is a type of industrial robot.
3D printing, also known as additive manufacturing, is a process where 3D objects are created by laying down successive layers of material from a digital file. It works by using 3D modeling software to first design the virtual object, then a 3D printer builds it by laying down layers of material one by one, such as polymers, metals, or powders. There are several types of 3D printing that use different materials and techniques like stereolithography, fused deposition modeling, and selective laser sintering. 3D printing has many applications in industries like automotive, aerospace, medical, and prosthetics by allowing for customized parts, rapid prototyping, and reduced costs compared to traditional manufacturing. While it offers advantages
3D printing, also known as additive manufacturing, is a process that converts digital files into physical 3D objects by printing layer upon layer of material. The document discusses the history of 3D printing, how it works, different types of 3D printers and materials used, applications, challenges, and future possibilities, such as printing replacement organs. The emerging technology has the potential to transform manufacturing by allowing individuals to manufacture products themselves and significantly reducing development cycles for companies.
Printing involves reproducing text and images. There are various printer types like dot matrix, inkjet, and laser. 3D printing creates physical objects by laying down successive layers of material from a 3D digital file. The first 3D printer was developed in 1984 and since then 3D printing technology has advanced, allowing for rapid prototyping in fields like industrial design, automotive, aviation, architecture, medicine, and more. 3D printing provides advantages like low waste and ability to produce complex shapes, though the process can be slow.
3d printing on how it can help people with learning disabilities. it can help people with life it can also print body limbs so people can have an arm or a leg if they lost their arm or leg. it really has an impact on the world to make that one simple change and make the world better.
3D printing, also known as additive manufacturing, involves laying down successive layers of material to build a three-dimensional object from a digital model. The technology was first developed in 1984 by Charles Hull and has since evolved to include techniques like fused deposition modeling, selective laser sintering, and stereolithography. 3D printing has applications in industries like automotive, aerospace, medical, fashion, and more due to its ability to quickly produce customized components and parts. It has the potential to revolutionize manufacturing by enabling mass customization and personalized production.
3D printing allows for the creation of physical objects from 3D model data. It works by laying down successive layers of material under computer control. There are several types of 3D printing technologies that differ in the materials and processes used. 3D printing brings advantages like rapid prototyping, reduced design complexity, and ability to produce complex shapes. However, it also faces disadvantages such as slow speeds, limited strength of printed parts, and high costs of materials and equipment. 3D printing has applications in fields such as industrial design, medical, automotive, aerospace, architecture, entertainment and more. The future of 3D printing is promising as technologies advance and costs reduce.
The document provides an overview of 3D printing technology. It discusses the history and various processes of 3D printing, including fused deposition modeling, stereolithography, and selective laser sintering. It outlines applications such as concept modeling, functional prototyping, manufacturing tools, and manufacturing drones and robots. The document also discusses achievements in 3D printing like the Liberator gun and 3D printed houses, and explores uses of 3D printing in biomedical applications like customized casts and prosthetics.
Help me build an international 3D printing community. Come here weekly to check out the latest trends, stats, and samples in 3D printing. Comments are welcome!
3D printing, also known as additive manufacturing, is a process that creates three-dimensional objects by depositing material layer by layer based on a digital file. The document discusses the history and methods of 3D printing, including selective laser sintering, fused deposition modeling, and stereo lithography. Applications of 3D printing discussed include fashion, medical devices, entertainment, architecture, aerospace, and more.
This document summarizes a seminar on additive manufacturing (AM) presented by Ankush Kalia. It defines AM as a process that builds 3D objects by joining materials layer by layer under computer control using a 3D printer. The key steps in AM are modeling, printing, and finishing. Different AM methods are classified and compared in terms of design flexibility, cost of complexity, accuracy, assembly needs, and production efficiency. Capabilities of AM like multi-material printing and applications in areas like rapid prototyping, food, apparel, vehicles, firearms, medicine, bioprinting, space, and education are discussed. Current barriers to AM like scalability, resolution, material properties, and reliability are also presented
This document summarizes a seminar on additive manufacturing (AM), also known as 3D printing. It discusses what AM is, the basic principles including modeling, printing and finishing, and different AM methods. Comparisons are made between AM and traditional manufacturing in terms of design flexibility, cost of complexity, accuracy, assembly needs, and production efficiency. Capabilities of AM are showcased through examples. Applications of AM discussed include rapid prototyping, food, apparel, vehicles, firearms, medicine, bioprinting, space, and education. Current barriers to AM are identified as issues of scale between personal use and mass production, tradeoffs between build size and resolution, and limitations of materials.
3D printing or additive manufacturing is a process that creates 3D objects from digital files. It starts with a virtual 3D model created in CAD software or scanned from an existing object. There are several types of 3D printing technologies classified by the ASTM group that build objects by depositing or bonding materials in layers. 3D printing was invented in 1983 and has applications in industries like manufacturing, healthcare, and aerospace, allowing for customized parts and implants to be produced. The technology is expected to transform many industries and aspects of everyday life.
This document provides an overview of 3D printing. It discusses the history of 3D printing, which began in 1984 when Chuck Hull developed the first 3D printing technique called stereolithography. It then explains the basic principles and methods of 3D printing, such as fused deposition modeling and selective laser sintering. The document outlines some key advantages like rapid prototyping and mass customization, as well as potential disadvantages like regulatory issues. It also gives examples of applications in healthcare, prosthetics, and other industries.
How To Make Money With 3D Printing: An Overview Of The 3D Printing Industry A...Jeffrey Ito
3D printing is a budding technology industry that can not be ignored. Even today there are advancements in 3D printing that are changing the way we manufacture goods. It would be imperative to know and understand the fundamentals behind what is causing the signs of the third industrial revolution.
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)
Help me build an international 3D printing community. Come here weekly to check out the latest trends, stats, and samples in 3D printing. Comments are welcome!
This document provides an overview of 3D printing. It discusses the history of 3D printing, which began in 1984 with the development of stereolithography. It then defines 3D printing as a form of additive manufacturing that creates three-dimensional objects by laying down successive layers of material. The document outlines several common 3D printing methods like stereolithography, selective laser sintering, and fused deposition modeling. It also discusses the advantages and disadvantages of 3D printing, as well as applications in industries like healthcare, engineering, and consumer products.
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2. “3D printing” or “Additive Manufacturing” takes digital input in the form of
Computer Aided Design (CAD) model and creates solid, three dimensional
parts through an additive, layer by layer process.
3. A person creates a 3D image
of an item using a computer-
aided design (CAD) software
program.
The CAD information is sent
to the printer.
The printer forms the item
by depositing the material in
layers—starting from the
bottom layer—onto a
platform. In some cases light
or lasers are used to harden
the material.
How Does It Work?
4. 1984 - 86
Charles Hull invents 3D printing and coins the
term “Stereo Lithography”
1992
First 3D printer built by 3D Systems
1999
First application of 3D printing in the medical field
- creating the human bladder
History
5. 2000
Miniature human kidney created through 3D
printing
2006
The Selective Laser Sintering machine – printing
multiple materials & fields
2009
First usable prosthetic leg – this opens the door
for customized products using 3D printing
2011
3D printers start offering 14k gold as printable
material
6. It is predicted that the 3D printing industry is set to grow 300% in the next 7
years!
(Source: http://on3dprinting.com/2012/08/06/infographic-how-3d-printing-works-industry-growth-stocks-and-more/ )
Projected Growth
8. Concept Modeling
Use:
Concept modeling lets small design
and engineering firms extend their
reach by testing out more ideas and
developing only the right projects. For
large companies, concept modeling
within departments — or even in
individual cubicles — is a way to hone
ideas before presenting them to
superiors.
Example:
California-based 3D Reprographics
makes architectural models for its
clients. They found 3D printing to be a
great fit for making a strong accurate
presentation model.
9. Use:
Functional prototyping helps in
creating amazingly realistic
prototypes with the look and feel of
a real product.
Example:
Lamborghini, while developing its
new flagship model Aventador in
2011, made extensive use of 3D
printing technology to build a
functional prototype of the car.
Functional Prototyping
10. Use:
Quick, low-volume tooling and
custom fixtures give
manufacturers the flexibility to
embrace more opportunities.
Example:
Xerox introduced a low-volume
printer to serve a specialized
market. 3D printing offered quick
solutions with 350 components
printed and generated within 1
hour for testing of the new
machine.
Manufacturing Tools
11. End Use Parts Use:
3D printing is capable of
building the most durable,
stable, and repeatable parts in
the industry, whose accuracy
can be compared with injection
molding.
Example:
Kelly Manufacturing Company
(KMC), the world’s largest
manufacturer of general aviation
instruments, makes extensive use
of 3D printing by producing
prototypes of critical components
for an aircraft quickly; the process
would otherwise take an
estimated 3-4 weeks.
12. Finishing Use:
Sealing, polishing and painting
expand the possibilities of
what a 3D printer is capable of.
Example:
Product Development
Solutions (PDS) specializes in
supplying components to a
wide range of industries
including medical and
aerospace. It makes extensive
use of 3D printing technology
in finishing and painting the
parts for a better look and feel
of components.
15. Fashionable Plaster
This 3D-printed cast to help repair
broken bones may be the future of
medical orthopedic casts. 3D-printed
casts also bring out the positive
potential of this emerging technology.
Medical
16. Artificial Arms for Disabled
Richard Van As, a South African
carpenter, assembles a Robohand and
fits it to Liam Dippenaar. Liam was
born without fingers on his right hand.
Makerbot provided them with the 3D
printing technology that they used to
print the parts for the Robohand.
Medical
17. Bionic Ears
Scientists, including an Indian-origin
researcher, have created a 3D-printed
bionic ear that can "hear" radio
frequencies far beyond the range of
normal human capability. Using off-
the-shelf printing tools, the scientists
at Princeton University explored 3D
printing of cells and nano particles,
creating the bionic ear.
Medical
18. Secrets of the Heart
Laura Olivieri, a pediatric cardiologist
at the Children's National Medical
Center in Washington DC (which spent
$250,000 on the 3D printer) says that
these replica hearts are ideal for dry
runs of complex operations, allowing
the surgeon to see beforehand the
exact anatomical landscape they will
have to navigate.
Medical
19. Grow Your Own Organs
Surgeon Dr. Anthony Atala
demonstrated during TED an early-
stage experiment that could someday
solve the organ-donor problem: a 3D
printer that uses living cells to print out
a transplantable kidney.
Medical
20. Just Toying
Crayon Creatures is a service to turn
children’s drawings into figurines—
nice-looking designer objects to
decorate the home and office with a
colorful touch of wild creativity.
Games &
Entertain
ment
21. Animated Characters
Sony pictures was the first to embrace
the concept of 3D printing to create
characters for the movie Pirates – A
Band of Misfits.
Games &
Entertain
ment
22. 3D Printing on TV
Popular sitcom The Big Bang Theory
shows how a 3D printer can be used
for a hobby; in this case creating their
own miniature figures.
http://www.youtube.com/watch?v=Oi_
sJpd7d4c
Pop-
Culture
23. Skyfall’s Aston Martin
Skyfall filmmakers 3D-printed this rare
Aston Martin so they wouldn't have to
damage the original for the film
sequence. The effects crew model
makers called on a company called
Voxeljet, which used a massive 3D
printer with a capacity of 283 cubic
feet to reproduce three 1:3 scale
models of the Aston Martin.
Pop-
Culture
24. Print @ Home
Microsoft will provide support for 3D
printers in the next update of its
Windows 8 operating system. The firm
has struck deals with a number of
major 3D printer makers including
Makerbot, 3D Systems, Formlabs,
Dassault and Stratasys. Under the
deal they will develop automatically-
loading driver software that will ease
3D printer set-up at home.
Do It
Yourself
25. Personalized Robots
The use of 3D printing technology has
greatly expanded the possibilities for
wing design, allowing wing shapes to
replicate those of real insects or
virtually any other shape. It has also
reduced the time of a wing design
cycle to a matter of minutes. An insect
made up of 3D printed parts with a
mass of 3.89g has been constructed
using the 3D printing technique and
has demonstrated an 85-second
passively stable untethered flight. In
the future, we can see more robots
that will crawl, fly and roll out of
printers in homes and labs around the
world.
Do It
Yourself
26. Pottery
Unfold, a design firm based in
Belgium, collaborated with Tim
Knapen to create a machine that
enables users to sculpt virtually. “The
Electronic Artisan” is made of a 3D
laser scanner and a RepRap, which is
a printer that can create objects in
three dimensions. Virtual artisanship is
made possible by the use of software
that tracks hand movement and
printing methods that mimic age-old
techniques.
Do It
Yourself
27. Components on Demand
To prepare for a future where parts
can be built on-demand in space,
Made in Space, the space
manufacturing company, has
partnered with NASA’s Marshall Space
Flight Center to launch the first 3D
printer to space. Made in Space’s
customized 3D printer will be the first
device to manufacture parts away
from planet Earth. The 3D printing in
Zero-G Experiment will validate the
capability of additive manufacturing
(AM) in zero-gravity.
Do It
Yourself
28. A Car That Builds Itself
Designers and makers have been
busy imagining uses for 3D printers,
ranging from casts to houses to duck
feet. Vehicle designer Nir Siegel
doesn't just want to 3D-print cars, he
wants them to assemble themselves.
The Genesis car concept is just an
idea right now, but it's an intriguing
concept. As 3D printers advance, we
inch closer to a sci-fi future where you
could call up Audi or Toyota, order a
car and have it delivered, ready to
create itself to match your desires.
Do It
Yourself
29. Print Your Home
Do It
Yourself
WikiHouse is an open source
construction set being developed
collaboratively by a small, but growing,
community of people all around the
world. There is no fixed design “team”
or “studio,” but a steadily growing
community of designers from all
disciplines. They all share a common
belief that developing freely available
design solutions which are affordable,
sustainable and adaptive to differing
needs is a worthwhile aim.
30. Eyes on You
New technologies using Unmanned
Aircraft Vehicles (UAV) could create a
new, cost-effective and reliable
monitoring service. Researchers at
University of Southampton, UK have
created a new 3D printed drone, called
2Seas, that could soon be used by
maritime security organizations. The
heart of 2Seas – the central wing box,
fuel tank and engine mountings – was
3D-printed, the wings and tail are
made from carbon fiber.
Defense
& Space
31. Drone It Yourself
Defense
& Space
Home-built drones are very popular
among hobbyists with backgrounds in
electronics and robotics. Jasper van
Loenen, an independent designer
working in the field of interaction
design and art, wanted to make the
design simpler so anyone could make
their own robots. Van Loenen created
a custom DIY (Drone It Yourself) v1.0
kit that turns any object into an
unmanned aerial vehicle, simply by
attaching four motors and a control
unit – no technical know-how needed.
http://vimeo.com/jasperl/diy
32. “Liberator”
Defense Distributed successfully test
fired the world's first 3D-printed
handgun named Liberator.
All 16 parts of the gun are made from
a tough, heat-resistant plastic used in
products such as musical instruments,
kitchen appliances and vehicle
bumper bars. Fifteen of those are
made with a 3D printer while one is a
non-functional metal part which can be
picked up by metal detectors, making
it legal under U.S. law. The firing pin is
also not made of plastic, though it is
easily crafted from a metal nail.
Defense
& Space
33. 3D-printed Lunar Base
Building a base on the moon could
theoretically be made much simpler by
using a 3D printer to construct it from
local materials. The concept was
recently endorsed by the European
Space Agency (ESA) which is now
collaborating with architects to gauge
the feasibility of 3D printing using lunar
soil.
“3D printing offers a potential means
of facilitating lunar settlement with
reduced logistics from Earth,” said
Scott Hovland of ESA’s human
spaceflight team.
Defense
& Space
34. Show The World!
Malaysian fashion designer Melinda
Looi collaborated with Belgian 3D
printing studio Materialise to create
Asia’s first entirely 3D printed runway
collection. Looi’s design team worked
with 3D modelers and engineers to
create each look, which took months
to design before being printed.
Fashion
& Retail
35. Design Your Own Clothes
Designed by Joshua Harris, an
industrial engineer, for an Electrolux
design competition in 2010, the
concept printer would not only print out
clothing, but would recycle used
clothing as well. The idea is that the
fashion designers of the future will
sell cartridges for the printer
containing colors and materials to use
with their digital designs!
Joshua envisions this printer in homes
by 2050!!
Fashion
& Retail
36. Print Your Footwear
Fashion designer Iris van Herpen and
shoe designer Rem D Koolhaas have
collaborated to create 3D-printed
shoes that look like tree roots. The
shoes were presented at Paris
Fashion Week during Iris van Herpen's
couture show.
Van Herpen is one of the first fashion
designers to experiment with 3D
printing. In an interview with a
magazine, she says, “Everybody could
have their own body scanned and just
order clothes that fit perfectly.”
Fashion
& Retail
37. That’s Sweet!
Los Angeles architects Kyle and Liz
von Hasseln have set up a business
that produces 3D-printed sugar
sculptures for wedding cakes, table
centerpieces and pie toppings.
This way 3D printing transforms sugar
into a structural and sculptural
medium. In future, it can define the
form of the food instead of the food
defining the structure.
Food
38. Space Food
NASA can send robots to Mars with no
worries about the food. However, if it's
ever going to put humans on the red
planet, then it has to figure out how to
feed them over the course of year-long
missions. So the space agency has
funded research for a 3D printer that
creates entrees or desserts at the
touch of a button. In this way, NASA
seeks inspiration from the concept of
the Food Replicator from the movie
Star Trek.
Food
39. Fab “Food” at Home
The 3D food printer is part of the
fab@home series by Cornell
university's computational synthesis
lab. Headed by Dr. Jeffrey Ian Lipton,
the team's fab@home technology,
designed as a collection of open-
source rapid prototyping systems,
allows three-dimensional objects to be
“printed” by a syringe, whose
movements are determined from
computer blueprints and models.
Layering lines of material ultimately
generate a three-dimensional object in
a process they call “solid freeform
fabrication.”
fab@home machines have already
been used to print chocolates,
cookies, and even domes of turkey
meat.
Food
41. Rep Rap
Model:
RepRapPr
o Huxley
Price:
$599
Eventorbot
Model:
Delta Micro
Up Afinia
H-Series
Price:
$1,500
Printrbot
Model:
Printrbot
GO
Price:
$1,500
Makerbot
Model:
Replicator
2x
Price:
$2,800
The Future
is 3D
Model:
Glacier
Steel
Price:
3000
3D
Systems
Model:
CubeX
Price:
$3000
Formlabs
Model:
Form 1
Price:
$3,300
Stratasys
Model: U
print SE
Plus
Price:
$15,000
43. Amanda’s Wandering Home
Amanda is a 25-year-old enthusiastic architect
who works as a freelance consultant. She never
wanted to stay in one place and called herself “the
wanderer”!
So, when she decided to build her own home, she
thought she wanted something very unique and a
home that was a wanderer in itself.
After a detailed research she built herself a 3D
printer that she could finally call her home! A 3D
printer, a home?!
The 3D printer was the central component of her
caravan styled home. The “caravan” had been 3D
printed by the printer around itself. The built-in
shredder could shred the components of the home
that she wanted to modify or remove.
Whenever she wanted to be on the move again,
the 3D printer would print out the engine to move
the caravan. In stationary state, the 3D printer
would print out energy generation systems like
solar panels and wind turbines.
She woke up with the buzz of the printer that
printed out her clothes for the day and she slept off
with the hum of the printer shredding off the waste
generated during the day, hence getting raw
44. Remya – 1st 3D Printed Human
Remya is a 1-day-old daughter of the
next-gen 3D printer system called
“Behold.”
Behold got released in the year 2050 and
became an instant hit with people who
wanted an extended life by printing out
worn out organs and tissues.
One day, a childless couple decided to
“print” much more than just organs. They
got source codes and designs of all the
organs and tissues required in a human
body from an open source Creative
Commons platform. They assembled the
parts together on a Design Software and
named the file “Remya.” Next, they just hit
the “print” button!
The whole process took 9 days. At last
they had a fully grown child that they
called Remya. That’s when the real
problems started- the printer started
showing them the status message,
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