The document discusses various 3D printing technologies such as fused deposition modeling, stereolithography, selective laser sintering, and laminated object manufacturing. It provides examples of how 3D printing is used for fashion, shoes, characters, media, optics, and items from video games. Open source 3D printers like RepRap are also covered. The document contains over 50 references to external sources.
Digital Fabrication Studio.05 _CNC_Milling.Molding.Casting @ Aalto Media FactoryMassimo Menichinelli
DIGITAL FABRICATION STUDIO (25438)
The course provides a general understanding on how to design and manufacture products and prototypes in a Fab Lab, using digital fabrication technologies and understanding their features and limits.
Students will learn how information shapes design, manufacturing and collaboration processes and artifacts in a Fab Lab. They will learn how to digitally fabricate a project or how to digitally modify an existing project; students will also learn how to manage, embed and retrieve information about a project. Projects and prototypes developed and manufactured in this course will not be interactive.
The course consists of lectures and a group project to be digitally fabricated, be it a project already designed but not yet realized or be it the modification of an existing project. Every lecture (3 hours) includes time for testing the technologies covered (1 hour) and for developing part of the group project and for receiving feedback about it (1 hour).
http://mlab.taik.fi/studies/courses/course?id=1963
Digital Fabrication Studio.04_LaserCutting @ Aalto Media FactoryMassimo Menichinelli
DIGITAL FABRICATION STUDIO (25438)
The course provides a general understanding on how to design and manufacture products and prototypes in a Fab Lab, using digital fabrication technologies and understanding their features and limits.
Students will learn how information shapes design, manufacturing and collaboration processes and artifacts in a Fab Lab. They will learn how to digitally fabricate a project or how to digitally modify an existing project; students will also learn how to manage, embed and retrieve information about a project. Projects and prototypes developed and manufactured in this course will not be interactive.
The course consists of lectures and a group project to be digitally fabricated, be it a project already designed but not yet realized or be it the modification of an existing project. Every lecture (3 hours) includes time for testing the technologies covered (1 hour) and for developing part of the group project and for receiving feedback about it (1 hour).
http://mlab.taik.fi/studies/courses/course?id=1963
Digital Fabrication Studio.05 _CNC_Milling.Molding.Casting @ Aalto Media FactoryMassimo Menichinelli
DIGITAL FABRICATION STUDIO (25438)
The course provides a general understanding on how to design and manufacture products and prototypes in a Fab Lab, using digital fabrication technologies and understanding their features and limits.
Students will learn how information shapes design, manufacturing and collaboration processes and artifacts in a Fab Lab. They will learn how to digitally fabricate a project or how to digitally modify an existing project; students will also learn how to manage, embed and retrieve information about a project. Projects and prototypes developed and manufactured in this course will not be interactive.
The course consists of lectures and a group project to be digitally fabricated, be it a project already designed but not yet realized or be it the modification of an existing project. Every lecture (3 hours) includes time for testing the technologies covered (1 hour) and for developing part of the group project and for receiving feedback about it (1 hour).
http://mlab.taik.fi/studies/courses/course?id=1963
Digital Fabrication Studio.04_LaserCutting @ Aalto Media FactoryMassimo Menichinelli
DIGITAL FABRICATION STUDIO (25438)
The course provides a general understanding on how to design and manufacture products and prototypes in a Fab Lab, using digital fabrication technologies and understanding their features and limits.
Students will learn how information shapes design, manufacturing and collaboration processes and artifacts in a Fab Lab. They will learn how to digitally fabricate a project or how to digitally modify an existing project; students will also learn how to manage, embed and retrieve information about a project. Projects and prototypes developed and manufactured in this course will not be interactive.
The course consists of lectures and a group project to be digitally fabricated, be it a project already designed but not yet realized or be it the modification of an existing project. Every lecture (3 hours) includes time for testing the technologies covered (1 hour) and for developing part of the group project and for receiving feedback about it (1 hour).
http://mlab.taik.fi/studies/courses/course?id=1963
Digital Fabrication Studio.01 _Fabbing @ Aalto Media FactoryMassimo Menichinelli
DIGITAL FABRICATION STUDIO (25438)
The course provides a general understanding on how to design and manufacture products and prototypes in a Fab Lab, using digital fabrication technologies and understanding their features and limits.
Students will learn how information shapes design, manufacturing and collaboration processes and artifacts in a Fab Lab. They will learn how to digitally fabricate a project or how to digitally modify an existing project; students will also learn how to manage, embed and retrieve information about a project. Projects and prototypes developed and manufactured in this course will not be interactive.
The course consists of lectures and a group project to be digitally fabricated, be it a project already designed but not yet realized or be it the modification of an existing project. Every lecture (3 hours) includes time for testing the technologies covered (1 hour) and for developing part of the group project and for receiving feedback about it (1 hour).
http://mlab.taik.fi/studies/courses/course?id=1963
FabLab stands for "Fabrication Laboratories". These are centres equipped with 3D printers, laser cutters and all sorts of other digitally controlled equipment. The first one was opened in MIT by Neil Gerschenfeld, professor of Bits and Atoms with a course entitled "How to make (almost) anything". They have now spread across the world including England. This presentation by Jane Keats was given to Leeds and Sheffield inventors clubs.
20120612 fablab arnhem fabclass 3 d printingFabLabArnhem
FabLab Arnhem organizes Free FabClasses about various subjects which are significant for our FabLab visitors. For example: sales, finance, branding, 3d printing, businessconcepts, etc. Look at www.fablabarnhem.nl for the next one.
Digital Fabrication Studio.06 _3D_PrintingScanning @ Aalto Media FactoryMassimo Menichinelli
DIGITAL FABRICATION STUDIO (25438)
The course provides a general understanding on how to design and manufacture products and prototypes in a Fab Lab, using digital fabrication technologies and understanding their features and limits.
Students will learn how information shapes design, manufacturing and collaboration processes and artifacts in a Fab Lab. They will learn how to digitally fabricate a project or how to digitally modify an existing project; students will also learn how to manage, embed and retrieve information about a project. Projects and prototypes developed and manufactured in this course will not be interactive.
The course consists of lectures and a group project to be digitally fabricated, be it a project already designed but not yet realized or be it the modification of an existing project. Every lecture (3 hours) includes time for testing the technologies covered (1 hour) and for developing part of the group project and for receiving feedback about it (1 hour).
http://mlab.taik.fi/studies/courses/course?id=1963
3D printing has been a focal point in library makerspaces for several years; however, it seems that interest in the technology has decelerated. The technology may have slowed down, but there is still a lot going on in this space, which can be overwhelming to keep up with it all. In this webinar:
- Learn what 3D printing is, how it works, and gain insight on how to implement/maintain, and to perhaps build your own 3D printer.
- Get a snapshot of some of the best 3D printers and products on the market, including an overview on resin and carbon printers.
- Discover a variety of 3D design applications to help with getting ideas to working prototypes.
- Study trends in digital scanning and other emerging 3D design/printing technologies.
- Interview an expert 3D designer/printer in the industry to get even more insight into this exciting technology.
Digital Fabrication Studio.01 _Fabbing @ Aalto Media FactoryMassimo Menichinelli
DIGITAL FABRICATION STUDIO (25438)
The course provides a general understanding on how to design and manufacture products and prototypes in a Fab Lab, using digital fabrication technologies and understanding their features and limits.
Students will learn how information shapes design, manufacturing and collaboration processes and artifacts in a Fab Lab. They will learn how to digitally fabricate a project or how to digitally modify an existing project; students will also learn how to manage, embed and retrieve information about a project. Projects and prototypes developed and manufactured in this course will not be interactive.
The course consists of lectures and a group project to be digitally fabricated, be it a project already designed but not yet realized or be it the modification of an existing project. Every lecture (3 hours) includes time for testing the technologies covered (1 hour) and for developing part of the group project and for receiving feedback about it (1 hour).
http://mlab.taik.fi/studies/courses/course?id=1963
FabLab stands for "Fabrication Laboratories". These are centres equipped with 3D printers, laser cutters and all sorts of other digitally controlled equipment. The first one was opened in MIT by Neil Gerschenfeld, professor of Bits and Atoms with a course entitled "How to make (almost) anything". They have now spread across the world including England. This presentation by Jane Keats was given to Leeds and Sheffield inventors clubs.
20120612 fablab arnhem fabclass 3 d printingFabLabArnhem
FabLab Arnhem organizes Free FabClasses about various subjects which are significant for our FabLab visitors. For example: sales, finance, branding, 3d printing, businessconcepts, etc. Look at www.fablabarnhem.nl for the next one.
Digital Fabrication Studio.06 _3D_PrintingScanning @ Aalto Media FactoryMassimo Menichinelli
DIGITAL FABRICATION STUDIO (25438)
The course provides a general understanding on how to design and manufacture products and prototypes in a Fab Lab, using digital fabrication technologies and understanding their features and limits.
Students will learn how information shapes design, manufacturing and collaboration processes and artifacts in a Fab Lab. They will learn how to digitally fabricate a project or how to digitally modify an existing project; students will also learn how to manage, embed and retrieve information about a project. Projects and prototypes developed and manufactured in this course will not be interactive.
The course consists of lectures and a group project to be digitally fabricated, be it a project already designed but not yet realized or be it the modification of an existing project. Every lecture (3 hours) includes time for testing the technologies covered (1 hour) and for developing part of the group project and for receiving feedback about it (1 hour).
http://mlab.taik.fi/studies/courses/course?id=1963
3D printing has been a focal point in library makerspaces for several years; however, it seems that interest in the technology has decelerated. The technology may have slowed down, but there is still a lot going on in this space, which can be overwhelming to keep up with it all. In this webinar:
- Learn what 3D printing is, how it works, and gain insight on how to implement/maintain, and to perhaps build your own 3D printer.
- Get a snapshot of some of the best 3D printers and products on the market, including an overview on resin and carbon printers.
- Discover a variety of 3D design applications to help with getting ideas to working prototypes.
- Study trends in digital scanning and other emerging 3D design/printing technologies.
- Interview an expert 3D designer/printer in the industry to get even more insight into this exciting technology.
From a presentation given at the Jupiter Branch of the Palm Beach County Library System on Wed, Jun 25, 6:30 pm:
Robotics Engineer, Pierre Baillargeon, will discuss 3D printing. Learn about this new innovative technology, how it works, what it looks like and what are some of the things you can create using a 3D printer. (60 min.)
3D printed cars, homes, prosthetic hands, food, International Space Station tools, and almost anything imagined is now mainstream. 3D printing seems to have taken over the world and 3D printers are now affordable for many consumers. However, basic 3D design principles tend to be neglected, especially in library makerspaces. 3D printing objects work well only when one follows basic fundamentals of 3D design. In this webinar:
- Understand 3D printing and how it works.
- Discover a variety of free 3D design applications and repositories.
- Learn basic 3D design fundamentals (e.g., understanding 3D space and geometry, modeling, surfaces, textures, and rendering images).
- Gain hands-on experience designing a 3D object that can be 3D printed.
Note: it is recommended attendees create a Tinkercad (https://www.tinkercad.com/) account before this workshop.
3D Printing aka Rapid Prototyping is a game changing technology that is changing the way that designers produce prototypes and short-run manufacturing. This presentation is part of Delvinia's internal Lunch & Learn workshops and is intended for educational purposes only.
It would be very helpful and very informative to students who want to get first-hand information right from the starting point of their career into the ever-growing and blooming technology
A brief presentation on 3D Printing technology.
3D printing is the technology to print layout of any design to check the accuracy of the design before implementing the same on a large scale design in order to save time and money. The procedure of the same is quite easy and can be carried out with great efficiency. Almost all designs can be formed using this technique unless it is too complex.
"Open and collaborative design processes. Meta-Design, ontologies and platforms within the Maker Movement"
Doctoral defense @Aalto University 11.11.2020
Custos: Professor Lily Diaz-Kommonen, Aalto University, Department of Media, Aalto Media Lab
Opponent: Professor Elisa Giaccardi, Delft University of Technology, The Netherlands
The emergence of the Maker Movement has taken place in the context of a design practice and research that is now open, peer-to-peer, diffuse, distributed, decentralized; activity-based; meta-designed; ontologically-defined; locally-bounded but globally-networked and community-centered. For many years the author participated and worked in the Maker Movement, with a special focus on its usage of digital platforms and digital fabrication tools for collaboratively designing and manufacturing digital and physical artifacts as Open Design projects. The author’s main focus in practice and research as a meta-designer was in understanding how can participants in distributed systems collaboratively work together through tools and platforms for the designing and managing of collaborative processes. The main research question of this dissertation is: How can we support and integrate the research and practice of meta-designers in analyzing, designing and sharing open and collaborative design and making processes within open, peer-to-peer and distributed systems?
Press release: https://www.aalto.fi/en/events/defense-in-the-field-of-new-media-msc-massimo-menichinelli
Video: https://youtu.be/ZYSCcIG0Q6k
Dissertation: http://urn.fi/URN:ISBN:978-952-64-0091-4
Research On And Through Design With Open, Distributed And Collaborative Desig...Massimo Menichinelli
Massimo Menichinelli
"Research On And Through Design With Open, Distributed And Collaborative Design Processes Within The Maker Movement"
08/11/2019
https://www.designsociety.org/939/Symposium+on+Design+Theory+and+Innovation
Platforms, Networks And Impact Of Open, Distributed And Collaborative Design ...Massimo Menichinelli
Massimo Menichinelli
"Platforms, Networks And Impact Of Open, Distributed And Collaborative Design And Making Processes"
Tongji University - Shanghai
19/11/2019
The Decentralization Turns In Design: An Exploration Through The Maker Moveme...Massimo Menichinelli
Massimo Menichinelli
Priscilla Ferronato
"The Decentralization Turns In Design: An Exploration Through The Maker Movement"
DeSForm19 - MIT Design Lab
10/10/2019
The challenges posed by the complexity of our times requires the Design discipline to understand the many complex relationships behind the social, business, technology and territory dimensions of each project. Such nature of complex systems lays not only inside design projects, but also inside the design processes that generate them, and the ability of organizing them through meta-design approaches is becoming strategic. Since the turn of the century, the design discipline has increasingly moved its scope from single users to local and online communities, from isolated projects to system of solutions. This shift has brought researchers and practitioners to investigate tools and strategies to enable mass- scale interactions by adopting several models and tools coming from software development and web-based technologies: Open Source, P2P, DDD (Diffuse, Distributed, and Decentralized) systems. This influence has matured over the years, and if we observed in the past how such systemic models can be applied in the design practice (part 1), we are facing now a new phase where Design will have an increasing role in enabling such systems through the analysis, visualization and design of their collaborative tools, platforms, processes and organizations (part 2). This scope falls into the Meta-Design domain, where designers build environments for the collaborative design of open processes and their resulting organizations (part 3). In this paper, we address this phenomena by elaborating the Open Meta-Design framework (part 4), that provides a way for designing open, collaborative and distributed processes (including those in the professional design domain). The paper positions the framework among current meta-design and design approaches and develops its features of modeling, analysis, management and visualization of processes. This framework is based on four dimensions: conceptual (describing the philosophy, context and limitations of the approach), data (describing the ontology of design processes), design (visualizing designing processes) and software (managing the connections between the ontology and the visualization, the data and design dimensions). We believe that such a framework could potentially facilitate the participation and the creation of open, collaborative and distributed processes, enabling therefore more relevant interactions for communities. As a conclusion, the paper provides a roadmap for developing and testing the Open Meta-Design framework, and therefore evaluating its relevance in supporting complex projects (part 5).
You could be a professional graphic designer and still make mistakes. There is always the possibility of human error. On the other hand if you’re not a designer, the chances of making some common graphic design mistakes are even higher. Because you don’t know what you don’t know. That’s where this blog comes in. To make your job easier and help you create better designs, we have put together a list of common graphic design mistakes that you need to avoid.
Dive into the innovative world of smart garages with our insightful presentation, "Exploring the Future of Smart Garages." This comprehensive guide covers the latest advancements in garage technology, including automated systems, smart security features, energy efficiency solutions, and seamless integration with smart home ecosystems. Learn how these technologies are transforming traditional garages into high-tech, efficient spaces that enhance convenience, safety, and sustainability.
Ideal for homeowners, tech enthusiasts, and industry professionals, this presentation provides valuable insights into the trends, benefits, and future developments in smart garage technology. Stay ahead of the curve with our expert analysis and practical tips on implementing smart garage solutions.
Can AI do good? at 'offtheCanvas' India HCI preludeAlan Dix
Invited talk at 'offtheCanvas' IndiaHCI prelude, 29th June 2024.
https://www.alandix.com/academic/talks/offtheCanvas-IndiaHCI2024/
The world is being changed fundamentally by AI and we are constantly faced with newspaper headlines about its harmful effects. However, there is also the potential to both ameliorate theses harms and use the new abilities of AI to transform society for the good. Can you make the difference?
Transforming Brand Perception and Boosting Profitabilityaaryangarg12
In today's digital era, the dynamics of brand perception, consumer behavior, and profitability have been profoundly reshaped by the synergy of branding, social media, and website design. This research paper investigates the transformative power of these elements in influencing how individuals perceive brands and products and how this transformation can be harnessed to drive sales and profitability for businesses.
Through an exploration of brand psychology and consumer behavior, this study sheds light on the intricate ways in which effective branding strategies, strategic social media engagement, and user-centric website design contribute to altering consumers' perceptions. We delve into the principles that underlie successful brand transformations, examining how visual identity, messaging, and storytelling can captivate and resonate with target audiences.
Methodologically, this research employs a comprehensive approach, combining qualitative and quantitative analyses. Real-world case studies illustrate the impact of branding, social media campaigns, and website redesigns on consumer perception, sales figures, and profitability. We assess the various metrics, including brand awareness, customer engagement, conversion rates, and revenue growth, to measure the effectiveness of these strategies.
The results underscore the pivotal role of cohesive branding, social media influence, and website usability in shaping positive brand perceptions, influencing consumer decisions, and ultimately bolstering sales and profitability. This paper provides actionable insights and strategic recommendations for businesses seeking to leverage branding, social media, and website design as potent tools to enhance their market position and financial success.
Between Filth and Fortune- Urban Cattle Foraging Realities by Devi S Nair, An...Mansi Shah
This study examines cattle rearing in urban and rural settings, focusing on milk production and consumption. By exploring a case in Ahmedabad, it highlights the challenges and processes in dairy farming across different environments, emphasising the need for sustainable practices and the essential role of milk in daily consumption.
White wonder, Work developed by Eva TschoppMansi Shah
White Wonder by Eva Tschopp
A tale about our culture around the use of fertilizers and pesticides visiting small farms around Ahmedabad in Matar and Shilaj.
Hello everyone! I am thrilled to present my latest portfolio on LinkedIn, marking the culmination of my architectural journey thus far. Over the span of five years, I've been fortunate to acquire a wealth of knowledge under the guidance of esteemed professors and industry mentors. From rigorous academic pursuits to practical engagements, each experience has contributed to my growth and refinement as an architecture student. This portfolio not only showcases my projects but also underscores my attention to detail and to innovative architecture as a profession.
Expert Accessory Dwelling Unit (ADU) Drafting ServicesResDraft
Whether you’re looking to create a guest house, a rental unit, or a private retreat, our experienced team will design a space that complements your existing home and maximizes your investment. We provide personalized, comprehensive expert accessory dwelling unit (ADU)drafting solutions tailored to your needs, ensuring a seamless process from concept to completion.
4. 3D printing: becoming really popular
Source: http://www.shapeways.com/blog/archives/1582-3D-Printing-Hits-the-Peak-of-the-Gartner-Hype-Cycle-for-Emerging-Technologies.html
3D printing is now reaching the peak of the Gartner Hype Cycle.
5. Technologies: 3D printing
Source: http://replicatorinc.com/blog/2009/02/4-types-of-3d-printing/
http://youtu.be/7QP73uTJApw
Refers to object made using ink jet technology in 3 dimensions by
layering powder and binding it with pigmented glue.
6. Technologies: Fused Deposition Modeling
Source: http://replicatorinc.com/blog/2009/02/4-types-of-3d-printing/
http://youtu.be/h8XJUqHXgls
Fused Deposition Modeling (FDM) creates models by heating and
extruding a flament of plastic material.
7. Technologies: Fused Deposition Modeling
Source: http://youtu.be/DQWyhezIze4
http://www.the3doodler.com/
Fused Deposition Modeling (FDM) but with hand control: the frst
3D printing pen.
8. Technologies: materials for FDM
Source: http://www.protoparadigm.com/2011/11/filament-tolerances-and-print-quality/
Most of the 3D Printing community uses either ABS or PLA in either
3mm or 1.75mm diameters.
11. Technologies: Selective Laser Sintering
Source: http://replicatorinc.com/blog/2009/02/4-types-of-3d-printing/
http://youtu.be/lC0uVO_uT0s
Selective Laser Sintering (SLS) is similar to stereolithography replacing the
UV light with a laser and a vat of liquid with a powdered base.
12. Technologies: Laminated Object Manufacturing
Source: http://replicatorinc.com/blog/2009/02/4-types-of-3d-printing/
http://youtu.be/FjxI2HszHzo
Laminated Object Manufacturing (LOM) machines cut and glue thousands of
sheets of material together to form solids, sometimes with standard A4 paper.
13. Technologies: Laminated Object Manufacturing
Source: http://replicatorinc.com/blog/2009/02/4-types-of-3d-printing/
http://www.mcortechnologies.com/gallery
Laminated Object Manufacturing (LOM) machines cut and glue thousands of
sheets of material together to form solids, sometimes with standard A4 paper.
14. Technologies: Electron Beam Melting
Source: http://replicatorinc.com/blog/2009/02/4-types-of-3d-printing/
http://youtu.be/E7--ZWPVVdQ
Electron Beam Melting (EBM) is similar to SLS except the process is far more exact
and capable of producing implant grade parts to be used in orthopedic surgery.
15. 3D Metal printing
Source: http://youtu.be/B9VOwqtOglg
http://www.shapeways.com/themes/stainless_steel_3dprinting_gallery
Now it is possible to print your model in stainless steel on Shapeways! The
material will be fnished in a shining stainless steel look and costs $10 / cm3.
16. 3D Glass printing
Source: http://youtu.be/BtK-Hqd6Q2I
http://www.shapeways.com/materials/milky_white_matte_glass
The material is porous, opaque and fragile and made from recycled soda-lime
glass, the fne glass powder is glued together with a binder and then sintered.
17. 3D Ceramics printing
Source: http://youtu.be/zZU7O1BHfyo
http://www.shapeways.com/materials/ceramics
Material properties are the same as standard ceramics. Fine ceramic powder
bound together with binder, fred, glazed with lead-free, non-toxic gloss fnish.
18. Big size 3D printing: Endless chair
Source: http://youtu.be/FvRTHynk9KA
http://www.dirkvanderkooij.nl/en
Printing an Endless Chair from recycled refrigerators.
Design by Dirk vander Kooij.
19. Big size 3D printing: D-Shape
Source: http://youtu.be/HBxx8XTpDZ4
http://d-shape.com/
D-Shape is a new robotic building system using new
materials to create superior stone-like structures.
20. Small size 3D printing: 2 photons polymerization
Source: http://www.photonics.com/Article.aspx?AID=26907
A promising 3D microfabrication method that has recently attracted considerable
attention is based on two-photon polymerization with ultrashort laser pulses.
21. Bio 3D Printing
Source: http://youtu.be/YOnIxcc0DW8
A new tissue engineering technology now has the ability to arrange culture cells
in three dimensions. It is now possible to manufacture tissue in demand.
22. Bio 3D Printing: Organovo
Source: http://www.organovo.com/
Organovo is focused on delivering breakthrough three-dimensional biology
capabilities to create tissue on demand for research and surgical applications.
23. Bio 3D Printing: Organovo
Source: http://www.organovo.com/products/novogen-mmx-bioprinter
The NovoGen MMX Bioprinter™ is a novel hardware and software platform at the
forefront of bioprinting research and development.
24. Drug 3D Printing
Source: http://www.gizmodo.co.uk/2012/04/who-needs-a-pharmacy-when-you-can-just-print-out-your-own-drugs-at-home/
Researchers from Scotland have made their own DIY 3D-printing drugstore and
you’ll be able to use them to print your own drugs right at your own home.
25. Food 3D Printing
Source: http://laughingsquid.com/choc-creator-the-chocolate-3d-printer-is-now-available-to-purchase/
http://youtu.be/r7xs-cHAt3I
Choc Creator, the world’s frst 3D chocolate printer was developed by a team of
researchers at the University of Exeter and is now available to purchase.
26. Food 3D Printing
Source: http://laughingsquid.com/choc-creator-the-chocolate-3d-printer-is-now-available-to-purchase/
http://youtu.be/r7xs-cHAt3I
CandyFab is a machine that can make arbitrary 3D solid objects at low cost from a
variety of low-melting point materials including pure sugar.
27. Ice 3D Printing
Source: http://www.wired.com/magazine/2011/12/st_3diceprinting/
http://www.3ders.org/articles/20120103-3d-ice-printer.html
Pieter Sijpkes, a professor at McGill University, has discovered since cobbling
together a machine that prints objects by building up ultrathin layers of ice.
28. Recycle plastic for your FDM machine
Source: http://www.kickstarter.com/projects/rocknail/filabot-plastic-filament-maker
A 3D plastic extrusion system for mostly any type of recyclable plastic, to make
usable 3D printing flament by grinding, melting, extruding the plastic flament.
29. Markus Kayser - Solar Sinter Project
Source: http://vimeo.com/25401444
In this experiment sunlight and sand are used as raw energy and material to
produce glass objects using a 3D printing process.
30. Open Source 3D printers: RepRap
Source: http://reprap.org/wiki/Mendel
It's the second, improved version of RepRap: small enough to ft on your
desk, but with a print volume large enough for you to make big things.
31. Open Source 3D printers: RepRap
Source: http://reprap.org/wiki/RepRap_Family_Tree
Again, the evolution of an open source
project that's too big to ft into one slide...
32. Open Source 3D printers: RepRap
Source: http://reprap.org/wiki/RepRap_Family_Tree
Again, the evolution of an open source
project that's too big to ft into one slide...
33. RepRap and its children... Makerbot
Source: http://en.wikipedia.org/wiki/Makerbot
The frst user-friendly open source 3D
printer, from RepRap
34. RepRap and its children... Makerbot
Source: http://store.makerbot.com/replicator-404.html
The second edition of the Makerbot
35. RepRap and its children... Ultimaker
Source: http://reprap.org/wiki/Ultimaker
http://blog.ultimaker.com/
From the RepRap, the Ultimaker, the best resolution
and speed from an open source machine
36. RepRap and its children... Ultimaker
Source: http://www.hive76.org/insane-3d-printing-resolution-ultimaker-under-the-micro
The average layer height in that pic is
around 0.074 mm (that is 74 microns).
37. A portable 3D printer...
Source: http://www.core77.com/blog/digital_fabrication/a_suitcase-sized_3-in-1_cnc_multi-tool_23007.asp
http://vimeo.com/45911972
PopFab: at its heart is a computer-controlled motion platform
and a means of attaching various toolheads.
40. 3D Printing Flexible Grids
Source: http://lmnts.lmnarchitects.com/fabrication/printed-flexgrids/
Done with a Grasshopper defnition that used the grid components to
create a set of flexible triangular, square, and hexagonal grids.
41. 3D Printing Flexible Grids
Source: http://lmnts.lmnarchitects.com/fabrication/printed-flexgrids/
Done with a Grasshopper defnition that used the grid components to
create a set of flexible triangular, square, and hexagonal grids.
43. 3D printed bikini
Source: http://www.continuumfashion.com/N12.html
The N12 bikini is the world's frst ready-to-wear, completely 3D-
printed cloth. All of the pieces are snap together without any sewing.
44. 3D printed fashion design
Source: http://www.wired.com/design/2012/04/10-things-3d-printers-can-do-now?pid=167
Dutch designer Iris Van Herpen uses 3-D printers to create designer
fashion for Björk and Lady Gaga.
45. 3D printed fashion design
Source: http://blog.ponoko.com/2012/04/24/a-fashion-show-of-3d-printed-hats/
http://i.materialise.com/challenge/the-hats-off-to-3d-printing-challenge/
A collection of 3D printed hats and acessories were shown on the runway as part
of the Materialise World Conference in Leuven, Belgium.
46. 3D printed shoes
Source: http://blog.sculpteo.com/2012/03/29/3d-printing-for-green-fashion-melissas-footwear-experiments/
Melissas’ shoes are among the most amazing examples of what 3D printing can do
for style and design. Designer Andreia Chaves created the Invisible Shoes
47. 3D printed characters
Source: http://www.shapeways.com/blog/archives/1332-Lifes-Memorable-Moments-Captured-In-3D.html
Yoni Binstock is using front and side portrait photos together with 123D Catch to
reconstruct a facial model and texture this on to a cake topper design.
48. 3D printing media...
Source: http://www.shapeways.com/blog/archives/1179-Video-of-3D-Printed-Record-Playing-Still-Alive-from-Portal.html
A 3D printed record for the Fisher-Price record player playing 'Still Alive'.
The tune and model were all generated in Processing. Sold on Shapeways.
49. 3D printing media...
Source: http://youtu.be/ElAJJnSvQtk
A 3D printed record for the Fisher-Price record player playing 'Still Alive'.
The tune and model were all generated in Processing. Sold on Shapeways.
50. 3D printing media...
Source: http://youtu.be/ERiw664xMKE
The frst 3D printed prototype of the programmable kalimba sequencer.
Pegs can be set to produce different 16-step sequences of 5 tones.
51. 3D printing media...
Source: http://youtu.be/aMfSGt6rHos
http://blog.ponoko.com/2011/12/11/3d-prints-in-stop-motion-animation/
3D printing of flm props has long been common in big budget movies, but now
its increased affordability is aiding its introduction to smaller budget productions.
52. 3D printing media...
Source: http://youtu.be/_2F0PA7qUQE
With the help of technologies from Objet Geometries, the creative team behind
the feature flm, Coraline, broke new ground in stop-motion animation.
53. 3D printing media...
3Drehkino took an animation in Blender, 3D printed it with Shapeways, hacked
some electronics and created his own zeotrope under a CC license.
Source: http://drehkino.de/3Drehkino_en.php
54. 3D printing media...
Source: http://drehkino.de/3Drehkino_en.php
3Drehkino took an animation in Blender, 3D printed it with Shapeways, hacked
some electronics and created his own zeotrope under a CC license.
55. 3D printing media...
Source: http://youtu.be/LVa_WwBFtA4
3Drehkino took an animation in Blender, 3D printed it with Shapeways, hacked
some electronics and created his own zeotrope under a CC license.
56. 3D printing in media: Print magazine cover
Source: http://postspectacular.com/process/20080702_printmagcover
Print magazine August 2008 cover design generated
with Processing and 3D printed.
57. 3D printing in media: Arkitypo
Source: http://johnsonbanks.co.uk/thoughtfortheweek/index.php?thoughtid=711
The idea was to 3D-print an entire alphabet derived from the historical
story of how a typeface beginning with the same letter came to be.
58. 3D printing in media
Source: http://www.casualoptimist.com/2011/10/18/the-innovators-cookbook/
Printing the cover of the book The Innovator’s Cookbook
by Steven Johnson with a Makerbot.
59. 3D printing in media
Source: http://youtu.be/S2EqxdvOKVc
http://www.casualoptimist.com/2011/10/18/the-innovators-cookbook/
Printing the cover of the book The Innovator’s Cookbook
by Steven Johnson with a Makerbot.
60. 3D printing optics
Source: http://www.shapeways.com/blog/archives/1671-Disney-Research-3D-Printed-Optics-and-Interfaces-VIDEO.html
http://www.youtube.com/watch?feature=player_embedded&v=eTeXTbXA6-Y
Disney Research is 3D printing optics, in order to create
more interesting and interactive product interface.
61. 3D printing media from Video games
Source: http://www.shapeways.com/blog/archives/1635-Mario-in-a-3D-Printed-Mobius-Strip-Runs-on-Forever,-and-Ever.html
A moebius strip out of a Super Mario videogame!
62. Successful transplant of a 3D printed jaw
Source: http://www.bbc.co.uk/news/technology-16907104
A 3D printer-created lower jaw has been ftted to an 83-year-old woman's face in
what doctors say is the frst operation of its kind.
63. 3D printing data: Luke Jerram
Source: http://www.lukejerram.com/projects/t%C5%8Dhoku_earthquake
To create the sculpture a seismogram of the earthquake, was rotated and then
printed in 3 dimensions using rapid prototyping technology.
64. 3D printing data: Facebook
Source: http://www.shapeways.com/blog/archives/1881-turn-your-facebook-profile-into-3d-printed-art-with-the-creators-project-shapeways.html
Turn your Facebook data in a custom 3D printed sculpture.
65. 3D printing data: sound
Source: http://www.shapeways.com/creator/thevibe
“Welcome to the era of mass customization in which anyone can
build a unique iPhone case for $25.”
66. 3D printing data: sound
Source: http://www.protoparadigm.com/2011/11/filament-tolerances-and-print-quality/
“Welcome to the era of mass customization in which anyone can
build a unique iPhone case for $25.”
67. 3D printed lamps
Source: http://www.freedomofcreation.com/
Freedom Of Creation is an edition of exclusive design objects,
furnishing complements, lighting and accessories.
68. 3D fractal furniture design
Source: http://www.platform-net.com/
Fractal Table is a generative design table produced by Materialise as a single
piece SLA in epoxy resin. Its dimensions in cm are: L98 x W61 x H42.
69. 3D fractal furniture design
Source: http://www.platform-net.com/
Fractal Table is a generative design table produced by Materialise as a single
piece SLA in epoxy resin. Its dimensions in cm are: L98 x W61 x H42.
70. 3D printed furniture design
Source: http://i.materialise.com/blog/entry/5-amazing-full-sized-furniture-pieces-made-with-3d-printing
The Throne of Paris (John Briscella)
71. 3D printed guitar
Source: http://www.designboom.com/weblog/cat/16/view/20135/skeletal-3d-printed-guitar.html
Each guitar is fully customizable, as the designers remove or insert various
segments from the 3D model before each printing, with selectable colour.
73. 00: design with Blender
A good tutorial for designing the mesh
with Blender.
Source: http://cgcookie.com/blender/2013/02/04/modeling-3d-printing-shapeways/
74. 00: check the mesh with Rhino 5
A good tutorial for analysing the mesh
with Rhino 5.
Source: http://vimeo.com/60897890
75. 01: check the normals
They shold point outwards! The faces of
a mesh are only 1-side.
77. 02: check your technology
Check your specifc material and technology,
Shapeways is a good resource.
Source: http://www.shapeways.com/tutorials/design_rules_for_glass_3d_printing
78. 03: Yes to moving parts and undercuts
But not with FDM!!!
Source: http://youtu.be/guTSrF7J6Y0
79. 03: FDM: use support material
PVA is the best option, it is water soluble.
Source: http://youtu.be/FqhBmNyvNhQ
http://store.makerbot.com/makerbot-pva-1kg-spool.html
80. 04: Clean it with Netfabb / Meshlab
And you may need to import it into Blender again.
Source: http://meshlab.sourceforge.net/
81. 3D printing: what could go wrong?
Too fast: we cannot achieve the full cylinder.
We had to slow the speed down and rise a bit the temperature.
82. 3D printing: what could go wrong?
Too fast: we cannot achieve the full cylinder.
We had to slow the speed down and rise a bit the temperature.
83. 3D printing: what could go wrong?
Too fast: the material does not have the time to solidify.
Also: too thin, and the roof collapses. On the right: slower and bigger detail.
84. Think about the speed
Each different material melt at a different temperature,
mixing them means slowing down the process.