Polymer Fiber Processing

Manufacturing process for creating polymer fibers. It is a specialized form of extrusion that uses a spinneret to form multiple continuous filaments.

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Nuclear Applications

Nuclear reactions of atomic nuclei. Among the notable nuclear technologies are nuclear reactors, nuclear medicine and nuclear weapons. It is also used, among other things, in smoke detectors and gun sights.

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Material Science Congress

It is our #honor to #invite you again as a #speaker for #MaterialScienceCongress to be held in #HolidayInnRomeAurelia, Rome, #Italy during 08 – 09 #June 2020.

Hope these dates will fit into your #academiccalendar and join us at #Rome.

PS: http://globalepisteme.org/Conference/material-science-conference…

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Material Science Congress

#MatCongress2020

Following the #outbreak of the #Coronavirus (COVID-19) in Italy, #MaterialScienceCongress has been rescheduled from #March to 08 – 09 #June 2020 at Rome, Italy.

We have made this decision based on advice and information from the government and local authorities in Italy and consultation with our partners, venue and local team. We feel this is the correct course of action at this time. The safety of our participants is our first priority.

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#Materialscience #Nanoscience2020 #Biomaterialscience #Materialevents

Antimony Production

Antimony rarely occurs in its native metallic form in nature. Some antimony is produced as a by-product of smelting ores of other metals, mainly gold, copper and silver, in countries. Important amounts of antimony are yielded as a by-product of copper and silver mining.

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Arsenic Production

Mining, smelting of non-ferrous metals and burning of fossil fuels are the major anthropogenic sources of arsenic contamination of air, water, and soil. The historical use of arsenic-containing pesticides has left large tracts of agricultural land contaminated.

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Cycloolefin Copolymers

Cyclic olefin copolymer is an amorphous polymer made by several polymer manufacturers. COC is a relatively new class of polymers as compared to commodities such as polypropylene and polyethylene.

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Chemical Sensors

Chemical sensors are measurement devices that convert a chemical or physical property of a specific analyte into a measurable signal, whose magnitude is normally proportional to the concentration of the analyte.

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Hyperbranched Macromolecules

Hyperbranched macromolecules HMs, also called hyperbranched polymers are highly branched three-dimensional (3D) structures in which all bonds converge to a focal point or core, and which have a multiplicity of reactive chain-ends.

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Hyperbranched Polymers

Hyperbranched polymers (HPs) are highly branched three-dimensional (3D) macromolecules. Their globular and dendritic architectures endow them with unique structures and properties such as abundant functional groups, intramolecular cavities, low viscosity, and high solubility.

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Styrene Copolymers

Styrene acrylonitrile resin is a copolymer plastic consisting of styrene and acrylonitrile. It is also known as SAN. It is widely used in place of polystyrene owing to its greater thermal resistance. The chains of the polymer show alternating repeat units of styrene and acrylonitrile, and it is a copolymer.

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Cyclic Polymers

Cyclic polymers have been developed in which the ends of growing polymer chains remain attached to a metal complex throughout the entire polymerization process.

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Conjugated polymers

Conjugated polymers are organic macromolecules that are characterized by a backbone chain of alternating double- and single-bonds. Their overlapping p-orbitals create a system of delocalised π-electrons, which can result in interesting and useful optical and electronic properties.

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Block Copolymer

A block copolymer is defined as a polymer comprising molecules in which there is a linear arrangement of blocks, a block being defined as a portion of a polymer molecule in which the monomeric units have at least one constitutional or configurational feature absent from the adjacent portions.

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Thorium Fuel Cycle

The thorium fuel cycle is the path that thorium transmutes through from fertile source fuel to uranium fuel ready for fission. Th-232 absorbs a neutron, transmuting it into Th-233. Th-233 beta decays to Pa-233 and finally undergoes a second beta minus decay to become U-233. This is the one way of turning natural and abundant Th-232 into something fissionable. Since U-233 is not naturally found but makes an ideal nuclear reactor fuel, it is a much sought-after fuel cycle. This fuel cycle is of extreme importance to molten salt reactors, as most of the proposed reactors could use the thorium fuel cycle.

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Platinum-Group Metals

The platinum-group metals are six noble, precious metallic elements clustered together in the periodic table. These elements are all transition metals in the d-block. The six platinum-group metals are ruthenium, rhodium, palladium, osmium, iridium, and platinum.

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Pressure Vessel Steel

Pressure vessel steel plate covers a range of steel grades that are designed for use in pressure vessel, boilers, heat exchangers and any other vessel that contains a gas or liquid at high pressures.

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Nuclear Reactors

Nuclear reactors are the heart of a nuclear power plant. They contain and control nuclear chain reactions that produce heat through a physical process called fission. That heat is used to make steam that spins a turbine to create electricity.

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Jet Engine Materials

The combustion chamber is also made of nickel and titanium alloys, and the turbine blades, which must endure the most intense heat of the engine, consist of nickel-titanium-aluminum alloys. Often, both the combustion chamber and the turbine receive special ceramic coatings that better enable them to resist heat.

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