The possibilities of 3D-Printing and what you did and didn't know. Including: Space, Technology, Architecture, Scoop, The Hype, Crime, Mass customization, Fashion, Food & Medics
Technology is rapidly advancing. Have we reached the knee of the curve of exponential growth? From robots and AI, and 3D printers, to lasers and quantum computers our technological prowess continues to grow at an amazing rate.
3D Printing: Potential to Revolutionize the Way We Make Almost EverythingCrowdsourcing Week
By Domenico Rossetti, European Commission. Presented at Crowdsourcing Week Europe 2014. Learn more & join us at the next event: http://crowdsourcingweek.com/
Selective laser sintering (SLS) allows for rapid creation of molds and prototypes directly in wax, enabling highly complex geometries. However, SLS faces challenges including slow build times, a lack of skilled designers, high material costs, and public misconceptions about its capabilities. Looking forward, SLS may enable more personalized and locally-produced manufactured goods through decentralized production networks and parametric design tools.
Presented at Crowdsourcing Week Global 2014 by Federico Folcia, Founder, Roomorama. Join us for CSW Global 2015! More Information: http://crowdsourcingweek.com/ and https://twitter.com/CrowdWeek
Distributed remote storage
Accessible from anywhere there’s Internet access or cellular service (with exceptions)
Alternative to traditional radio & television
Alternative to local storage
3D printing involves using additive processes to create 3D objects by laying down successive layers of material. Charles Hull invented stereolithography in 1983, the first 3D printing technique which used a laser to cure liquid resin. Since then, 3D printing has expanded to use various materials like plastic, paper, rubber and metal. The process involves using CAD software to design an object, converting it to .STL format, selecting a material, and building the object layer by layer through different additive techniques like spraying or squeezing material. 3D printing has many applications in industries like healthcare, manufacturing, fashion and aeronautics by enabling faster and customized production. It is also used widely in education for model making and to encourage creativity.
The possibilities of 3D-Printing and what you did and didn't know. Including: Space, Technology, Architecture, Scoop, The Hype, Crime, Mass customization, Fashion, Food & Medics
Technology is rapidly advancing. Have we reached the knee of the curve of exponential growth? From robots and AI, and 3D printers, to lasers and quantum computers our technological prowess continues to grow at an amazing rate.
3D Printing: Potential to Revolutionize the Way We Make Almost EverythingCrowdsourcing Week
By Domenico Rossetti, European Commission. Presented at Crowdsourcing Week Europe 2014. Learn more & join us at the next event: http://crowdsourcingweek.com/
Selective laser sintering (SLS) allows for rapid creation of molds and prototypes directly in wax, enabling highly complex geometries. However, SLS faces challenges including slow build times, a lack of skilled designers, high material costs, and public misconceptions about its capabilities. Looking forward, SLS may enable more personalized and locally-produced manufactured goods through decentralized production networks and parametric design tools.
Presented at Crowdsourcing Week Global 2014 by Federico Folcia, Founder, Roomorama. Join us for CSW Global 2015! More Information: http://crowdsourcingweek.com/ and https://twitter.com/CrowdWeek
Distributed remote storage
Accessible from anywhere there’s Internet access or cellular service (with exceptions)
Alternative to traditional radio & television
Alternative to local storage
3D printing involves using additive processes to create 3D objects by laying down successive layers of material. Charles Hull invented stereolithography in 1983, the first 3D printing technique which used a laser to cure liquid resin. Since then, 3D printing has expanded to use various materials like plastic, paper, rubber and metal. The process involves using CAD software to design an object, converting it to .STL format, selecting a material, and building the object layer by layer through different additive techniques like spraying or squeezing material. 3D printing has many applications in industries like healthcare, manufacturing, fashion and aeronautics by enabling faster and customized production. It is also used widely in education for model making and to encourage creativity.
3D Printing Is Just the Beginning: The Future of Makerspaces within Academic ...Patrick "Tod" Colegrove
ACRL webcast, co-presented with Lisa Kurt.
http://www.ala.org/acrl/makerspaces
Description: The maker movement is growing across the country and world. With interactive, participatory events and growing local communities, we've seen a shift. Individuals, professionals, and hobbyists from areas such as engineering, design, science, art, and more are coming together with one common thread: the desire to make.
Public libraries were the first on the scene to take notice and respond, but now we're beginning to see academic libraries recognize this untapped potential for their own communities. This emerging learning trend holds the promise of enormous change, bringing many researchers and students together from across disciplines in a truly collaborative way. This movement is about more than just the purchase of expensive equipment; it involves engagement, outreach, and knowledge about what drives the academic community. The academic environment is shifting toward content creation in a variety of forms, in turn reshaping learning, curricula, and research across the board. In order for libraries to continue to support the research and learning needs of their institutions, it is critical to go beyond traditional library materials, to understand what new resources and technologies the library can support for all on campus to use.
Why A 3D Printing Lab In A Business School?Jason Frasca
Why A 3D Printing Lab In A Business School? To turn our student entrepreneurs into designers through rapid prototyping, customer feedback, and real time design.
3D PRINTING - AN EMERGING ERA OF FUTURE PRINTINGPravin Ahirwar
The process of making a three dimensional solid object from digital model or other electronic data is called 3d printing.
It is also known as Additive manufacturing.
3D printing is a form of additive manufacturing technology where a three dimensional object is created by laying down successive layers of material.
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.
3D printing is a form of additive manufacturing that creates 3D objects by laying down successive layers of material using CAD software to guide the process. CAD software allows for accurate designs and documentation of parts, while 3D printing techniques like stereolithography, fused deposition modeling, selective laser melting, and laminated object manufacturing build objects layer by layer from digital models. While offering advantages like customization and reduced waste, 3D printing also faces limitations in materials used, maximum size, and potential safety issues.
The document discusses the potential of 3D printing and provides an overview of its current state. It describes 3D printing as a process that builds physical objects from digital models in successive thin layers without the need for tools. The document outlines several benefits of 3D printing such as high levels of customization, reduced transportation needs, and less waste. It also discusses trends like its applications in various industries, declining costs and improving quality, and emerging techniques like 4D printing. However, the document notes some challenges like surface finish and speed that still need improvement.
This presentation gives a basic overview on 3D printing. Introduction 3D printing, History of 3D printing, Various 3D printing technologies, Advantages of 3D printing, Uses of 3D printing are all covered in this presentation.
3D Printing Market : Pin-Point Analysis of Industry Trends & Recent Technolog...Allied Market Research
3D Printing Market Report, published by Allied Market Research, forecasts that the global market is expected to garner $8.6 billion by 2020, registering a CAGR of 21% during the period 2015-2020. This surge in growth is primarily attributed to the rising demand for faster and efficient ways to manufacture complex design objects using a wide array of materials.
Get Sample of this report : https://goo.gl/kTpMki
Additive manufacturing continues to expand and, as the technologies move beyond prototyping, managers struggle with how to apply AM within their businesses. Data from our 3D Opportunity course suggest where stakeholders want to see AM investments made, and how to assess the benefits these avenues of choice provide
Explore where stakeholders want to see additive manufacturing investments made: http://deloi.tt/1NhjNG1
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 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
This document provides an overview of 3D printing technology. It discusses what 3D printing is, how the process works by creating a virtual design and then layering materials, and some common methods and technologies used like selective laser sintering and fused deposition modeling. Applications mentioned include rapid prototyping to save time and costs as well as personal printing. The document also notes the industry is growing and will change manufacturing and commerce, while challenges include costs, limited materials per machine, standard file formats, and printing speed.
Viceverba_appdelmes_0624_joc per aprendre verbs llatinsDaniel Fernández
Vice Verba és una aplicació educativa dissenyada per ajudar els estudiants de llatí a aprendre i practicar verbs llatins d'una manera interactiva i entretinguda.
3D Printing Is Just the Beginning: The Future of Makerspaces within Academic ...Patrick "Tod" Colegrove
ACRL webcast, co-presented with Lisa Kurt.
http://www.ala.org/acrl/makerspaces
Description: The maker movement is growing across the country and world. With interactive, participatory events and growing local communities, we've seen a shift. Individuals, professionals, and hobbyists from areas such as engineering, design, science, art, and more are coming together with one common thread: the desire to make.
Public libraries were the first on the scene to take notice and respond, but now we're beginning to see academic libraries recognize this untapped potential for their own communities. This emerging learning trend holds the promise of enormous change, bringing many researchers and students together from across disciplines in a truly collaborative way. This movement is about more than just the purchase of expensive equipment; it involves engagement, outreach, and knowledge about what drives the academic community. The academic environment is shifting toward content creation in a variety of forms, in turn reshaping learning, curricula, and research across the board. In order for libraries to continue to support the research and learning needs of their institutions, it is critical to go beyond traditional library materials, to understand what new resources and technologies the library can support for all on campus to use.
Why A 3D Printing Lab In A Business School?Jason Frasca
Why A 3D Printing Lab In A Business School? To turn our student entrepreneurs into designers through rapid prototyping, customer feedback, and real time design.
3D PRINTING - AN EMERGING ERA OF FUTURE PRINTINGPravin Ahirwar
The process of making a three dimensional solid object from digital model or other electronic data is called 3d printing.
It is also known as Additive manufacturing.
3D printing is a form of additive manufacturing technology where a three dimensional object is created by laying down successive layers of material.
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.
3D printing is a form of additive manufacturing that creates 3D objects by laying down successive layers of material using CAD software to guide the process. CAD software allows for accurate designs and documentation of parts, while 3D printing techniques like stereolithography, fused deposition modeling, selective laser melting, and laminated object manufacturing build objects layer by layer from digital models. While offering advantages like customization and reduced waste, 3D printing also faces limitations in materials used, maximum size, and potential safety issues.
The document discusses the potential of 3D printing and provides an overview of its current state. It describes 3D printing as a process that builds physical objects from digital models in successive thin layers without the need for tools. The document outlines several benefits of 3D printing such as high levels of customization, reduced transportation needs, and less waste. It also discusses trends like its applications in various industries, declining costs and improving quality, and emerging techniques like 4D printing. However, the document notes some challenges like surface finish and speed that still need improvement.
This presentation gives a basic overview on 3D printing. Introduction 3D printing, History of 3D printing, Various 3D printing technologies, Advantages of 3D printing, Uses of 3D printing are all covered in this presentation.
3D Printing Market : Pin-Point Analysis of Industry Trends & Recent Technolog...Allied Market Research
3D Printing Market Report, published by Allied Market Research, forecasts that the global market is expected to garner $8.6 billion by 2020, registering a CAGR of 21% during the period 2015-2020. This surge in growth is primarily attributed to the rising demand for faster and efficient ways to manufacture complex design objects using a wide array of materials.
Get Sample of this report : https://goo.gl/kTpMki
Additive manufacturing continues to expand and, as the technologies move beyond prototyping, managers struggle with how to apply AM within their businesses. Data from our 3D Opportunity course suggest where stakeholders want to see AM investments made, and how to assess the benefits these avenues of choice provide
Explore where stakeholders want to see additive manufacturing investments made: http://deloi.tt/1NhjNG1
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 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
This document provides an overview of 3D printing technology. It discusses what 3D printing is, how the process works by creating a virtual design and then layering materials, and some common methods and technologies used like selective laser sintering and fused deposition modeling. Applications mentioned include rapid prototyping to save time and costs as well as personal printing. The document also notes the industry is growing and will change manufacturing and commerce, while challenges include costs, limited materials per machine, standard file formats, and printing speed.
Viceverba_appdelmes_0624_joc per aprendre verbs llatinsDaniel Fernández
Vice Verba és una aplicació educativa dissenyada per ajudar els estudiants de llatí a aprendre i practicar verbs llatins d'una manera interactiva i entretinguda.