Sentences with phrase «from flexible materials»
Normally made from flexible materials, applications include everything from bags for rice, through carrier bags, to agricultural and industrial sacks.
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Packaging made from paperboard or from flexible materials accounts for more than half of that used worldwide today.
Choose a baby food container made from a flexible material, such as silicone.
Apple envisions that the curved display will be made from flexible material that can present «an illusion of depth perception» capable of «mimicking a 3D experience.»
In its patent filing, Apple envisions that the new iPhone's curved display will be made from flexible material that can present «an illusion of depth perception» capable of «mimicking a 3D experience.»
Not exact matches
Some 200 times stronger than steel yet lighter than paper and more flexible than a contortionist, graphene is hailed as a miracle material with the potential to revolutionize products and processes across industries from consumer electronics to biomedicine.
From the opening keynote to a special panel discussion on materials for standup pouches, sustainability and the future of flexible packaging recyclability were two topics discussed to at least some extent in nearly every presentation at the recent Global Pouch West.
The results from the case studies show that flexible packaging has more preferable environmental attributes for carbon impact, fossil fuel usage, water usage, product - to - package ratio, as well as material to landfill, when compared to other package formats.
Choose from two laser coders to fit your needs: Solaris e-SolarMark Pulsed Beam Fiber Laser (FL): The e-SolarMark FL is a laser marking / coding solution for marking various materials, from flexible packaging such as foils to metal, plastics and other hard surfaces.
With a solemn promise of «Freshness Preserved», Asepto is the «Liquid Packaging» Brand from the house of Uflex Limited — India's largest fully integrated multinational flexible packaging materials and solution company.
With a solemn promise of «Freshness Preserved», AseptoTM is the Liquid Packaging Brand from the House of Uflex Limited — India's largest fully integrated multinational flexible packaging materials and Solution Company.
Asepto is the liquid packaging material brand from Uflex, a multinational flexible packaging materials and solution company, and the first aseptic liquid packaging brand in India.
A bulk container packer from process equipment manufacturer The Witte Company, Washington, New Jersey, gently vibrates flexible bulk bags, Gaylords, intermediate bulk containers and other bulk shipping containers to increase their bulk density for improved efficiency in packaging, material handli
For more than 30 years, Fres - co has served leading companies from across the Fortune 500 with turnkey flexible packaging systems, printed laminated barrier materials and exceptional service.
Made from materials that are 100 % free of bisphenol - A, phthalates and PVC, these pacifiers feature a flexible handle, orthodontic silicone nipple, and a breathable shield.
Kids Neoprene Backpack — The ultimate bag for kids on the go — flexible & strong, and crafted out of naturally insulating, water - resistant neoprene wetsuit material, this bag is tough enough to take a lot of rough - n - tumble yet stylish enough to stand out from the crowd.
This baby wearing sling is made of durable, flexible, and very comfortable material that mothers just fall in love with the concept of baby wearing from their first try.
From puzzles to music craft ideas and even a popsicle stick boat, popsicle sticks are such a flexible craft material that you can make almost anything with them.
Made from 100 per cent natural rubber derived from the sap of the Hevea tree, Sophie's flexible, renewable, natural materials and non-toxic food grade paint mean she is a safe and natural teething toy for your little one.
The bowl of the spoons are a little bigger for larger amounts of food but are still made from a flexible, soft material that is gentle on baby's lips and gums.
Saratoga Partnership President Marty Vanags and Director of Business Retention & Expansion Shelby Schneider are meeting one - on - one with executives from companies across the microelectronics supply chain, including manufacturers, materials and equipment suppliers, and in new vertical markets such as flexible hybrid electronics, system integration and the Internet of Things.
This flexible and transparent material generates electricity from your skin as you bend or stretch.
Novel materials could allow the implantation of flexible, rechargeable batteries that would constantly recharge from the body's own movements — even just breathing.
The researchers made the printed batteries flexible and stretchable by incorporating a hyper - elastic polymer material made from isoprene, one of the main ingredients in rubber, and polystyrene, a resin - like component.
Many think that flexible, wearable electronics built from organic materials could open up new applications for electronics.
You went from using semiconductor materials that are inherently flexible to using silicon, a more conventional material not known for its flexibility.
Other scientists construct flexible electronics from innately bendy materials such as graphene, a lattice of pure carbon only one atom thick.
Wang, a graduate student in the lab of Stoyan Smoukov, Ph.D., at the University of Cambridge (U.K.) suspected that a flexible conducting polymer - based material from another project they were working on could be a better alternative.
Now scientists have built a flexible nanogenerator out of cellulose, an abundant natural material, that could potentially harvest energy from the body — its heartbeats, blood flow and other almost imperceptible but constant movements.
A research team from the Korea Advanced Institute of Science and Technology (KAIST), headed by Professor Keon Jae Lee of the Department of Materials Science and Engineering at KAIST and Professor Boyoung Joung, M.D. of the Division of Cardiology at Severance Hospital of Yonsei University, has developed a self - powered artificial cardiac pacemaker that is operated semi-permanently by a flexible piezoelectric nanogenerator.
The technology is far from perfected — it's currently somewhat imprecise and there are questions about the material's durability over time — so you probably won't become the next Chopin learning «Twinkle Twinkle Little Star» on the hydrogel keyboard, but the idea of one day having a flexible trackpad attached to our bodies might not be such a — wait for it — stretch.
In a paper published in the journal Materials and Design, engineers from FSU's High - Performance Materials Institute, in collaboration with scientists from Institut National des Sciences Appliquées in Lyon, France, detail the impressive properties and cost - effective manufacturing process of an advanced series of motion sensors made using buckypaper — razor thin, flexible sheets of pure, exceptionally durable carbon nanotubes.
But what if there were a compact, flexible material that could harvest energy from the body's own movement?
A new resource unveiled today by researchers from several Harvard University labs in collaboration with Trinity College Dublin provides both experienced and aspiring researchers with the intellectual raw materials needed to design, build, and operate robots made from soft, flexible materials.
It's made from overlapping strips of flexible material, layered somewhat like feathers or fish scales, allowing for the pieces to move across each other as the wing flexes, while still providing a smooth outer surface.
Engineers must also insulate the riser pipes with polymers, plasticlike material that makes the pipes more flexible and keeps the oil from cooling too quickly and clotting on its way to the surface.
Flexible MOFs undergo a dramatic structural change when they adsorb methane, rapidly going from a nonporous to a highly porous material.
For example, by removing some of the oxygen from graphene oxide, the electrically insulating material can be rendered conductive, opening up prospects for use in flexible electronics, sensors, solar cells and biomedical devices.
Published today in the journal 2D Materials, the study from Tsinghua University in Beijing, employed flexible electronics made from graphene, in the form of a highly - sensitive resistive strain sensor, combined with a stretchable organic electrochromic device.
The information they gather could help improve the design and performance of organic polymers: flexible, stretchable, biocompatible electronic materials that could be used to make everything from printable solar cells to brain implants that restore movement to paralyzed limbs.
Just think of the many types of plastics: The material in a flexible soda bottle is very different from that in a rigid pipe made from polyvinyl chloride (PVC).
This flexible packaging material is derived from sustainable wood pulp, offers excellent barriers to oxygen and moisture, is non-GMO and is certified compostable.
Even if you drop a loaded barbell from a couple feet up, you're dropping it on a flexible fabric material.
My top is I got it a year ago from Dubai it is soft but the kind of material is not perfect for me because it gets wrinkled easily the jeans are probably a year old too I love these jeans they are flexible, stretchy and I can wear it to any occasion.
The flats are commonly made from natural materials and have very flexible soles to make moving out and about easy for you.
Seen from a perspective interested in right hemisphere led brain functioning, it is the pattern and design qualities inherent and embedded in the mindmap that make it an easy, attractive and flexible tool for quickly producing and organising a lot of divergent material.
Choose from a wide range of flexible, multimedia materials, from primary sources and streaming video to teaching strategies, lessons and units, and more.
Curriculum designers can develop learning materials that better accommodate instruction by moving away from a one - size - fits - all - students instructional model and, instead, providing for flexible adaptations to instructional implementation.
They move at a flexible pace and can select the materials best suited to their learning styles from our diverse collection of resources.
In addition to collecting a variety of relevant content from teachers and students, I designed the SWAP as a flexible online interface that would allow English teacher educators and teacher candidates to sort, analyze, and respond to these materials in a variety of ways.