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UPN Ref Technology
196 SUPERCRITICAL FLUIDS
Supercritical fluids are involved in a wide variety of applications which have shown a significant progress in recent years. Many industrial sectors are concerned including cosmetics, pharmaceutics, materials, chemistry or energy. Other areas are in rapid development such as the cleaning of mechanical parts or the surface preparation of microelectronics. It should be noted that water (Tc = 374 °C, Pc = 221 bars), which critical point is higher than that of CO2 (Tc = 31 °C, Pc = 74 bars), is nevertheless very much studied as a reaction medium, finding applications in the synthesis of nanoparticles and the recovery and treatment of waste.
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67 High performance polymeric raw material for adhesive films
A new innovative polymer which vinyl acetate content can vary between 40 and 90 percent. The technology has outstanding tack characteristics, remains elastic at low temperatures and shows excellent shear strength.
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65 Additives for the plastics industry
Unique organic polymer particles which are able to absorb and carry a variety of liquid chemical actives. These particles are robust and can be easily compounded into commercial thermoplastics, liquid polymers, polyester resin and rubber to either positively fragrance plastics or as a means of providing recycled plastic odour neutralisation.
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64 Plasma Enhanced CVD Process
The technology saves energy and advances the range of substrates and coating materials accessible to Atmospheric Pressure (AP) Chemical Vapour Deposition (CVD) processes.
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63 Plasma Enhanced CVD Etching process
The technology saves energy and advances the range of substrates and coating materials accessible to Atmospheric Pressure (AP) Chemical Vapour Deposition (CVD) processes.
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49 Superhydrophobic & transparent nanocomposite based solution
A spray coatable solution (alcohol based) that can be applied to a wide variety of substrates, including glass and plastics with water contact angle above 150 degree and without any loss of transparency. The coating is highly stable up to 400°C in air and over extended UV exposure (over 1 million mJ/cm2 at 365 nm).
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46 Grease resistant coating as an alternative to fluoro-compounds
The proposed technology consists of a grease resistant food packaging coating for paper mills that is sustainable, natural and biodegradable. It represents a natural alternative to the use of non-biodegradable fluorocarbon coatings as a grease and oil barrier.
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23 Making adhesives surfaces reversible
Thermo-expandable microspheres (TEMs), which consist of an outer shell of copolymer thermoplastic resin encapsulating a liquid hydrocarbon, when the heat trigger is applied at command the microspheres expand to over 100 times their volume, acting as a pressure activator to cleanly break the bond at the interface, and the cohesive structure. A key part of the patented technology is the functionalization of the TEMs surfaces, e.i. a conducting material is applied onto the polymeric shells of the microspheres. This additional layer enables quicker ways to get the heat to the TEM surface without damaging the material itself.
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4 New bioplastic resin
This bioplastic is manufactured using industry standard injection moulders and extruders. It is expected to meet the relevant standards of biodegradation and compostability whilst being price competitive. It can be reformulated, modified and optimised to suit a particular products attributes.
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1 Biolabels
The proposed technology consists of self-adhesive compostable materials from renewable resources. All materials are coated with EN13432 certified permanent adhesive.
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