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You selected inventions in category Chemistry

  • Alcoholic fizz tabsAlcoholic fizz tabs
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      A new way to make mixed drinks! Picture an ice cold soda now picture your favorite alcoholic beverage infused into a dissolvable tablet! Simply drop it in amd presto you have a mixed drink

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    • PHYSICAL CHEMICAL PROCESS FOR PRODUCTION OF VEGETABLE FIBERSPHYSICAL CHEMICAL PROCESS FOR PRODUCTION OF...
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        DESCRIPTION
        The invention regards a process through which it is possible to extract cellulose fibres contained in the Liberian vessels of vegetable species such as linen, ramie, hemp, Spanish broom, kenaf, jute, etc. The process is composed principally of a stage of digestion of the initial material in a hot aqueous alkaline solution, of a stage of compression in an autoclave with hot air, and a stage of rapid decompression. A further stage can consist in an ulterior softening of the fibre, by processes of enzymatic digestion or by processes of the mechanical kind.

        ADVANTAGES
        -Rapid production times, in the order of a few hours;
        -Low production costs;
        -Low environmental impact;
        -Versatility in the production of fibres with characteristics capable of being modulated.

        APPLICATION
        -Textile cellulose fibers;
        -Lignin-cellulose fibers for wood panel and bioremediation panels;

        STAGE OF DEVELOPMENT
        Working prototype.

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      • PHYSICAL CHEMICAL PROCESS FOR PRODUCTION OF VEGETABLE FIBERSPHYSICAL CHEMICAL PROCESS FOR PRODUCTION OF...
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          Description

          DESCRIPTION
          The invention regards a process through which it is possible to extract cellulose fibres contained in the Liberian vessels of vegetable species such as linen, ramie, hemp, Spanish broom, kenaf, jute, etc. The process is composed principally of a stage of digestion of the initial material in a hot aqueous alkaline solution, of a stage of compression in an autoclave with hot air, and a stage of rapid decompression. A further stage can consist in an ulterior softening of the fibre, by processes of enzymatic digestion or by processes of the mechanical kind.

          ADVANTAGES
          -Rapid production times, in the order of a few hours;
          -Low production costs;
          -Low environmental impact;
          -Versatility in the production of fibres with characteristics capable of being modulated.

          APPLICATION
          -Textile cellulose fibers;
          -Lignin-cellulose fibers for wood panel and bioremediation panels;

          STAGE OF DEVELOPMENT
          Working prototype.

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        • PHYSICAL CHEMICAL PROCESS FOR PRODUCTION OF VEGETABLE FIBERSPHYSICAL CHEMICAL PROCESS FOR PRODUCTION OF...
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            Description

            DESCRIPTION
            The invention regards a process through which it is possible to extract cellulose fibres contained in the Liberian vessels of vegetable species such as linen, ramie, hemp, Spanish broom, kenaf, jute, etc. The process is composed principally of a stage of digestion of the initial material in a hot aqueous alkaline solution, of a stage of compression in an autoclave with hot air, and a stage of rapid decompression. A further stage can consist in an ulterior softening of the fibre, by processes of enzymatic digestion or by processes of the mechanical kind.

            ADVANTAGES
            -Rapid production times, in the order of a few hours;
            -Low production costs;
            -Low environmental impact;
            -Versatility in the production of fibres with characteristics capable of being modulated.

            APPLICATION
            -Textile cellulose fibers;
            -Lignin-cellulose fibers for wood panel and bioremediation panels;

            STAGE OF DEVELOPMENT
            Working prototype.

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          • Surfactant surfadiolsSurfactant surfadiols
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              CAS NO.:126-86-3
              Classification: Chemical Auxiliary Agent
              Place of Origin: Chongqing China (Mainland)
              Expected Price: Negotiable
              Brand name:surfadiols

              Acme Tech. Corp. has succeed in developing a series of new nonionic surfactants with multifunction both wetting and foaming control, which apply as additives in coatings, paints, inks and printing industries

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            • ODSTM-1 in-situ dyne surface tension wettability measurement at fast moving plastic films and foilsODSTM-1 in-situ dyne surface tension wettability...
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                Method and device for online tough less surface tension control ODSTM-1 in DE19543289 by which the fast moving substrate through the measuring gap. It is transmitted with a chromatic beam and spectral selected light source were two optical channels are displaced and polarized by 90 degree to each other. Both optical axles are precise and motor driven shift able in certain angles from 25 up to 65 degree. The spectral light photons, transmission, extinction, absorption grades are detectable by two optical CCD imagine vision devices, integrated into the sensor case on other side of the substrate.

                Material condition
                At high speed moving substrates means plastic foil, flexible, film, laminate, coating, bonding, labeling, co-extrusion, BOPP, LDPE, LLDPE, HDPE, MDPE, MAS, MOH, MEV, PET, FEP, PP, PE, PS, PO, EVA, PTFE, PVC, PTFE, Vinyl, Polyester, wrapping, self-adhesive tape, high strength, cross laminated, adhesive coated films, reflective or magnetic sheeting, automotive tape products, inkjet, heat sealing, security, pressure sensitive tapes for entertainment or building industry, masking or printable plastic films, polycarbonate, acrylic, extruded or polished cellulose, optical grade polycarbonate, sheets for IR or laser protection, filter sheet, imaging, capacitors, bi-oriented polystyrene sheet, multilayer co-extruded film, PVC, PETG, polyimide, tear tapes for aerospace, inner covering in aircrafts, automotive, medical, bioengineering, renewable, agriculture, marine, household, commercial, domestic, construction, high-porous membranes for uses in alkaline lithium ion batteries, fuel cells, filtration equipment. By gauges 10-500 microns, fabric widths up to 10000 mm and web speeds up to 18 m/s.

                Optical properties and quality control
                Material specific wavelength selection 1200 up to 1800 nm, material specific finger prints, molecular spectral properties, transmission, optical angle scanning, ultra low level stray scatter light detection, polarization, slot diaphragms, transverse displacements control the light beams along and far from the optical X and Y axes. The results are extreme scattering, diffraction, NIR, IR, stray light photons generation into the layer areas at both sides of the moving substrate.

                Their reflected and transmitted light intensities enables the determination by defined formulas and data matrixes the surface tension values in ranges from 28 up to 62 mN/m or dynes which are direct associate and bond to real static values for statistical quality control (SQC).

                And this entirely independent of the material specific influences as like surface consistency, thickness, density, weight, opacity, coherence, filling, stretching, shrinkage, structure, co-extrusion, polar grouping, temperature, intrinsic motivation or viscosity, hydrophobia, hydrophilic molecules, hydrogen, moisture, water steam proof, bi-layer, polymer, patterning, nanostructure, irradiation, isotopic, catalyst, coherence, absorption, photo mask effect, radiation, resonance bands, Raman, electron spectroscopy for chemical analysis ASTM or ATR method, property, acoustic photonic liquid effects, pre material treatment as corona, plasma jet, flam treatment.

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              • Antimicrobial credit cards identification cards membership cards and identification badges and badge holdersAntimicrobial credit cards identification cards...
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                  Invention involves embedding antimicrobial disinfectant in commonly used plastic cards-- driver's licenses, identification cards, ATM cards and credit cards -- to reduce transmission of bacteria when the card touches human hands and other surfaces.

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                • Full Color 3D Solid Image ScannerFull Color 3D Solid Image Scanner
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                    This novel invention uses polishing techniques to slowly polish or abrade away stepped layers of an object to be scanned. The scanned object is cast into a contrasting resin which provides a dark (or light) background for photography. The layers are digitally photographed stepwise to produce a record of internal structures. 2D digital images are reassembled using computer and software methods to produce exquisitely fine detailed 3D digital models of the solid internal structures in full color.

                    Because polishing can be controlled tightly, layers may be removed in the in the nanometer realm. This implies the limiting barrier in resolution is the pixel size of the recording camera. These cameras pixels are getting denser and denser as technology progresses which only improves the performance of the 3D scanner.

                    The multi-spectral light used to illuminate the image plane can be used to identify the chemical components of the object. Therefore the 3D scanner has a spectrometer function as well.

                    The Full Color 3D Solid Image Scanner would be important in the semiconductor industry. Most importantly 1st article scanning semiconductor devices to determine as manufactured state vs. as designed.

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