This document provides a history of 3D printing from its origins in the 1980s to recent developments. It began as a way to make prototypes but has since expanded. Key developments include the first 3D printer patent in 1986, expansion of types of 3D printers in the 2000s/2010s, and increased accessibility through projects like RepRap. The document also discusses applications of 3D printing in medicine like prosthetics and organ printing, as well as its use in art, firearms, and efforts to make printing more environmentally friendly.
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.
A presentation about 3D printing. During the 5th meeting of the REDIC Eramus+ project, pupils had the chance to experiment with the design and printing of 3D objects.
Workshop 7: Toy Design and Beyond: How 3D Printing is Changing EverythingRising Media, Inc.
This document provides an overview of the speaker's experience in the toy and 3D printing industries. In 3 sentences:
The speaker has over 20 years of experience in toy design, working for large companies like Fisher-Price and Mattel as well as starting their own business consulting for all major toy companies. They see 3D printing revolutionizing toy development by allowing rapid prototyping, customization, and opening up new creative possibilities that were not possible before. The speaker is optimistic about how 3D printing will empower individuals and communities to bring new toy ideas to life.
3D printing allows for the creation of 3D objects by layering materials based on digital files. It has various applications across fields like education, engineering, and construction. While 3D printers can produce single items as cheaply as mass production, each printed object is typically small in size and limited to two colors. 3D printing gives consumers power to personally customize and create objects that fit their unique needs and interests.
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
3d Printing: History and Current TechniquesDavid Gerhard
3d printing allows for customization, complexity, rapid prototyping, and lower costs compared to traditional manufacturing. There are various 3d printing techniques that build objects layer by layer from materials like plastic or metal powder. While 3d printing has limits like strength and size, it enables personal fabrication and sharing of designs. Issues around its use include intellectual property, economics, and regulation of printed objects like guns. Proper modeling and preparation are needed to ensure successful 3d printing.
3D printing is an additive manufacturing process that builds 3D objects by laying down successive layers of material. It allows for reasonably inexpensive and quick manufacturing of prototypes and designs. There are several common types of 3D printing that use different materials like plastic or metal. Makerbot provides an affordable desktop 3D printer called the Replicator 2 that is available for student use at Simmons College. It uses molten plastic deposition to build objects by extruding melted filament layer by layer. Students can design 3D models using CAD software like TinkerCAD and Thingiverse is a source to find free existing designs.
3D Printing, Makers Movement, Manufacturing, Product Development, Business - What are the tremendous opportunities that arise when these worlds collide? Preview the endless possibilities.
By Deepak Mehta, 3DEE. Presented at Crowdsourcing Week Brussels 2014. More info: http://crowdsourcingweek.com/
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.
A presentation about 3D printing. During the 5th meeting of the REDIC Eramus+ project, pupils had the chance to experiment with the design and printing of 3D objects.
Workshop 7: Toy Design and Beyond: How 3D Printing is Changing EverythingRising Media, Inc.
This document provides an overview of the speaker's experience in the toy and 3D printing industries. In 3 sentences:
The speaker has over 20 years of experience in toy design, working for large companies like Fisher-Price and Mattel as well as starting their own business consulting for all major toy companies. They see 3D printing revolutionizing toy development by allowing rapid prototyping, customization, and opening up new creative possibilities that were not possible before. The speaker is optimistic about how 3D printing will empower individuals and communities to bring new toy ideas to life.
3D printing allows for the creation of 3D objects by layering materials based on digital files. It has various applications across fields like education, engineering, and construction. While 3D printers can produce single items as cheaply as mass production, each printed object is typically small in size and limited to two colors. 3D printing gives consumers power to personally customize and create objects that fit their unique needs and interests.
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
3d Printing: History and Current TechniquesDavid Gerhard
3d printing allows for customization, complexity, rapid prototyping, and lower costs compared to traditional manufacturing. There are various 3d printing techniques that build objects layer by layer from materials like plastic or metal powder. While 3d printing has limits like strength and size, it enables personal fabrication and sharing of designs. Issues around its use include intellectual property, economics, and regulation of printed objects like guns. Proper modeling and preparation are needed to ensure successful 3d printing.
3D printing is an additive manufacturing process that builds 3D objects by laying down successive layers of material. It allows for reasonably inexpensive and quick manufacturing of prototypes and designs. There are several common types of 3D printing that use different materials like plastic or metal. Makerbot provides an affordable desktop 3D printer called the Replicator 2 that is available for student use at Simmons College. It uses molten plastic deposition to build objects by extruding melted filament layer by layer. Students can design 3D models using CAD software like TinkerCAD and Thingiverse is a source to find free existing designs.
3D Printing, Makers Movement, Manufacturing, Product Development, Business - What are the tremendous opportunities that arise when these worlds collide? Preview the endless possibilities.
By Deepak Mehta, 3DEE. Presented at Crowdsourcing Week Brussels 2014. More info: http://crowdsourcingweek.com/
Presentation 3D-Printing Fundamentals & Printing for HealthcareRoy van den Heuvel
3D printing has applications in healthcare for rapid prototyping of medical devices and tools. The document discusses various 3D printing methods like fused deposition modeling (FDM), light polymerization, and selective laser sintering, as well as considerations for medical-grade 3D printing like regulations, materials, and sterilization. Examples of healthcare applications include non-invasive tools and wearable devices. The document provides resources for 3D models and troubleshooting guides.
This document discusses 10 examples of 3D printed equipment being used in various sports. These include a 3D printed prosthetic arm for a cyclist competing in the Olympics, a 3D printed race car with a metal chassis, and 3D printed custom protective face masks for injured athletes allowing them to return to play sooner. Other examples mentioned are 3D printed golf clubs, bikes, shin guards, running shoes, skis, mouthguards, and sensors for detecting head impacts in football.
3d printers create 3d objects by laying down successive layers of material using additive processes. Charles Hull developed the first 3d printer in 1984 using stereo lithography. Now, methods like selective laser sintering, stereo lithography, and fused deposition modeling are used. 3d printing allows for rapid prototyping, can produce complex shapes with little waste, and reduces design complexity, though printers remain expensive and misuse is a concern. The process involves designing a virtual object, exporting the CAD file to a 3d printer, and having each layer constructed to build the final product. Future 4d printers may allow printing of objects that self-assemble or reshape over time.
This talk was first presented at the Maryland Society for Educational Technology 2014 Common Ground conference. It is meant as an introductory talk about 3D printing and how to get started designing for 3D printing and printing even if you don't have a 3D printer.
We discuss:
* What exactly is 3D printing
* What can it do
* What it can't do
* The uses of 3D printing in fashion, architecture, food, medical devices, and tools
* Real world projects using 3D printing and everyday people
* How 3D printing can be used in the classroom
* Different types of 3D printers
* Different types of 3D printing materials
* Different software solutions for creating 3D designs
* Some 3D printing resources
The document discusses various types of 3D printing technologies including fused deposition modeling (FDM), stereolithography (SLA), digital light processing (DLP), selective laser sintering (SLS), direct metal laser sintering (DMLS), selective laser melting (SLM), electron beam melting (EBM), binder jetting, polyjet printing, and laminated object manufacturing. It provides information on their respective processes, materials used, applications, advantages, and limitations. The global 3D printing market size is projected to reach $28.9 billion by 2020, with consumer products, automobiles, and medical/dental being the top industries adopting additive manufacturing technologies.
a high level overview of 3D printing (2018) with a focus on consumer printing. Targeted at those with little technical or design knowledge. Includes models and examples to make the material relevant, no matter what level of exposure the audience has had previously. Examples include use of 3D printing in woodworking. Version 2
This document discusses personal 3D printing. It outlines different types of 3D printers like stereolithography, scintering, and fused filament fabrication units. It describes how the RepRap project founded by Dr. Adrian Bowyer drove the development of low-cost personal 3D printing. It lists many popular 3D printer models from companies like Makerbot, Printrbot, and Ultimaker. The document discusses what types of objects can be 3D printed from toys to functional items. It also outlines where to get 3D printing content from through CAD tools, scanning, downloading from sites like Thingiverse, or customizing existing models.
3D Printing: Edge Manufacturing - Executive OverviewPatrick Seaman
Executive Overview and backgrounder on Edge Manufacturing and 3D Printing. Topics include: 3D Printing / Additive Mfg 3
3D Design becomes real 4
Real Parts & Products 5
Example: Laser Sintering 6
Enter: 3D Printing 7
Industries using 3D Printing 8
Edge Manufacturing 9
Example: Consumer Goods 10
3D Printing “Sweet Spot” 11
Industrial 3D Printing 14
Example: Industrial Scenario 15
Solution: Edge Manufacturing 16
Global Market 19
Example: Military Scenario 20
Edge Manufacturing Profile: Kraftwurx 21
Summary & Conclusions 23
About the Authors 25
3D Printing News Stories & Quotes 27
About Pepperwood Partners 31
The IT team is introducing 3D printing, which creates 3D objects by laying down successive layers of material. There are three main types of 3D printing: FDM uses plastic filament, SLA uses UV curable resin, and SLS uses laser sintering of powders. Current applications include medical devices, automotive parts like Strati - the first 3D printed car, and construction including houses. The future of 3D printing is promising with expectations of over $12 billion in growth and applications like printed clothing, food, organs, and even space construction.
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 3D printing, including what it is, its benefits, applications, types of printers and materials. It discusses how 3D printing works by adding layers of material over time. Common uses are for prototyping, customized objects, and printing on demand. Future applications mentioned include use in space, bio printing and replacement parts. The document also describes RepRap, a self-replicating 3D printer that can copy about half its own parts, and how anyone with a RepRap can make another for a friend, similar to sharing MP3 files.
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.
This document provides an overview of 3D printing. It discusses the different types of 3D printing technologies, such as fused deposition modeling (FDM) which is used in most home/hobby 3D printers. It also reviews specific 3D printer models like the Makerbot and Printrbot and the materials they can use, such as PLA and ABS plastics. The document outlines the 3D printing process including designing models, slicing files, generating G-code instructions, and layer-by-layer printing. It highlights some complex prints and larger assembled objects that can be made as well as sharing models through sites like Thingiverse.
The presentation contains all the data about 3D printing. How it is done, what are the various ways of 3D printing process along with its Advantage & Disadvantage, type of raw material used, etc....
Ann Marie Shillito is a designer and software entrepreneur who founded Anarkik3D Ltd to create accessible 3D modeling software. She struggled to learn CAD programs as a designer maker but went on to receive funding for the Tacitus Research Project investigating more intuitive digital design tools. This led her to develop Anarkik 3D Design software and spin out her company from the research in 2007. The document then provides examples of how 3D printing has been used across different applications like jewelry, ceramics, fashion and more, with details on the printers and materials used. It emphasizes making digital design more accessible and empowering makers through technology.
WALTER JAEGER - PRINT3D@NYU 3D PRINTING.PPTXWalter Jaeger
3D printing has evolved significantly since its origins in the 1980s. The presentation discusses the history and key figures in 3D printing's development, as well as the various printing technologies and materials used today. It explains how 3D printers work by converting 3D models into layers, and describes common software and hardware components. The future of 3D printing is presented as widespread availability in stores within 5 years, with customizable medical devices and other products manufactured on demand.
An Introductory Presentation on 3dprinting and the third Industrial Revolution given at HackerspaceBXL for Café Numérique on Wednesday 5th December 2012.
Historically, components have been produced by using subtractive or formative manufacturing processes.
Now manufacturers have a third process option – additive manufacturing, otherwise known as 3D printing.
3D printing is a process of creating a three dimensional physical object from a digital design (model).
The desire to play with fabric’s third dimension drew the researchers to 3D printing.
Thanks to this revolutionary technology, every piece of apparel is unique, made to measure with your own customization and its production process produces zero waste.
There are plenty of challenges that must be overcome before 3D-printed apparel goes main stream. The major challenge for 3D printing is replicating clothing fabrics such as silk, tulle material, or satin, among others.
Until the material problem gets solved, 3D-printed clothing will continue to look a whole lot more like an art project than an actual industry.
The DR100EE Series is a fully digital PWM servo drive designed to control brushed and brushless motors. It operates in torque, velocity, or position mode using space vector modulation for high bus voltage utilization. The drive features programmable digital and analog inputs/outputs, RS-232/485 interface, and Windows-based setup software. It provides motor control as well as I/O interfacing for external devices and controllers.
This document provides specifications for the DigiFlex® PerformanceTM Servo Drive DPCANTA-025B200. It is a fully digital servo drive that can operate in torque, velocity, or position mode. It features CANopen and RS-232 interfaces, 4-quadrant regenerative operation, and programmable digital and analog inputs and outputs. The drive has a peak current of 25A, continuous current of 12.5A, and is compliant with safety standards including UL, CE, and RoHS.
Presentation 3D-Printing Fundamentals & Printing for HealthcareRoy van den Heuvel
3D printing has applications in healthcare for rapid prototyping of medical devices and tools. The document discusses various 3D printing methods like fused deposition modeling (FDM), light polymerization, and selective laser sintering, as well as considerations for medical-grade 3D printing like regulations, materials, and sterilization. Examples of healthcare applications include non-invasive tools and wearable devices. The document provides resources for 3D models and troubleshooting guides.
This document discusses 10 examples of 3D printed equipment being used in various sports. These include a 3D printed prosthetic arm for a cyclist competing in the Olympics, a 3D printed race car with a metal chassis, and 3D printed custom protective face masks for injured athletes allowing them to return to play sooner. Other examples mentioned are 3D printed golf clubs, bikes, shin guards, running shoes, skis, mouthguards, and sensors for detecting head impacts in football.
3d printers create 3d objects by laying down successive layers of material using additive processes. Charles Hull developed the first 3d printer in 1984 using stereo lithography. Now, methods like selective laser sintering, stereo lithography, and fused deposition modeling are used. 3d printing allows for rapid prototyping, can produce complex shapes with little waste, and reduces design complexity, though printers remain expensive and misuse is a concern. The process involves designing a virtual object, exporting the CAD file to a 3d printer, and having each layer constructed to build the final product. Future 4d printers may allow printing of objects that self-assemble or reshape over time.
This talk was first presented at the Maryland Society for Educational Technology 2014 Common Ground conference. It is meant as an introductory talk about 3D printing and how to get started designing for 3D printing and printing even if you don't have a 3D printer.
We discuss:
* What exactly is 3D printing
* What can it do
* What it can't do
* The uses of 3D printing in fashion, architecture, food, medical devices, and tools
* Real world projects using 3D printing and everyday people
* How 3D printing can be used in the classroom
* Different types of 3D printers
* Different types of 3D printing materials
* Different software solutions for creating 3D designs
* Some 3D printing resources
The document discusses various types of 3D printing technologies including fused deposition modeling (FDM), stereolithography (SLA), digital light processing (DLP), selective laser sintering (SLS), direct metal laser sintering (DMLS), selective laser melting (SLM), electron beam melting (EBM), binder jetting, polyjet printing, and laminated object manufacturing. It provides information on their respective processes, materials used, applications, advantages, and limitations. The global 3D printing market size is projected to reach $28.9 billion by 2020, with consumer products, automobiles, and medical/dental being the top industries adopting additive manufacturing technologies.
a high level overview of 3D printing (2018) with a focus on consumer printing. Targeted at those with little technical or design knowledge. Includes models and examples to make the material relevant, no matter what level of exposure the audience has had previously. Examples include use of 3D printing in woodworking. Version 2
This document discusses personal 3D printing. It outlines different types of 3D printers like stereolithography, scintering, and fused filament fabrication units. It describes how the RepRap project founded by Dr. Adrian Bowyer drove the development of low-cost personal 3D printing. It lists many popular 3D printer models from companies like Makerbot, Printrbot, and Ultimaker. The document discusses what types of objects can be 3D printed from toys to functional items. It also outlines where to get 3D printing content from through CAD tools, scanning, downloading from sites like Thingiverse, or customizing existing models.
3D Printing: Edge Manufacturing - Executive OverviewPatrick Seaman
Executive Overview and backgrounder on Edge Manufacturing and 3D Printing. Topics include: 3D Printing / Additive Mfg 3
3D Design becomes real 4
Real Parts & Products 5
Example: Laser Sintering 6
Enter: 3D Printing 7
Industries using 3D Printing 8
Edge Manufacturing 9
Example: Consumer Goods 10
3D Printing “Sweet Spot” 11
Industrial 3D Printing 14
Example: Industrial Scenario 15
Solution: Edge Manufacturing 16
Global Market 19
Example: Military Scenario 20
Edge Manufacturing Profile: Kraftwurx 21
Summary & Conclusions 23
About the Authors 25
3D Printing News Stories & Quotes 27
About Pepperwood Partners 31
The IT team is introducing 3D printing, which creates 3D objects by laying down successive layers of material. There are three main types of 3D printing: FDM uses plastic filament, SLA uses UV curable resin, and SLS uses laser sintering of powders. Current applications include medical devices, automotive parts like Strati - the first 3D printed car, and construction including houses. The future of 3D printing is promising with expectations of over $12 billion in growth and applications like printed clothing, food, organs, and even space construction.
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 3D printing, including what it is, its benefits, applications, types of printers and materials. It discusses how 3D printing works by adding layers of material over time. Common uses are for prototyping, customized objects, and printing on demand. Future applications mentioned include use in space, bio printing and replacement parts. The document also describes RepRap, a self-replicating 3D printer that can copy about half its own parts, and how anyone with a RepRap can make another for a friend, similar to sharing MP3 files.
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.
This document provides an overview of 3D printing. It discusses the different types of 3D printing technologies, such as fused deposition modeling (FDM) which is used in most home/hobby 3D printers. It also reviews specific 3D printer models like the Makerbot and Printrbot and the materials they can use, such as PLA and ABS plastics. The document outlines the 3D printing process including designing models, slicing files, generating G-code instructions, and layer-by-layer printing. It highlights some complex prints and larger assembled objects that can be made as well as sharing models through sites like Thingiverse.
The presentation contains all the data about 3D printing. How it is done, what are the various ways of 3D printing process along with its Advantage & Disadvantage, type of raw material used, etc....
Ann Marie Shillito is a designer and software entrepreneur who founded Anarkik3D Ltd to create accessible 3D modeling software. She struggled to learn CAD programs as a designer maker but went on to receive funding for the Tacitus Research Project investigating more intuitive digital design tools. This led her to develop Anarkik 3D Design software and spin out her company from the research in 2007. The document then provides examples of how 3D printing has been used across different applications like jewelry, ceramics, fashion and more, with details on the printers and materials used. It emphasizes making digital design more accessible and empowering makers through technology.
WALTER JAEGER - PRINT3D@NYU 3D PRINTING.PPTXWalter Jaeger
3D printing has evolved significantly since its origins in the 1980s. The presentation discusses the history and key figures in 3D printing's development, as well as the various printing technologies and materials used today. It explains how 3D printers work by converting 3D models into layers, and describes common software and hardware components. The future of 3D printing is presented as widespread availability in stores within 5 years, with customizable medical devices and other products manufactured on demand.
An Introductory Presentation on 3dprinting and the third Industrial Revolution given at HackerspaceBXL for Café Numérique on Wednesday 5th December 2012.
Historically, components have been produced by using subtractive or formative manufacturing processes.
Now manufacturers have a third process option – additive manufacturing, otherwise known as 3D printing.
3D printing is a process of creating a three dimensional physical object from a digital design (model).
The desire to play with fabric’s third dimension drew the researchers to 3D printing.
Thanks to this revolutionary technology, every piece of apparel is unique, made to measure with your own customization and its production process produces zero waste.
There are plenty of challenges that must be overcome before 3D-printed apparel goes main stream. The major challenge for 3D printing is replicating clothing fabrics such as silk, tulle material, or satin, among others.
Until the material problem gets solved, 3D-printed clothing will continue to look a whole lot more like an art project than an actual industry.
The DR100EE Series is a fully digital PWM servo drive designed to control brushed and brushless motors. It operates in torque, velocity, or position mode using space vector modulation for high bus voltage utilization. The drive features programmable digital and analog inputs/outputs, RS-232/485 interface, and Windows-based setup software. It provides motor control as well as I/O interfacing for external devices and controllers.
This document provides specifications for the DigiFlex® PerformanceTM Servo Drive DPCANTA-025B200. It is a fully digital servo drive that can operate in torque, velocity, or position mode. It features CANopen and RS-232 interfaces, 4-quadrant regenerative operation, and programmable digital and analog inputs and outputs. The drive has a peak current of 25A, continuous current of 12.5A, and is compliant with safety standards including UL, CE, and RoHS.
Ruben Daniel Velasquez provides his contact information and resume highlighting his experience in customer service and retail roles at Target and JC Penney's from 2010 to 2013. He lists his education including graduating high school in 2009 and receiving a Bachelor's degree in Vocal Performance from North Park University in 2015. Velasquez provides 4 references with their names, relation to him, years known, and contact information.
The DigiFlex® PerformanceTM Servo Drive DPCANTR-020B080 is a digital servo drive designed to drive brushed and brushless servomotors in torque, velocity, or position mode. It features a CANopen interface for networking and RS-232 interface for configuration. The drive supports various command sources and feedback types, and includes programmable digital and analog inputs/outputs. It is compliant with various safety and EMC standards and measures 132.5 x 89.5 x 35.9 mm.
CURRICULUMVITAE-RESUME-ONLY ENGLISH Ricardo Prieto (Mar-2016)Ricardo Prieto Jasso
Ricardo Prieto Jasso has over 15 years of experience in agriculture. He holds a degree in Agronomy from Universidad Autónoma de Baja California. His experience includes managing HACCP food safety programs, conducting research on wheat proteins, and overseeing vegetable production. Currently he works as the Mexico Quality Assurance Manager for Keithly Williams Seeds, where he leads quality control efforts and provides training.
Trabajo colaborativo final curso diseño de proyectos 102058 517angelFVB
Este documento presenta un proyecto para producir y comercializar carne de pollo de buena calidad en el municipio de Manaure, Cesar. El proyecto busca mejorar la calidad de vida de las comunidades locales mediante la generación de empleo e ingresos. El proyecto incluye la suplementación de los pollos con forrajes y subproductos agrícolas para mejorar las cualidades organolépticas de la carne y reducir los costos de producción. Los estudios técnicos, financieros y de mercado muestran que el pro
El documento habla sobre el empleo de materiales sostenibles en la construcción y sus efectos en el medio ambiente. Explica las categorías de certificación LEED y los créditos relacionados con materiales y recursos (MR), incluyendo MRc2 sobre declaraciones medioambientales de productos, MRc3 sobre el origen de las materias primas y MRc4 sobre los componentes de los materiales. Describe los requisitos y opciones para ganar puntos en cada crédito, como el uso de productos con declaraciones de producto ambiental, informes de proveed
Dokumen tersebut memberikan informasi mengenai bisnis asuransi AIA, termasuk konsep garansi pendapatan, manfaat untuk agen dan konsultan keuangan, jalur karir, serta dukungan bisnis yang ditawarkan. Dokumen tersebut juga memberikan contoh perhitungan penghasilan agen selama beberapa tahun.
This servo drive operates in torque, velocity, or position mode using space vector modulation. It features a CANopen interface, configurable I/O, and supports various motor and feedback types. The drive can deliver up to 25A peak current and is compliant with various safety and EMC standards.
This document lists various kings and queens of England, Ireland, and Scotland from the 11th century to the 18th century. It includes their names and, for some, their spouses. Over 20 monarchs are mentioned spanning the kingdoms of England, England and Ireland, and England, Ireland and Scotland. Other royal figures listed include consorts and queens of other lands.
Данила Штань, ex-руководитель отдела разработки E96.ru, рассказал на конференции DUMP-2016, как в процессе переезда на новую площадку в компании реорганизовали окружение, в котором живут их сервисы, научились жить без сисадминов и сформулировали такие требования к подготовке сервисов, которые бы не ограничивали разработчиков и не усложняли выкладку и сопровождение сервисов.
4 Simple Steps to Effective Planning and ExecutionSimTech USA
The document outlines a 4 step process for effective planning and execution:
1. Brainstorm - Generate ideas without worrying about structure by using mind mapping.
2. Organize - Categorize and add structure to the ideas by arranging them hierarchically in the mind map.
3. Schedule - Add a schedule and prioritize tasks by assigning them in the mind map.
4. Communicate - Collaborate and share information by conducting meetings and updating project status using the mind mapping tool.
La Institución Educativa Rural Luis Antonio Duque Peña está convocando propuestas para la prestación del servicio de tienda escolar en 3 sedes. Los interesados deben cumplir con requisitos como residir cerca, presentar hoja de vida, certificados y lista de productos. El contrato será adjudicado mediante evaluación y tendrá una duración de 10 meses, en los que el contratista deberá pagar una cuota mensual por el uso de las instalaciones.
Diseño del aprendizaje (Metodologías) Bernabe Soto
El documento describe diferentes metodologías de aprendizaje activo como el aprendizaje basado en problemas (ABP) y el aprendizaje basado en proyectos. Explica las características del ABP, incluyendo que los estudiantes asumen un rol activo en la resolución de problemas. También describe el proceso de planificación del ABP, los roles del profesor y los estudiantes, y formas de evaluación. Finalmente, compara el aprendizaje tradicional con el aprendizaje basado en proyectos, explicando que este último implica un
1. El régimen de Tiburcio Carías Andino en Honduras se sostuvo a través de una política represiva, concesiones a empresas extranjeras y dependencia de Estados Unidos, aunque también llevó a la nación a un estancamiento económico y social.
This document discusses group behavior and formation. It defines a group as two or more individuals interacting to achieve common goals, and lists reasons groups form like security, status, and goal achievement. It differentiates groups from teams, noting teams have common commitment beyond shared goals. The document outlines formal groups deliberately created by organizations, and informal groups that develop spontaneously. It also explains Tuckman's five stages of group development: forming, storming, norming, performing, and adjourning.
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.
3D printing has made leaps and bounds in recent years; even months, making it an exciting prospect for Tony Freeman and other entrepreneurs interested in technology.
Almost 30 years ago, long before plastic toys; machine parts, jewellery - even artificial organs - were being created by 3D printers using ultraviolet light and plastic, Charles Hull invented stereolithography. He became the first 3D printing technician by printing a plastic cup.
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 discusses the potential impact and opportunities of 3D printing. It begins by providing an overview of 3D printing, including its concept, operation, history and key areas of application. It then discusses perspectives on 3D printing, with optimistic views stating it could generate $230-550 billion annually by 2025 through applications like consumer usage, direct manufacturing and molds manufacturing. However, others view it as overhyped. The document aims to analyze the different perspectives on the potential of 3D printing.
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3D printing, also known as additive manufacturing (AM), refers to the process used for creating three-dimensional objects. Starting from modelling, to printing and the final finishing - 3D printing is revolutionising the way one creates prototypes in fashion. And it is surely saving the companies a lot on time, effort and all such costs involved in an otherwise original sampling process.
Did you know there are already seven different types of 3D printing available in the market - ranging from those using laser vs. those using layering integration and so on. There are already some key players, startups and marketplaces across globe dominating the share in this industry.
In this research, learn all about the top market players, product category-by-category innovation that are taking place in fashion and the impact of 3D printing in the present and future fashion.
Download the complete report https://fashionbi.com/insights/marketing-research/3d-printing-in-fashion-and-textile
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3D printing is a process where a three dimensional object is created by laying down successive layers of material until the final object is produced. It was invented in the 1980s by Chuck Hull, who developed a process for creating plastic parts through an additive manufacturing technique. 3D printing works by slicing a digital 3D model into thousands of layers and then depositing them one by one to form the final object, allowing for complex internal structures to be produced in a single print.
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3D printing allows for the creation of complex objects layer by layer and has various applications. It is used in medicine to create artificial organs, in defense to create small weapons, and commercially to produce items with less waste and lower costs than traditional manufacturing. 3D printing techniques continue to advance, allowing for an increasing variety of materials to be used including metals and ceramics.
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 was invented in 1984 by Charles Hull and uses computer-aided design (CAD) models to create solid, three-dimensional parts through an additive, layer-by-layer process. There are several types of 3D printing including stereo lithography which uses photo polymerization of liquid materials, and selective laser sintering which uses a laser to fuse small particles of plastic, metal or glass into a 3D shape. 3D printing has applications in industries such as medical, fashion, defense, and entertainment.
This document provides an internal report on 3D printing and opportunities for small businesses in Australia. It discusses 3D printing technology, highlighting areas of impact in healthcare, manufacturing, and food production. The report recommends organizing a 3D Printing Expo to increase understanding of the technology and promote business opportunities for small businesses and entrepreneurs in remote and regional Queensland. The expo would showcase how 3D printing has become more affordable and applicable to various industries.
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.
this teaches about how 3D printing can be used to help other people and fun ways to teach and learn. It also includes how people make 3D printing designs, art shows, and medical uses.
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.
The document discusses the evolution of 3D display technology from its origins in the 1800s to current applications and future prospects. It describes how 3D vision was understood as early as the 1500s and how the stereoscope was invented in the 1830s, making 3D photography popular entertainment in homes by the 1890s. Developments in color film, digital cameras, and polarized 3D movies in recent decades have renewed mainstream interest in 3D. The document also explores potential applications of 3D displays beyond entertainment, such as in education, medicine, and telecommunications.
As it is common with disruptive technologies, the advent of 3D printing brought with it a variety of legal challenges, including intellectual property concerns. In 2014, the 3D printing technology is not futuristic sci-fi anymore. Goldman Sachs, in a recent Global Investment Research report entitled The Search for Creative Destruction , included 3D printing in a list of seven technologies that are reshaping the way we live and are reinventing, the notion of what’s possible.
This article has two objectives. First, we quickly present how 3D printing works. Second, we discuss how 3D printing is raising new legal issues as it brings sophisticated manufacturing capabilities into the homes and offices of millions around the world and will become the next industrial revolution.
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5. History of 3D Printing
● 1980s: Started as Rapid Prototyping (RP) technologies (“3D
Printing History”)
○ Originally thought of as a way to make cost-effective
prototypes for products
○ First patent was for Dr. Kodama in 1980s but it fell through
● 1986: First successful patent by Charles Hull for a
stereolithography apparatus (SLA)
○ He invented it in 1983
○ He went on to co-found 3D systems organization
6. History of 3D Printing
1988: 3D Systems’ first commercial RP system sold (“3D
Printing History”)
This was the first put into sales but was not the only
technology being created
1987: Carl Deckard: Selective Laser Sintering
1989: Scott Crump (co-founder Stratasys): Fused
Deposition Modeling
8. ● Late 1980s-1990s: Many competing RP companies develop
○ Only three original ones that remain today are 3D Systems, Stratasys, and EOS
History of 3D Printing
9. History of 3D Printing
● 2000s: 3D printing developed into two distinct categories
○ High end 3D printing: geared towards producing complex parts
■ Expensive
○ “Concept Modulers”: focus on improving prototyping and concept development
■ Cost-effective
■ Still very industrial
10. History of 3D Printing
● 2007: Reprap was thought up by Dr. Bowyer, created by Vik Oliver and Rhys Jones (RepRap)
○ Helped with open source 3D movement, increased accessibility
11. History of 3D Printing
● January 2009: First commercially available 3D printer for sale
○ BfB rapman 3D printer
○ Kit form and based on RepRap concept
12. History of 3D Printing
● 2012: Alternative 3D printing processes were
introduced commercially
○ B9Creator (DLP technology)
○ Form 1 (stereolithography)
○ Both launched via Kickstarter (KickStarter)
14. Environmental Impact
3D printers:
Use 50 to 100 times more energy (Faludi)
Encourage reliance on plastics (Martin)
Nanosized chemical emissions (“3D”)
15. Printer FDM Machine Inkjet 3D printer
How it prints x and y formation layers of ink
Material Waste no waste with no support
material
wastes 40% of ink, can’t
be recycled
Transport little impact little impact
Faludi 2013
19. Reduce Environmental Impact
Use printers more efficiently (Faludi)
hollow parts
close together
Recycle printer ink (Cassano, Martin)
Yet to see true impact in reduced transportation costs
21. 3D Printing - It’s revolutionizing medicine.
medical applications for 3D printing
have expanded rapidly in past
decade
been applied to medicine since early
2000s when technology to make
dental implants first used (Ventola)
3D printing has many different uses in
the medical field
devices such as splints or casts, implants,
pharmaceuticals, prosthetics, and even
real human organs
23. 3D Printed Prosthetics
● Prosthetics that are 3D printed
can be made faster, more cheaply
than alternatives
● Example - Open Bionics 3D
Printed Hand (Kelion)
○ process to make takes less
than two days
○ costs under $3,000, as
opposed to $50,000+ models
○ uses myoelectric signals to
24. Creating Organs
Organovo one of the leading companies
in bioprinting (Leckart)
Printed organs nearly identical to tissue
samples from humans
are constructed from human cells
bioengineers have begun to print heart
valves, ears, artificial bone, joints,
skin grafts, etc. (Leckart)
Once researchers figure out how to
print vascular system, printed organs
25. Creating Organs - Continued
● L’Oreal is beginning to look for
alternatives for human/animal testing
○ Starting to use 3D bioprinters that print skin
samples into petri dishes
● This tech also used by independent
researchers to test if printable skin useful
for burn victims (Inside L’Oreal’s Plan…)
○ 3D printed skin would allow for faster
production of skin, recovery of patient
26. 3D Printed Medicine
● US FDA recently gave approval for
3D printed pill to be produced
● Developed by Aprecia
Pharmaceuticals and called
Spritam (Wakefield)
● Drug controls seizures from
epilepsy
● 3D printing allows
○ medicine to be packaged more tightly
in precise doses
28. Printed Firearms Overview
Cody Wilson prints first firearm in 2013 (Greenberg)
Law student with no background in 3D printing
Liberator pistol
Undetectable by metal scanners
His organization Defense Distributed aims to make guns open source on a Wiki
Received cease and desist from ATF (Greenberg)
Late 2013, Solid Concepts produced entirely metal pistol, fired 5000 rounds (Estes)
29.
30.
31.
32.
33. Printed Firearms Overview
May 2014 Yoshitomo Imura arrested Japan (Estes)
Possessed 5 guns, no bullets, 2 could fire
Estimated cost:
$1500 for printer
$25 for plastic material
Ghost Runner Printer (Greenberg)
Made by Defense Distributed
Can produce AR-15
34. “Just follow a few simple instructions to mount your 80% lower
receiver, tighten a couple screws, and on day one, Ghost Gunner
can help you legally manufacture unserialized firearms in the
comfort of your own home.”
-Defense Distributed (Estes)
35. Printed Firearm Problems and Solutions
Problem: Plastic guns undetectable by sensors
Solution: Undetectable Firearms Act
Countermeasure: Insert otherwise worthless metal piece into gun
(Mead)
Problem: Inserting worthless metal into gun makes it legal
Solution: Amend language to require metal to be significant part of firearm
(Mead)
Problem: Outright banning printed guns may violate Bill of Rights
Solution: Change Bill of Rights?
37. History of Art and 3D Printing
3D Printing in 80’s (“3D Printing”)
Art followed more recently, in the past decade
Consumer use of 3D printers (2009 and 2012) helped art movement
38. 3D Printshow
Started in 2012 (MacManus)
Focused on art, education, and collaboration (“3D Printshow”)
Expanded to increased monetization (“3D Printshow”)
Now international: Istanbul, Paris, Dubai, London, and more (“3D Printshow”)
39. Examples of Past Exhibits in the 3D Printshow
David van Ness Alissia Melka-Teichroew Eric Van Straaten
40. Inclusion of 3D Printing in Art Museums
Some museums that incorporate 3D printing:
New York’s Metropolitan Museum of Art
London’s British Museum
Sir John Soane’s Museum
Museum of Design Atlanta
Victoria and Albert Museum
...and more
Viewed similarly to plaster casts (Thom)
41. The Met and British Museums
Plans for printing replicas
2012 - Metropolitan Museum of Art (Aguilar)
2014 - British (Liszewski)
British Museum - Sketchfab <https://sketchfab.com/britishmuseum> (Liszewski)
The Met - Thingiverse <http://www.thingiverse.com/met/about> (Aguilar)
Free (Aguilar)
Few dozen in each
42. Sir John Soane’s Museum
2014 exhibition on Piranesi’s Diverse Maniere (1769) (Bathurst)
“Original Copy” - first creation of design
43. Museum of Design Atlanta
new exhibit: “Designers, Makers, Users: 3D Printing the Future” (Koslow)
opened 9/20/15
will close 1/10/15
exhibitions relating to space exploration, architecture, prosthetics, and art (Koslow)
Foster + Partners and ESA - lunar habitats
Made In Space- Zero-G Printer
Wake Forest Institute for Regenerative Medicine - organs
Nervous System - Kinematics Dress
44. TN-01
Purely aesthetic structure by Branch Technology
and Keith Kaseman (Molitch-Hous)
18 ft tall
Tallest 3D printed structure in US
54 cubic ft
Possibilities for larger structures
45. Artists
Some artists that have utilized 3D printing (“3D Printing”) :
Joshua Harker
Dizingof
Jessica Rosenkrantz
Pia Hinze
Nick Ervinck
Lionel Dean
46. Joshua Harker
Used 3D scan and CT scan to create a “portrait” (Chavez)
Debuted at 3D Printshow in 2014
Through Uformit, others can download a scan and customize
47. Dizingof
Specializes in math art and sculptures (“Dizingof’s”)
Made a piece called Reaction Diffusion Man, mimicking the chemical process
48. Nick Ervinck
Belgian artist with Materialise (Sher)
Featured in a museum in Ghent
Also sells products online
National Basilica of the
Sacred Heart
Ervinck with another creation
50. Works Cited
"3D Printing History: The Free Beginner's Guide." 3D Printing Industry. 3D Printing Industry, n.d. Web. 14 Oct. 2015.
"3D PRINTSHOW." 3D Printshow : 3D Printshow. 3D Printshow, n.d. Web. 14 Oct. 2015.
Aguilar, Mario. "You Can 3D Print Scale Versions of Famous Museum Statues For Your Home." Gizmodo. Gizmodo, 11 June 2012. Web. 14 Oct. 2015.
Bathurst, Matilda. "'Diverse Maniere: Piranesi, Fantasy and Excess' at Sir John Soane's Museum." Apollo Magazine. Apollo Magazine, 22 Mar. 2014. Web. 14 Oct. 2015.
Chavez, Evan. "Joshua Harker's 3D Printed Self-Portrait." 3D Printing Industry Joshua Harkers 3D Printed SelfPortrait Reveals Digital Disconnect with Personalized Scan Comments. 3D
Printing Industry, 19 Feb. 2014. Web. 14 Oct. 2015.
"Dizingof's Reaction Diffusion Man in Rubber." 3D Printing Industry Dizingofs Reaction Diffusion Man in Rubber Comments. 3D Printing Industry, 18 Apr. 2014. Web. 14 Oct. 2015.
Koslow, Tyler. "MODA Unveils All-Star 3D Printing Exhibition." 3D Printing Industry Museum of Design Atlanta Unveils AllStar 3D Printing Exhibition Comments. 3D Printing Industry, 30
Sept. 2015. Web. 14 Oct. 2015.
Liszewski, Andrew. "The British Museum Will Now Let You 3D Print Copies Of Its Artifacts." Gizmodo. Gizmodo, 03 Nov. 2014. Web. 14 Oct. 2015.
MacManus, Christopher. "The Weird World Where 3D Printing and Art Collide." CNET. CNET, 02 Sept. 2012. Web. 14 Oct. 2015.
Molitch-Hou, Michael. "Tallest 3D Printed Sculpture in US Installed at MODA." 3D Printing Industry Tallest 3D Printed Sculpture in US Installed at MODA Comments. 3D Printing
Industry, 05 Oct. 2015. Web. 14 Oct. 2015.
Sher, Davide. "Nick Ervinck's Amazing 3D Printing Skills." 3D Printing Industry Artist Nick Ervinck Showcases His and Materialises Amazing 3D Printing Skills in New Book Comments. 3D
Printing Industry, 26 June 2014. Web. 14 Oct. 2015.
Thom, Danielle. "Museums Have Finally Woken up to the Potential of 3D Printing." Apollo Magazine. Apollo Magazine, 22 Apr. 2015. Web. 14 Oct. 2015.
Estes, Adam. "3D-Printed Guns Are Only Getting Better, and Scarier." Gizmodo. Gawker Media, 6 Jan. 2015. Web. 12 Oct. 2015.
Greenberg, Andy. "How 3D Printed Guns Evolved Into Serious Weapons in Just One Year." Wired. Conde Nast Digital, 14 May 2014. Web. 12 Oct. 2015.
Greenberg, Andy. "'Wiki Weapon Project' Aims To Create A Gun Anyone Can 3D-Print At Home." Forbes. Forbes Magazine, 23 Aug. 2012. Web. 12 Oct. 2015.
Mead, Derek. "Congress's Plastic Gun Ban Left a 3D-Printed Loophole." Motherboard. Vice Media, 10 Dec. 2013. Web. 12 Oct. 2015.
Faludi, Jer. "How to Print 3D Parts Better." Environmental Impacts of 3D Printing. Autodesk, Inc., 22 Nov. 2013. Web. 13 Oct. 2015.
Cassano, Jay. "Fixing The Environmental Flaws In 3D Printing By Fixing The Goo." Co.Exist. Fast Company & Inc, 24 Feb. 2015. Web. 13 Oct. 2015.
Faludi, Jeremy. "Is 3D Printing an Environmental Win?" GreenBiz. GreenBiz Group, Inc., 19 July 2013. Web. 13 Oct. 2015.
Moss, Richard. "3D-printed Objects Created Entirely from Wood Cellulose." GizMag. GizMag, 18 June 2015. Web. 23 Oct. 2015.
Martin, Glenn. "So 3D Printers May Be Nifty and Trendy, but Environmentally Friendly? Not Necessarily." California Magazine. Cal Alumni Association, 11 Mar. 2014. Web. 13 Oct. 2015.
Rose, Etherington. "The Solar Sinter by Markus Kayser." Dezeen. N.p., 28 June 2011. Web. 13 Oct. 2015.
Zimmer, Lori. "Solar-Powered 3D Printer Turns Desert Sand Into Glass Bowls and Sculptures." Inhabitat. Inhabitat, LLC, 2011. Web. 13 Oct. 2015.
"3D Printers Shown to Emit Potentially Harmful Nanosized Particles." Phys.org. Science X Network, 24 July 2013. Web. 13 Oct. 2015.
"RapMan 3.2 3D Printer Kit." RapMan 3.2 3D Printer Kit. Web. 28 Oct. 2015.
"About." Interval Band. Web. 28 Oct. 2015.
"Request a Quote." Buy the Form 1 – Formlabs. FormLabs 2015. Web. 28 Oct. 2015.
51. Works Cited Continued
Printing Kidneys. Digital image. Popular Science. N.p., n.d. Web. 13 Oct. 2015. <http://www.popsci.com/science/article/2013-07/how-3D-printing-body-parts-will-revolutionize-medicine>.
Ventola, C. Lee, MS. "Medical Applications for 3D Printing: Current and Projected Uses."Pharmacy and Therapeutics 39.10 (2014): n. pag. NCBI. US National Library of Medicine. Web. 13 Oct.
2015. <http://www.ncbi.nlm.nih.gov/pmc/articles/PMC4189697/>.
Open-Source 3D printed prosthetic hand. Digital image. Imgur. N.p., n.d. Web. 13 Oct. 2015. <http://i.imgur.com/HBZVyyf.gif>.
Kelion, Leo. "Open Bionics Robotic Hand for Amputees Wins Dyson Award." BBC News. N.p., 25 Aug. 2015. Web. 29 Aug. 2015.
<http://www.bbc.com/news/technology-34044453>.
Open Bionicss. Digital image. BBC. N.p., 25 Aug. 2015. Web. 14 Oct. 2015. <http://www.bbc.com/news/technology-34044453>.
Leckart, Steven. "How 3D Printing Body Parts Will Revolutionize Medicine." Popular Science. N.p., 6 Aug. 2013. Web. 14 Oct. 2015. <http://www.popsci.com/science/article/2013-07/how-3D-
printing-body-parts-will-revolutionize-medicine>.
3D Printed Ear. Digital image. BFS STEM Scholars. N.p., 25 Apr. 2015. Web. 13 Oct. 2015. <http://bsfstemscholars.com/wp-
content/uploads/2015/01/4d68a12d2acb7cd0119bc54571bdc39f_vice_630x420.jpg>.
"Inside L'Oreal's Plan to 3D Print Human Skin." Wired.com. Conde Nast Digital, 19 May 2015. Web. 13 Oct. 2015. <http://www.wired.com/2015/05/inside-loreals-plan-3D-print-human-skin/>.
L’Oreal growing skin in labs. Digital image. BBC. N.p., 19 May 2015. Web. 13 Oct. 2015. <http://www.bbc.com/news/technology-32795169>.
Wakefield, Jane. "First 3D-printed Pill Approved by US Authorities." BBC News. The BBC, 4 Aug. 2015. Web. 13 Oct. 2015. <http://www.bbc.com/news/technology-33772692>.
3D Printed Pill. Digital image. Science Burger. N.p., 19 Aug. 2015. Web. 13 Oct. 2015. <http://scienceburger.com/new-fda-approved-pill-can-be-printed-at-home>.
"3D Printing History: The Free Beginner's Guide - 3D Printing Industry." 3D Printing Industry. Web. 28 Oct. 2015.
"Thanks for an Amazing Kickstarter Campaign! The next Chapter of 3D Printing Is Just Beginning." Kickstarter. Web. 28 Oct. 2015.
"What Will You Create?" 3D Printing. B9 Creations LLC. Web. 28 Oct. 2015.
"Charles W. Hull." Bozeman Daily Chronicle. BDC. Web. 28 Oct. 2015.
"Engineering Capacity - More SLS Capacity for ARRK." Engineering Capacity. MercatorMedia. Web. 28 Oct. 2015.
"Rapid Prototyping Technologies,applications &part Deposition Planning..." Rapid Prototyping Technologies,applications &part Deposition Planning... IN SlideShare. Web. 28 Oct. 2015.
"Services and Capabilities LaserSintering.com - Selective Laser Sintering (SLS®), Rapid Prototyping, Rapid MFG." Services and Capabilities LaserSintering.com - Selective Laser Sintering
(SLS®), Rapid Prototyping, Rapid MFG. LaserSintering. Web. 28 Oct. 2015.
"3D Systems Corporation Crashes On Weak Preliminary Q1 Results." ValueWalk. 24 Apr. 2015. Web. 28 Oct. 2015.
Thimmesch, Debra. "Sprout by HP." 3DPrintcom. Web. 28 Oct. 2015.
Halterman, Te. "Sprout by HP." 3DPrintcom. Web. 28 Oct. 2015.
McCloy, Minh. "3D Printing, It Adds up." CitizenJ RSS. State Library of Queensland. Web. 28 Oct. 2015.
"Beginner 3D Printing Projects." Instructables.com. Autodesk, Inc. Web. 28 Oct. 2015.
Editor's Notes
http://graphics.wsj.com/3Dprinting/ - helpful video
http://3dprintingindustry.com/3d-printing-basics-free-beginners-guide/global-effects-manufacturing-economy/ - relatively short summary of 3D printing, including history and application
Faludi, Jeremy. "Is 3D Printing an Environmental Win?" GreenBiz. GreenBiz Group, Inc., 19 July 2013. Web. 13 Oct. 2015.
Martin, Glenn. "So 3D Printers May Be Nifty and Trendy, but Environmentally Friendly? Not Necessarily." California Magazine. Cal Alumni Association, 11 Mar. 2014. Web. 13 Oct. 2015.
"3D Printers Shown to Emit Potentially Harmful Nanosized Particles." Phys.org. Science X Network, 24 July 2013. Web. 13 Oct. 2015.
3d printers use 50 to 100 times more energy than traditional injection manufacturing
Most three d printing is concentrated on plastic based manufacturing which is already much less environmentally friendly than other manufacturing things -Martin
Studies in their environmental impact are not abundant simply because it is a very new technology
Illinois Institute of Technology - Potentially Harmful nanosized chemicals in printing - no side effects discovered, but concerning
Faludi, Jer. "How to Print 3D Parts Better." Environmental Impacts of 3D Printing. Autodesk, Inc., 22 Nov. 2013. Web. 13 Oct. 2015.
Faludi, Jeremy. "Is 3D Printing an Environmental Win?" GreenBiz. GreenBiz Group, Inc., 19 July 2013. Web. 13 Oct. 2015.
Support Material is not available for hobbyist printers - extra ink that you remove
Transport - something size of iphone - sure it takes a lot of energy to move it, but it’s spread out over thousands of devices shipped with it
Faludi, Jer. "How to Print 3D Parts Better." Environmental Impacts of 3D Printing. Autodesk, Inc., 22 Nov. 2013. Web. 13 Oct. 2015.
Faludi, Jeremy. "Is 3D Printing an Environmental Win?" GreenBiz. GreenBiz Group, Inc., 19 July 2013. Web. 13 Oct. 2015.
FDM is better, but still best only for hobbyist and not ready to save anything on a massive manufacturing scale
Rose, Etherington. "The Solar Sinter by Markus Kayser." Dezeen. N.p., 28 June 2011. Web. 13 Oct. 2015.
Zimmer, Lori. "Solar-Powered 3D Printer Turns Desert Sand Into Glass Bowls and Sculptures." Inhabitat. Inhabitat, LLC, 2011. Web. 13 Oct. 2015.
Make more efficient with energy usage and the actual manufacture of the machines
Solar Sinter - prints with glass by using the sun and sand -Etherington
images:
http://www.gizmag.com/3d-printed-wood-cellulose/38072/
http://www.dezeen.com/2011/06/28/the-solar-sinter-by-markus-kayser/
Moss, Richard. "3D-printed Objects Created Entirely from Wood Cellulose." GizMag. GizMag, 18 June 2015. Web. 23 Oct. 2015.
Make more efficient with energy usage and the actual manufacture of the machines
Print with wood pulp - Moss
Uses high water content to dry to shape, previously not considered because it couldn’t be melted, hydrogel and nanocellulose
images:
http://www.gizmag.com/3d-printed-wood-cellulose/38072/
Faludi, Jeremy. "Is 3D Printing an Environmental Win?" GreenBiz. GreenBiz Group, Inc., 19 July 2013. Web. 13 Oct. 2015.
Martin, Glenn. "So 3D Printers May Be Nifty and Trendy, but Environmentally Friendly? Not Necessarily." California Magazine. Cal Alumni Association, 11 Mar. 2014. Web. 13 Oct. 2015.
Cassano, Jay. "Fixing The Environmental Flaws In 3D Printing By Fixing The Goo." Co.Exist. Fast Company & Inc, 24 Feb. 2015. Web. 13 Oct. 2015.
Print hollow parts, print multiple parts close together - Faludi
Currently most plastic based printing has a surplus of plastic printed and properties get corrupted so they are even more difficult to reuse - Martin
Dimension Printers creating recycled 3D filament - Cassano
Long run with more three-d printers, could see decline
Image: http://www.treehugger.com/gadgets/recycled-3d-printer-filament.html
Printing Kidneys. Digital image. Popular Science. N.p., n.d. Web. 13 Oct. 2015. <http://www.popsci.com/science/article/2013-07/how-3D-printing-body-parts-will-revolutionize-medicine>.
Ventola, C. Lee, MS. "Medical Applications for 3D Printing: Current and Projected Uses."Pharmacy and Therapeutics 39.10 (2014): n. pag. NCBI. US National Library of Medicine. Web. 13 Oct. 2015. <http://www.ncbi.nlm.nih.gov/pmc/articles/PMC4189697/>.
Open-Source 3D printed prosthetic hand. Digital image. Imgur. N.p., n.d. Web. 13 Oct. 2015. <http://i.imgur.com/HBZVyyf.gif>.
Kelion, Leo. "Open Bionics Robotic Hand for Amputees Wins Dyson Award." BBC News. N.p., 25 Aug. 2015. Web. 29 Aug. 2015. <http://www.bbc.com/news/technology-34044453>.
Open Bionics. Digital image. BBC. N.p., 25 Aug. 2015. Web. 14 Oct. 2015. <http://www.bbc.com/news/technology-34044453>.
Leckart, Steven. "How 3D Printing Body Parts Will Revolutionize Medicine." Popular Science. N.p., 6 Aug. 2013. Web. 14 Oct. 2015. <http://www.popsci.com/science/article/2013-07/how-3D-printing-body-parts-will-revolutionize-medicine>.
3D Printed Ear. Digital image. BFS STEM Scholars. N.p., 25 Apr. 2015. Web. 13 Oct. 2015. <http://bsfstemscholars.com/wp-content/uploads/2015/01/4d68a12d2acb7cd0119bc54571bdc39f_vice_630x420.jpg>.
"Inside L'Oreal's Plan to 3D Print Human Skin." Wired.com. Conde Nast Digital, 19 May 2015. Web. 13 Oct. 2015. <http://www.wired.com/2015/05/inside-loreals-plan-3D-print-human-skin/>.
L’Oreal growing skin in labs. Digital image. BBC. N.p., 19 May 2015. Web. 13 Oct. 2015. <http://www.bbc.com/news/technology-32795169>.
Wakefield, Jane. "First 3D-printed Pill Approved by US Authorities." BBC News. The BBC, 4 Aug. 2015. Web. 13 Oct. 2015. <http://www.bbc.com/news/technology-33772692>.
3D Printed Pill. Digital image. Science Burger. N.p., 19 Aug. 2015. Web. 13 Oct. 2015. <http://scienceburger.com/new-fda-approved-pill-can-be-printed-at-home>.