View allAll Photos Tagged MaterialScience
Picture of a granulite, a metamorphic rock, between two polarisers. A rock sample was sliced so thin (ca. 25 µm) that it became translucent, revealing the minerals, the rock consists of. The almost black, rounded grains are garnets, the elongated greyish grains are quartz and feldspar. The thin brownish vertical veins are mica. The width of the image is 7 mm. Taken with a Canon MP-E 65 mm lens.
A bronze fels (also called enstatitite), an ultra mafic rock consisting of the pyroxene bronzite. Thin section between crossed polarizers taken with a Canon MP-E 65 mm lens.
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Please download and use these open source images for your own purposes. If you do, please reference Macroscopic Solutions.
Photography information: All of the images in this database were captured with the Macropod.
The Macropod is a rigid, portable photomacrography system, which allows the user to make razor sharp, fully focused photographs of small sized specimens at 18 to 26-megapixel resolution. It overcomes the extreme Depth of Field (DOF) limitations inherent in optics designed to image smaller specimens. Normally, lenses designed for macro will only render a very small fraction of the depth of targeted specimen in sharp focus at any one exposure. The Macropod allows the user to select and make multiple exposures in precise increments along the Z-axis (depth) such that each exposure’s area of sharp focus overlaps with the previous and next exposure. These source images are then transferred to a computer and merged by an image-stacking program. Zerene Stacker is used to find and stitch together only the focused pixels from each exposure into one image. The Macropod integrates industry-leading components in a novel and elegant way to achieve these results.
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Disclaimer: this is NOT my picture.
This is something that I think might be of interest to my friends mambo and opterios.
This concept car was built by Rinspeed (Swiss automobile Design and Tuning house) utilizing a number of Bayer technologies.
The most striking feature is the transparent (yellow) body and floor, made of Makrolon polycarbonate panels.
Vehicle weight = 750 kg
Propulsion = Weber 2-cylinder engine that produces 150 hp while running on renewable biofuels - it emits just 20g CO2 per km (the typical car emits 200g).
See "All Sizes" to appreciate the details.
Autoblog called it: "a cross between a vintage racer, an off-road buggy, a World War One aircraft and a cigar."
I call it "pretty sweet".
pluralistic.net/2025/09/23/our-friend-the-electron/#to-ev...
A rooftop solar installation. Behind the roof rages a blazing forest fire. Reflected in the solar panels is the poop emoji from the cover of my book 'Enshittification,' which has angry eyebrows and a black, grawlix-filled bar across its mouth."
Image:
Bastique (modified)
commons.wikimedia.org/wiki/File:Solar_Panels_on_Church_Ro...
CC BY 4.0
This is ESA’s Large Diameter Centrifuge (LDC). It gives scientists access to high gravity levels for minutes, days or even weeks on end. Based at ESA’s ESTEC technical centre in Noordwijk, the Netherlands, the LDC is a centrifuge designed not for astronaut training as you might have thought at first, but specifically for research projects.
A wide range of hypergravity experiments can be undertaken in the LDC facility, in particular biology, biochemistry, microbiology, optical physics, material sciences, fluid dynamics, geology and plasma physics investigations can be performed.
The eight-metre-diameter LDC can operate at up to 20 G, with four gondolas able to accommodate up to 80 kg of payloads, with a central gondola as a control. Two additional gondolas can be optionally attached to one mid-arm to simultaneously provide different G-levels. Experiments can be spun for up to six months non-stop.
Technical stuff
This is a rather straightforward shot. Just one single photo, straight from the camera with little or no post-production. I included a copyright watermark as my photos have been frequently copied without any mentioning or permission. The copyright is there to stay, so don't bother commenting on that.
Former Sandia National Laboratories postdoctoral researcher Yuanmu Yang, left, and Sandia researcher Igal Brener set up to do testing in an optical lab. A team led by Brener published a Nature Photonics paper describing work on optical information processing at terahertz speeds, a rate much faster than what is achievable today by electronic means.
Learn more at bit.ly/2xBotVB.
Photo by Randy Montoya.
Camp attendees look on as Sahar Farjami demonstrates the melting point of different metals using a new penny, mostly made of zinc, and an old copper penny in the material science and engineering portion of Discover Engineering on the North Campus of the University of Michigan in Ann Arbor on Thursday, July 28, 2022.
Discover Engineering summer camp is designed for Michigan Engineering alumni and the children in their life entering 8th – 10th-grade who want to thoroughly explore various engineering disciplines. Through discussion, hands-on exercises, tours, and Q&A, professors and graduate students will help campers discover the many possibilities that exist for engineers.
Photo: Brenda Ahearn/University of Michigan, College of Engineering, Communications and Marketing
Ivan Bozovic, a physicist in the Condensed Matter Physics and Materials Science Department at the U.S. Department of Energy’s (DOE) Brookhaven National Laboratory, has been honored as a co-recipient of the 2012 Bernd T. Matthias Prize for Superconducting Materials. Recipients of this prize are selected by an international jury to recognize innovative contributions to the material aspects of superconductivity. Details.
The plasma torch in the Retech plasma furnace is one tool used in Materials Preparation Center, located at the U.S. Department of Energy's Ames Laboratory. The furnace is used to prepare a variety of materials, particularly those metals or alloys that might react with the material of the crucibles in other melting methods. The Materials Preparation Center is known for its ability to create ultra-high purity metal alloy samples, particularly rare-earth metals, used throughout the research community worldwide.
Solar Impulse is a Swiss long-range solar powered aircraft project being undertaken at the École Polytechnique Fédérale de Lausanne. The project eventually hopes to achieve the first circumnavigation of the Earth by a piloted fixed-wing aircraft using only solar power. The project is led by Swiss psychiatrist and aeronaut Bertrand Piccard, who co-piloted the first balloon to circle the world non-stop, and Swiss businessman André Borschberg.
Piccard initiated the Solar Impulse project in 2003. By 2009, he had assembled a multi-disciplinary team of 50 specialists from six countries, assisted by about 100 outside advisers. The project is financed by a number of private companies. The four main partners are Deutsche Bank, Omega SA, Solvay, and Schindler. Other partners include Bayer MaterialScience, Altran, Swisscom and Swiss Re (Corporate Solutions). Other supporters include Clarins, Semper, Toyota, BKW and STG. The EPFL, the European Space Agency (ESA) and Dassault have provided additional technical expertise, while Bay Area based SunPower provided the aircraft's photovoltaic cells.
My stream has been sleeping, just like all these comrades of mine who have decided to make something usefull out of the Material Science class. They join me in combating the Ultimate Act of terror inflicted upon us after lunch.
They obviously took it to heart when Dr A P J Abdul Kalam asked the students to dream.
Phil Neudeck- Can Take the Heat
When it comes to the heat of extreme environments like Venus, electronics can get fried within a few minutes of arrival. But NASA Researcher Phil Neudeck and his team have developed extremely durable silicon carbide semiconductor integrated circuits to survive those harsh conditions. After successfully testing the electronics in our high-pressure, high-temperature extreme environments chamber, there is now a path forward for Venus landers to survive and operate scientific experiments on the planet’s surface for longer durations. Photo Credit: Jordan Salkin
We are a company engaged in National & International Welding, NDT(Non Destructive Test), and Metallurgical Training and Certification with 10 years of experience ready to conduct training in National and International areas.
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- Training Welding Inspection Personnel Level B-S-C (IWIP): Duration 105-157-219 Hours
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Photographer: Mikey Enriquez
Laboratory: TRIUMF
This photograph of TRIUMF's material-science facility won second place in TRIUMF's local competition. The seemingly industrial and technical landscape of the facility is softened here by a texturing technique digitally applied by Mikey Enriquez. Lines are prominent at TRIUMF, with beam lines and wires wrapping around the lab in dynamic, intricate patterns, which really captured the voters' attention.
#1
the old building where fairchild started...
interesting to find that the smaller newer plaque was just installed this month (may 2009) sitting side by side with the old big plaque by the state of california and intel... ("SITE OF INVENTION OF THE FIRST COMMERCIALLY PRACTICABLE INTEGRATED CIRCUIT ", #1000)
the new one by ieee extends for the technology milestone at this site to hoerni and noyce on innovations that led to one flavor of integrated circuit, which has profound impact that made moore's law that says to double the density and reduce cost every 18 months possible, and this time in silicon and adopted by the mainstream later on... and truly both deserve the credit... and if they did not pass away early, nobel prizes of physics in 2000 could have this electronics breakthrough shared with dr kilby of texas instrument ...
more shots below...
palo alto, california
may 2009
The ALEX (Argonne Liquid metal EXperiment) facility provides liquid metal technologies for experiments in nuclear physics, material science, nuclear engineering and other areas.
For more information: ALEX (Argonne Liquid metal EXperiment) facility »
POLARIZED LIGHT OPTICAL MICROSCOPE AT PACIFIC NORTHWEST LABORATORY, SAMPLE BEING CHARACTERIZED UNDER AN OPTICAL MICROSCOPE.
For more information or additional images:
EnergyTechnologyVisualsCollectionETVC@hq.doe.gov
www.flickr.com/photos/departmentofenergy/collections/7215...
Gerald MacCleary, President of Bayer MaterialScience LLC, speaks to students from WVU's College of Business & Economics. The talk is part of the College's Distinguished Speakers Series. April 8, 2014. (J. Alex Wilson - WVU College of Business and Economics)
Project founders Bertrand Piccard and André Borschberg present the first aircraft powered only by solar energy and speak about the challenges they faced in developing the project. Last year Solar Impulse made a record-breaking flight of more than 26 hours without fuel, showcasing the potential of new technologies for renewable energy and energy savings.
After its arrival from Switzerland on solar energy, on 13 May last, the Solar Impulse of André Borschberg and Bertrand Piccard will be stationed at Brussels Airport from 23 until 29 May 2011. Under the Patronage of the President of the European Parliament, Mr Jerzy Buzek, of the President of the European Council, Mr Herman Van Rompuy and of the European Commission, Solar Impulse is more than a solar airplane. It is a technological project designed to boost the efforts of governments in adopting ambitious energy policies for saving energy and promoting renewable energy.
Solar Impulse HB-SIA, the first aeroplane designed to fly day and night without requiring fuel and without producing carbon emissions, demonstrates the enormous potential held by new technologies in terms of energy savings and renewable energy production. Seven years of intensive work, calculations and tests by a team of 70 people and 80 partners have contributed to producing this revolutionary carbon fibre aeroplane, with a wingspan as wide as that of an Airbus A340 (63.4m) and a weight equivalent to that of an average family car. It is the largest aeroplane of its weight ever to have been built. The 12,000 solar cells integrated into the wing supply four electric motors (maximum power 10CV each) with renewable energy and charge the 400kg lithium polymer batteries during the day, enabling the aircraft to fly at night. The Solar Impulse project is supported, among others, by: Solvay, Omega, Deutsche Bank and Schindler as Principal Partners; Bayer MaterialScience and Altran as Official Partners; EPFL (Lausanne Federal Institute of Technology) as Official Scientific Consultant and Dassault-Aviation as Aviation Consultant.
© European Union 2011 PE-EP
High-quality crystals are essential to worldwide efforts to determine the properties of materials. Ames Laboratory researchers produce such crystals in special crucibles like these which have been turned upside down to show their pointed bottoms. This design limits the number of possible site where a crystal can begin to grow.
We are a company engaged in National & International Welding, NDT(Non Destructive Test), and Metallurgical Training and Certification with 10 years of experience ready to conduct training in National and International areas.
We provide training including:
- Welding Engineer Training (IWE): Duration 448 Hours
- Welding Technologist (IWT) Training : Duration 369 Hours
- Welding Specialist (IWS) Training : Duration 249 Hours
- Welding Practicioner (IWP) Training : 150 Hours Duration
- Training Welding Inspection Personnel Level B-S-C (IWIP): Duration 105-157-219 Hours
- Welder Training (IW): 83 hours theoretical duration
- NDT Inspector Level 2 Training : MT, PT, UT, RI
100% payment maximum 2 weeks before training starts.
Training API 570, API 570 Training Courses, Sertifikasi API 570, Training API 570 Jakarta, Gaji API 570 Di Indonesia, API 570 Indonesia, Tugas API 570 , Training API 570 Batam, Training API 570 Bogor, Training API 570 Jakarta, Training API 570 Cilegon, Training API 570 Kalimantan, Training API 570 Papua, Training API 570 Bandung, Training API 570 Bojonegoro, Training API 570 Indonesia, Training API 570 Singapore, Training API 570 Malaysia, Training API 570 Russia, Training API 570 China, Training API 570India, Training API 570 Arab Saudi, Training API 570 Vietnam, Training API 570 Philippines, Training API 570 Thailand, Training API 570 Sumatera Utara, Training API 570 Riau, Training API 570 Sumatera, Training API 570 Cilacap, Training API 570 Dumai, Training API 570 Sungai Pakning, Training API 570 Musi, Training API 570 Balongan, Training API 570 Cepu, Training API 570 Balikpapan, Training API 570 Sorong, Training Weling Engineer Tuban
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A cutting tool made of an aluminum-magnesium-boron alloy, nicknamed BAM, takes a heavy cut in a hardened stainless steel turning. The alloy, developed by Ames Laboratory metallurgists Bruce Cook and Alan Russell is extremely hard but also has a coefficient of friction that is lower than Teflon. The material is being studied as a nanoscale coating for pump components and industrial cutting tools to reduce friction and thereby boost equipment energy efficiency.
In 1995, MIT’s Nicholas Negroponte predicted that “being digital” would have us entering a realm increasingly unconstrained by the materiality of the world. Two decades later, our everyday lives are indeed ever more suffused by computation and calculation. But unwieldy materiality persists and even reasserts itself. Programmable matter, self-assembling structures, 3D/4D printing, wearable technologies and bio-inspired design today capture the attention of engineers, scientists and artists. “BEING MATERIAL” showcased recent developments in materials systems and design, placing this work in dialogue with kindred and contrasting philosophy, art practice and critique. Panels on the PROGRAMMABLE, WEARABLE, LIVABLE and INVISIBLE—along with a concert, AUDIBLE—explored new and unexpected meetings of the digital and material worlds.
Learn more at arts.mit.edu
All photos ©L. Barry Hetherington
lbarryhetherington.com/
Please ask before use
Photo credit, Hadi Miyanaji, Virginia Tech DREAMS Lab.
Copper 3D printing isn't new to ExOne's binder jetting process. Our customers, such as Virginia Tech and Prof. Christopher Williams, have been doing it since 2013. Check our newly released material list: bit.ly/2TbWdBd #binderjetting #materialscience
Materials researchers at the U.S. Department of Energy's Ames Laboratory use this melt spinner to form metallic glass. A stream of molten metal is poured onto the large, spinning copper wheel and solidifies so quickly that the material forms in a thin ribbon that retains an amorphous molecular structure similar to the liquid state instead of the crystalline structure normally found in solid metals.
Semiautomatic polisher for preparing metallography samples.
Terms of Use: Our images are freely and publicly available for use with the credit line, "Courtesy of Pacific Northwest National Laboratory"; Please use provided caption information for use in appropriate context.
This brilliant blue organic light-emitting device was developed at Ames Laboratory. The fluorescence-based senors have myriad uses from monitoring gases and compounds to medical testing and detection of pathogens.
Extremely durable silicon carbide semiconductor integrated ciruits developed by NASA Researcher Phil Neudeck and his team at NASA Glenn Research Center will be tested in our high-pressure, high-temperature extreme environments chamber. Photo Credit: Jordan Salkin
Wednesday: Lunch Plenary- Rethinking Chemistry - Driving Innovation with Renewable Chemical Platforms- Sponsored by: BASF Moderator: Ally La Tourelle, Managing Director, Bioeconomy Partners
Panelists:
- Alexandre Elias, International Markets Director, Braskem
- Francois Monnet, Executive VP, Advanced Technologies Director, Solvay
- William H. Baum, Chief Business Development Officer, Genomatica
- Don Wardius, Head of Renewable and Alternative Feedstocks, Bayer MaterialScience
- Markus Pompejus, Vice President of White Biotechnology, North America, BASF Corporation Chemical company executives, biotech leaders, and industry analysts discussed trends in renewable chemical investments, shifts in attitudes by large scale traditional chemical companies towards the development of a renewable chemicals portfolio, and current state of play for industrial biotech companies.
In 1995, MIT’s Nicholas Negroponte predicted that “being digital” would have us entering a realm increasingly unconstrained by the materiality of the world. Two decades later, our everyday lives are indeed ever more suffused by computation and calculation. But unwieldy materiality persists and even reasserts itself. Programmable matter, self-assembling structures, 3D/4D printing, wearable technologies and bio-inspired design today capture the attention of engineers, scientists and artists. “BEING MATERIAL” showcased recent developments in materials systems and design, placing this work in dialogue with kindred and contrasting philosophy, art practice and critique. Panels on the PROGRAMMABLE, WEARABLE, LIVABLE and INVISIBLE—along with a concert, AUDIBLE—explored new and unexpected meetings of the digital and material worlds.
Learn more at arts.mit.edu
All photos ©L. Barry Hetherington
lbarryhetherington.com/
Please ask before use
Extremely durable silicon carbide semiconductor integrated ciruits developed by NASA Researcher Phil Neudeck and his team at NASA Glenn Research Center.
After successfully testing the electronics in our high-pressure, high-temperature extreme environments chamber, there is now a path forward for Venus landers to survive and operate scientific experiments on the planet’s surface for longer durations. Photo Credit: Jordan Salkin
Ames Laboratory researcher Brian Gleeson holds a section of a jet engine turbine coated with a ceramic material. The thermal barrier coating resists wear and degradation of such parts in extreme environments such as the inside of jet engines and allows higher, more efficient operating temperatures.
In 1995, MIT’s Nicholas Negroponte predicted that “being digital” would have us entering a realm increasingly unconstrained by the materiality of the world. Two decades later, our everyday lives are indeed ever more suffused by computation and calculation. But unwieldy materiality persists and even reasserts itself. Programmable matter, self-assembling structures, 3D/4D printing, wearable technologies and bio-inspired design today capture the attention of engineers, scientists and artists. “BEING MATERIAL” showcased recent developments in materials systems and design, placing this work in dialogue with kindred and contrasting philosophy, art practice and critique. Panels on the PROGRAMMABLE, WEARABLE, LIVABLE and INVISIBLE—along with a concert, AUDIBLE—explored new and unexpected meetings of the digital and material worlds.
Learn more at arts.mit.edu
All photos ©L. Barry Hetherington
lbarryhetherington.com/
Please ask before use
Vibratory polisher for preparing metallography samples.
Terms of Use: Our images are freely and publicly available for use with the credit line, "Courtesy of Pacific Northwest National Laboratory"; Please use provided caption information for use in appropriate context.
Wednesday: Lunch Plenary- Rethinking Chemistry - Driving Innovation with Renewable Chemical Platforms- Sponsored by: BASF Moderator: Ally La Tourelle, Managing Director, Bioeconomy Partners
Panelists:
- Alexandre Elias, International Markets Director, Braskem
- Francois Monnet, Executive VP, Advanced Technologies Director, Solvay
- William H. Baum, Chief Business Development Officer, Genomatica
- Don Wardius, Head of Renewable and Alternative Feedstocks, Bayer MaterialScience
- Markus Pompejus, Vice President of White Biotechnology, North America, BASF Corporation Chemical company executives, biotech leaders, and industry analysts discussed trends in renewable chemical investments, shifts in attitudes by large scale traditional chemical companies towards the development of a renewable chemicals portfolio, and current state of play for industrial biotech companies.
Wednesday: Lunch Plenary- Rethinking Chemistry - Driving Innovation with Renewable Chemical Platforms- Sponsored by: BASF Moderator: Ally La Tourelle, Managing Director, Bioeconomy Partners
Panelists:
- Alexandre Elias, International Markets Director, Braskem
- Francois Monnet, Executive VP, Advanced Technologies Director, Solvay
- William H. Baum, Chief Business Development Officer, Genomatica
- Don Wardius, Head of Renewable and Alternative Feedstocks, Bayer MaterialScience
- Markus Pompejus, Vice President of White Biotechnology, North America, BASF Corporation Chemical company executives, biotech leaders, and industry analysts discussed trends in renewable chemical investments, shifts in attitudes by large scale traditional chemical companies towards the development of a renewable chemicals portfolio, and current state of play for industrial biotech companies.
In 1995, MIT’s Nicholas Negroponte predicted that “being digital” would have us entering a realm increasingly unconstrained by the materiality of the world. Two decades later, our everyday lives are indeed ever more suffused by computation and calculation. But unwieldy materiality persists and even reasserts itself. Programmable matter, self-assembling structures, 3D/4D printing, wearable technologies and bio-inspired design today capture the attention of engineers, scientists and artists. “BEING MATERIAL” showcased recent developments in materials systems and design, placing this work in dialogue with kindred and contrasting philosophy, art practice and critique. Panels on the PROGRAMMABLE, WEARABLE, LIVABLE and INVISIBLE—along with a concert, AUDIBLE—explored new and unexpected meetings of the digital and material worlds.
Learn more at arts.mit.edu
All photos ©L. Barry Hetherington
lbarryhetherington.com/
Please ask before use
Metallography sample prepared for advanced characterization.
Terms of Use: Our images are freely and publicly available for use with the credit line, "Courtesy of Pacific Northwest National Laboratory"; Please use provided caption information for use in appropriate context.
Wednesday: Lunch Plenary- Rethinking Chemistry - Driving Innovation with Renewable Chemical Platforms- Sponsored by: BASF Moderator: Ally La Tourelle, Managing Director, Bioeconomy Partners
Panelists:
- Alexandre Elias, International Markets Director, Braskem
- Francois Monnet, Executive VP, Advanced Technologies Director, Solvay
- William H. Baum, Chief Business Development Officer, Genomatica
- Don Wardius, Head of Renewable and Alternative Feedstocks, Bayer MaterialScience
- Markus Pompejus, Vice President of White Biotechnology, North America, BASF Corporation Chemical company executives, biotech leaders, and industry analysts discussed trends in renewable chemical investments, shifts in attitudes by large scale traditional chemical companies towards the development of a renewable chemicals portfolio, and current state of play for industrial biotech companies.
Ames Laboratory's administrative offices are housed in TASF - the Technical and Administrative Services Facility.
Wednesday: Lunch Plenary- Rethinking Chemistry - Driving Innovation with Renewable Chemical Platforms- Sponsored by: BASF Moderator: Ally La Tourelle, Managing Director, Bioeconomy Partners
Panelists:
- Alexandre Elias, International Markets Director, Braskem
- Francois Monnet, Executive VP, Advanced Technologies Director, Solvay
- William H. Baum, Chief Business Development Officer, Genomatica
- Don Wardius, Head of Renewable and Alternative Feedstocks, Bayer MaterialScience
- Markus Pompejus, Vice President of White Biotechnology, North America, BASF Corporation Chemical company executives, biotech leaders, and industry analysts discussed trends in renewable chemical investments, shifts in attitudes by large scale traditional chemical companies towards the development of a renewable chemicals portfolio, and current state of play for industrial biotech companies.
The U.S. Army is on the hunt for new materials science breakthroughs by working together with a researcher from Brazil. Read more... www.army.mil/article/212418/