Sentences with phrase «film materials as»
The new 4K scan was painstakingly restored by TLE Films in Germany with that crucially distinct colour palette reinstated in accordance with Argento's original Technicolor Dye Transfer specification, using period film materials as reference.
http://www.du-hd.com/ Not exact matches
However, Deadpool «s record - breaking weekend is another reminder that some R - rated films can still succeed at the box office, particularly when fans see the rating itself as validation that the film is true to its source material.
Many have their own newspapers, magazines, pamphlets, tracts, study programs, graded materials, Cassettes, films and books, as well as field workers and speakers» bureaus.
Before seeing the film, most of my students define pornography as material that is merely sexually explicit.
My right to view art, films and other material Bible cuddlers regard as sacreligious or obsc.ene.
There is currently a lack of recycling options for multi-material laminated films, such as snack bags and foil pouches, which are difficult to separate into their various material substrates.
«The confectionary industry quite often uses overwrapping as well with polypropylene film, which is a non-shrink material.
In mixed plastics recycle streams such as this, using Fusabond ® improves impact resistance, surface finish, and processability of parts and films... so the recycled material can be made into more sustainable articles with less material loss and higher end - use value.
As one of the fastest growing segments of the packaging industry, flexible packaging combines the best qualities of plastic, film, paper and aluminum foil to deliver a broad range of protective properties while employing a minimum of material.
Packaging technologies such as nanocomposite films, intelligent packaging, electrospinning and tunable materials enable greater convenience and product presentation — particularly important for the gift - giving culture in key Asian export markets.
Futamura is proud to announce that San Francisco - based Alter Eco is using NatureFlex ™ packaging film as part of the compostable pouch used for their organic and fair trade quinoas.The pouch meets ASTM D6400 standards for industrial composting, and is made in large part from bio-based materials.
Instead of using polymer film, a new solution enables production of dust - tight packaging for dry products such as sugar, grains, flour or powders using sustainable mono - material paper, which contains no additional polymer fractions.
Flexible packaging includes products such as bags and sachets made of easily yielding materials such as foil, paper or film, which when filled and sealed acquire a flexible shape.
From cardboard, to stretch film, to glass, we do our best to recycle as many materials we can on a daily basis.
Flexible packaging utilizes materials such as plastic film, paper, metallized films, and aluminum foil to protect and preserve products, with the final packaging often the result of several different processes.
Mr. Jackson (also known as Sekou Molefi Baako) is an East Elmhurst resident with a long history of community service, including 36 years as Executive Director of the Queens Library's Langston Hughes Community Library and Cultural Center, a full - service, general circulation library with an extensive reference collection of materials related to African American history and culture, and a cultural arts program that offers a variety of programming of independent film video screenings, stage presentations, panel discussions, concerts, art exhibitions and more.
The journal article explains how comprehensive data - science methods were applied to a material - science degradation problem of PET films used as an environmental barrier in solar panels.
With Electrick, conductive touch surfaces can be created by applying conductive paints, bulk plastics or carbon - loaded films, such as Desco's Velostat, among other materials.
He also had a slogan — «the new shape of solar» — that encapsulated the idea, much as a cylinder of glass encapsulated the thin - film semiconducting material that made Gronet's solar tubes work.
Structures such as bridges connecting posts become possible because material can be written atop the thin films.
Therefore, in a system that has interface, such as biomembranes and polymer thin films, the interfacial slip phenomena is definitely one of the most important variables for determining the properties of polymeric materials.
A composite thin film made of two different inorganic oxide materials significantly improves the performance of solar cells, as recently demonstrated by a joint team of researchers led by Professor Federico Rosei at the Institut national de la recherche scientifique (INRS), and Dr. Riad Nechache from École de technologie supérieure (ÉTS), both in the Montreal Area (Canada).
«Our hope is that this could be used not only for perovskite nanocrystals but also for bulk materials and thin films used in applications such as photovoltaics.»
He added that this was difficult in the case of carrier materials that are sensitive to temperature such as paper or polymer films since these would be damaged during the sintering process.
Again, it was just a gossamer film, because anything thicker could not be cooled quickly enough to «frustrate the crystallization,» as materials scientists say.
Jonathan Petrie led the epitaxial synthesis of strained oxide materials and catalytic testing, and Tricia Meyer assisted thin film deposition using a technique that employs a high - power excimer laser to vaporize material and deposit it as high - quality thin films under precisely controlled conditions.
A Sketch of the atomic structure of Darrell Schlom's novel ferroelectric material as stored in a film made of the same substance.
Many touch screens are made of layered thin (billionths of a meter thick) films of indium - tin oxide, an inorganic material that is electrically conductive, which allows electrical signals to travel from the «touch» to the edges of the display, where they are sensed by the device — as well as optically transparent.
The thin - film solar cells can be used in more flexible applications, such as so - called solar shingles, roofing materials that double as electricity generators.
Joël Marthelot of ESPCI ParisTech in France and his colleagues noticed the cracks when studying thin films of silicate materials, which are used as a coating inside lasers.
Enter thin - film solar cells — devices that use a fine layer of semiconducting material, such as silicon, copper indium gallium selenide or cadmium telluride, to harvest electricity from sunlight at a fraction of the cost.
When applied to semiconducting materials such as silicon, the nickel oxide film prevents rust buildup and facilitates an important chemical process in the solar - driven production of fuels such as methane or hydrogen.
Already, the new material, when combined with a mirrorlike silver film, has been shown to cool whatever it sits on by as much as 10 °C.
The cluster we report in this paper serves as an excellent solution precursor to make very smooth thin films of amorphous aluminum indium oxide, a semiconductor material that can be used in transparent thin - film transistors.»
Researchers from North Carolina State University have found a way to reduce the coercivity of nickel ferrite (NFO) thin films by as much as 80 percent by patterning the surface of the material, opening the door to more energy efficient high - frequency electronics, such as sensors, microwave devices and antennas.
The process also allows the ceramics to be laid down as a thick film on other material.
The idea is that the film, when applied to different surfaces such as glass or brick, can produce solar energy more efficiently than conventional silicon wafer — based solar cells — which are made of materials similar to those used to fabricate computer chips.
As it is, ILM used 5,500 computer processors and 220 terabytes of storage to store all the models, animation, background plates, textures, reference materials and artwork for the film.
Newer materials use smaller, cheaper crystals, such as copper - indium - gallium - selenide, that can be shaped into flexible films.
Organic electronic devices such as OLEDs and organic solar cells use thin films of organic molecules for the electrically active materials, making flexible and low - cost devices possible.
News films («clips») can vary in length; there are some which may be as long as ten minutes, others that need to fit in all the relevant information and material in two or three minutes.
Previously, the γ» phase of iron nitride has only been synthesized in either thin - film form in high - vacuum environments or as inclusions in other materials, and never integrated into an actual device.
In manufacturing, electrochromic films are often coated onto other materials, such as the surface of a mirror, as inks.
Transparent films have been obtained from these materials for food packaging; they can be heat sealed and have excellent properties as a barrier for gases and fatty products.
The metamaterials were created with nonlinear optical response a million times as strong as traditional nonlinear materials and demonstrated frequency conversion in films 100 times as thin as human hair using light intensity comparable with that of a laser pointer.
HD - CR 35 NDT, A film replacement technology, Computed Radiography (CR), is actually a digital radiography technique that uses what we called an Image Plate (IP) made of phosphor material to replace film as the imaging media.
But when the graphite film was exactly two - layers thick, all of a sudden we realized that the material under pressure was becoming extremely hard and as stiff, or stiffer, than bulk diamond.»
Researchers have discovered that the film constructed by assembling a nontoxic filamentous virus functions as a heat dissipation material, and that can be simply prepared by drying the virus aqueous solution at room temperature.
As discussed above, nano - engineered materials in automotive products include polymer nanocomposites structural parts; high - power rechargeable battery systems; thermoelectric materials for temperature control; lower rolling - resistance tires; high - efficiency / low - cost sensors and electronics; thin - film smart solar panels; and fuel additives and improved catalytic converters for cleaner exhaust and extended range.
Her fundamental investigations have aimed to control the synthesis of nanoparticles and nanostructured thin films; as well as, to apply microstructural characterisation techniques for the study of nanostructured materials at the nano - scale.