An Investigation of how Materials are Composed: TTU. Monday, November 2, 2009. Living Light, Seoul, 2009. By David Benjamin and Soo-in Yang (aka “. Sources: http:/ www.interactivearchitecture.org. Posted by Do Dung - Drake. Subscribe to: Posts (Atom). MACOR - Machinable Glass Ceramic. Glass Department of Materials. Living Light, Seoul, 2009. Do Dung - Drake.
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Macrostructure Materials | smartmaterials2009.blogspot.com Reviews
https://smartmaterials2009.blogspot.com
An Investigation of how Materials are Composed: TTU. Monday, November 2, 2009. Living Light, Seoul, 2009. By David Benjamin and Soo-in Yang (aka “. Sources: http:/ www.interactivearchitecture.org. Posted by Do Dung - Drake. Subscribe to: Posts (Atom). MACOR - Machinable Glass Ceramic. Glass Department of Materials. Living Light, Seoul, 2009. Do Dung - Drake.
smartmaterials2009.blogspot.com
Macrostructure Materials: Glass
http://smartmaterials2009.blogspot.com/2009/09/glass.html
An Investigation of how Materials are Composed: TTU. Saturday, September 12, 2009. Image by Qizhi Chen, PhD. Internal Structure of a Bioglass. A42: What is glass? The presence of glass can be traced back to the early cave dwellers. According to J.E.Shelby, cave dwellers “…relied on chipped pieces of obsidian, a natural volcanic glass, for tools and weapons” [1]. A44: How glass is formed? A45: What is glass transformation behavior? Image by J.E.Shelby. A46: Components of Glass. Internal structure of glass.
Macrostructure Materials: Introduction
http://smartmaterials2009.blogspot.com/2009/09/introduction.html
An Investigation of how Materials are Composed: TTU. Saturday, September 12, 2009. Open discussion about the materials:. Image from University of Cambridge; Functional Inorganic and Hybrid Materials. Return to Smart Materials. Subscribe to: Post Comments (Atom). MACOR - Machinable Glass Ceramic. Glass Department of Materials. Do Dung - Drake.
Macrostructure Materials: LED Applications
http://smartmaterials2009.blogspot.com/2009/10/led-applications.html
An Investigation of how Materials are Composed: TTU. Tuesday, October 20, 2009. Moodwall / Studio Klink and Urban Alliance. H&M Store in Barcelona / Estudio Mariscal. Le Prisme / Brisac Gonzalez. GreenPix: Zero Energy Media Wall. Tank Street Bridge or Kurilpa Bridge. HQ 13 Parisian subway line / Atelier Phileas. 8220;Running Lights” from Salvini Style. LED Staircase Handrail Concept. Posted by Do Dung - Drake. Subscribe to: Post Comments (Atom). MACOR - Machinable Glass Ceramic. Do Dung - Drake.
Macrostructure Materials: Light Emitting Materials
http://smartmaterials2009.blogspot.com/2009/09/light-emitting-materials.html
An Investigation of how Materials are Composed: TTU. Monday, September 28, 2009. LED - Light Emitting Diode. 1920, from an accidentally discovered of. A radio technician, the symtom of a diode in radio receiver emitting light when the current pass through became nowadays Light Emitting Diodes or LED. Image courtesy of Wikipedia. The inner working of LED. Typical structure of a LED. Light colors and material. Aluminium gallium arsenide (AlGaAs). Aluminium gallium arsenide (AlGaAs). Dual blue/red LEDs,.
Macrostructure Materials: Light Emitting Materials - OLED
http://smartmaterials2009.blogspot.com/2009/10/light-emitting-materials-oled.html
An Investigation of how Materials are Composed: TTU. Monday, October 5, 2009. Light Emitting Materials - OLED. An organic light emitting diode (OLED), also light emitting po. Philips OLED glow at 100% design fair. Schematic of a 2-layer OLED: 1. Cathode (−), 2. Emissive Layer, 3. Emission of radiation, 4. Conductive Layer, 5. Anode . Soon, the emissive layer becomes negatively charged, while the conductive layer becomes rich in positively charged holes. Electrostatic forces bring the electrons and th...
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Traditional Materials Database: Traditional Material Characteristics
http://trad-mat.blogspot.com/2009/09/traditional-material-characteristics.html
Tuesday, September 22, 2009. Subscribe to: Post Comments (Atom). 1 http:/ www.virginia.edu/bohr/mse209/chapter6.htm. 2http:/ www.engineeringtoolbox.com. 3 Bell, Victoria. Materials for Design. Princeton Architectural Press, 2006. 4http:/ pages.framingham.k12.ma.us/fhschem/Honors/SPECIFIC%20HEAT%20OF%20A%20METAL.pdf. 5 http:/ en.wikipedia.org/wiki/Reactivity series. 6 Juracek, Judy A. Surfaces. W.W. Norton and Company. New York, 1996. View my complete profile.
nanomaterialstech.blogspot.com
N A N O M A T E R I A L S: Table of Contents
http://nanomaterialstech.blogspot.com/2009/09/table-of-contents.html
An academic pursuit by the college of architecture at TTU. Sub Item 1.3. Sub Item 1.4. Sub Item 1.4. Sub Item 1.4. Sub Item 1.4. Sub Item 2.1. Sub Item 2.1.1. Sub Item 2.1.2. Folder 3.1.1. Sub Item 3.1.1.1. Sub Item 3.1.1.2. Sub Item 3.1.1.3. Sub Item 3.1.1.4. Sub Item 3.1.1.5. Sub Item 2.1.4. 23 Fullerenes : elongated spheres of carbon atoms formed by interconnecting six-member rings and twelve isolated five-member rings forming hexagonal and pentagonal faces. 214 Interactions with biomaterials. 35 Phys...
photovoltaic_illuminescent_glazing: OLED
http://smartglasswall.blogspot.com/2009/11/oled.html
Such systems can be used in television screens, computer monitors, small, portable system screens such as cell phones and PDAs, advertising, information and indication. OLEDs can also be used in light sources for general space illumination, and large-area light-emitting elements. OLEDs typically emit less light per area than inorganic solid-state based LEDs which are usually designed for use as point-light sources. Reference: www.howstuffworks.com.
photovoltaic_illuminescent_glazing: THE INTENT
http://smartglasswall.blogspot.com/2009/11/intent.html
Many different applications are found within the realm of photovoltaic technology. As well, there are many different types of display technologies which are useful in their own ways, however, these two ideas have rarely been found in union. This blog is an introduction to developing a marriage of photovoltaic ink and OLED video technology within a single glazing unit. This concept has many useful places in our daily lives, but this is primarily an architectural inquiry. Green pix building construction.
photovoltaic_illuminescent_glazing: video 2
http://smartglasswall.blogspot.com/2009/11/video-2.html
photovoltaic_illuminescent_glazing
http://smartglasswall.blogspot.com/2009/11/polymer-and-anode-layers-are.html
The polymer and anode layers are microscopic and can be applied using the same techniques found in laser printing. the human hair is approximately 200x the size. photovoltaic inks would be applied to the glass substrate, which is the same place that a silicon film would be applied to redirect radiant energy toward the edges. a frame would be necessary to conceal the mechanisms used to redirect the energy from the panel.
photovoltaic_illuminescent_glazing: PHOTOVOLTAICS
http://smartglasswall.blogspot.com/2009/11/photovoltaics.html
Is the field of technology and research related to the application of solar cells. By converting solar energy. Due to the growing demand for renewable energy. Sources, the manufacture of solar cells. Has advanced dramatically in recent years. Photovoltaic production has been doubling every 2 years, increasing by an average of 48 percent each year since 2002, making it the world’s fastest-growing energy technology, and then increased by 110% in 2008. Or BIPV for short. To invent a ink which can be applied...
photovoltaic_illuminescent_glazing: video1
http://smartglasswall.blogspot.com/2009/11/video1.html
photovoltaic_illuminescent_glazing: innovate2.2
http://smartglasswall.blogspot.com/2009/11/innovate22.html
Starting from square one, the model was redeveloped. this way a definite curtain is exposed, and the glazing can be utilized. The building's mainframe system can control all of the OLED displays so that images can move, and different screens can work in conjunction with eachother.
photovoltaic_illuminescent_glazing: innovation 2.1
http://smartglasswall.blogspot.com/2009/11/innovation-21.html
During the day, a building facade could absorb radiant energy using photovoltaic OLED panels. At night, these panels could become a display; these glass walls could become completely opaque, show video signage. the possibilities are endless.
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smartmaterialinterfaces.wordpress.com
Smart Material Interfaces | Materials for Smarter Interfaces (3rd workshop)
Materials for Smarter Interfaces (3rd workshop). Call for papers 2012. About SMI Workshop 2012. Call for Papers 2013. Due to the small number of participant, we are very sorry to announce that the workshop will not be held this year @ICMI’14. We would like to apologize to the authors for any inconvenient derived. We hope to organize another edition soon. PS: for any information, please don’t hesitate to contact us. Flyer for the workshop. New workshop proposal accepted! Blog at WordPress.com.
CSMS | CMSI
Centre for Smart Materials and Structures Centre Materiaux et Structures Intelligents. On December 21st, 2011. Dr Kodama and Dr. Fukada visiting CSMS from the Kobayasi Institute of Physical Research, Tokyo, Japan on November 2011. Dr Kodama et Dr. Fukada du Kobayasi Institute of Physical Research, Tokyo, Japan ont visité le CSMI en novembre 2011. RMC Students at CANSMART Meeting. On November 21st, 2011. On July 15th, 2009. Fusion theme by digitalnature.
Smart Materials
Research and Technology Innovations in Smart Materials and Smart System Devices. Smart Materials – Future Technologies. December 23rd, 2010. Retrieved from “http:/ www.articlesbase.com/electronics-articles/future-technology-smart-materials-160554.html”. Ash Tankha, US patent attorney, works with inventors to develop their ideas into patent application for worldwide filing and patenting. Contact Ash Tankha atash@ipprocurement.com or visit www.ipprocurement.com. Magnetic shape memory alloys. These include ...
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smartmaterials2009.blogspot.com
Macrostructure Materials
An Investigation of how Materials are Composed: TTU. Monday, November 2, 2009. Living Light, Seoul, 2009. By David Benjamin and Soo-in Yang (aka “. Sources: http:/ www.interactivearchitecture.org. Posted by Do Dung - Drake. Subscribe to: Posts (Atom). MACOR - Machinable Glass Ceramic. Glass Department of Materials. Living Light, Seoul, 2009. Do Dung - Drake.
3D printer filaments - Smart Materials 3D
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2nd International Conference and Expo on Smart Materials & Structures
International Conference and Expo on Smart Materials and Structures ' itemprop='name'/. International Conference and Expo on Smart Materials and Structures. Exploring the Fusion of Intelligence with Materials. June 16 -18, 2016. Monday, 2 March 2015. International Conference on Smart Materials and Structures. See more at: http:/ smartmaterials-structures.conferenceseries.com. All accepted abstracts will be published in respective OMICS Group Journals. Subscribe to: Posts (Atom). Head of Center Smart.
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PAH Smart Materials F10
PAH Smart Materials F10. Tuesday, September 21, 2010. Link for Nanotechnology Materials. Pedro A. Hernandez. Tuesday, September 14, 2010. Intrinsic Properties in Several Elements. Pedro A. Hernandez. Subscribe to: Posts (Atom). Intrinsic Properties in Several Elements. Pedro A. Hernandez. View my complete profile. Awesome Inc. template. Template images by Nikada.
