Abstract: Disclosed is process for producing a component of a nickel-based superalloy in which a semifinished part of the component is subjected to a solution heat treatment at a temperature from 1300° C. to 1350° C. and a precipitation heat treatment at a temperature range from 900° C. to 1150° C. The solution heat treatment and/or the precipitation heat treatment are carried out together with further processing of the semifinished part. Also disclosed is a process for treating a component of a nickel-based superalloy after use for some hundreds of hours at a use temperature of more than 500° C. by carrying out a reconditioning heat treatment in the temperature range from 1100° C. to 1280° C.

Abstract: The disclosure provides Zr—Ti—Cu—Ni—Al metallic glass-forming alloys and metallic glasses that have a high glass forming ability along with a high thermal stability of the supercooled liquid against crystallization.

Abstract: A component includes a body and a wear layer. The body has a substrate surface. The wear layer is applied to the body such that the wear layer is in overlying relationship with at least a portion of the substrate surface. The wear layer is thermal-spray bonded to the body. The wear layer comprises a composite of a steel alloy and a copper alloy.

Abstract: A method for the low-pressure carbonitriding of steel parts, in particular parts used in the manufacture of automobiles comprises a heating step that includes a simple heating phase (M) followed by an initial nitridation phase (Ni) from a temperature between 700° C. to 750° C. to a temperature between 860° and 1000° C. and carried out using a reduced temperature gradient relative to the simple heating phase. Additionally, alternate cementing (C1-Cn) and nitridation (N1-Nn) steps are performed at constant temperature, wherein the final nitridation step is accompanied with a decrease in temperature immediately before quenching (T).

Abstract: Certain example embodiments relate to techniques for improving the uniformity of, and/or conformance to a desired pattern for, metal island layers (MILs) formed on a substrate (e.g., a glass or other substrate), and/or associated products. Certain example embodiments form MILs using a laser or other energy source or magnetic field assisted technique, e.g., to compensate for non-uniformities that otherwise likely would result in the MIL diverging from its desired configuration. For example, a laser or other energy source may introduce heat onto a substrate, enable pulsed laser deposition, raster a target including the MIL metal to be deposited, raster a substrate where the MIL is to be formed, etc. These and/or other techniques may be used to enable the MIL to be formed on the substrate in a desired pattern, e.g., by compensating for implicit non-uniformities of the substrate and/or by selectively creating non-uniformities in how the MIL is formed.

Abstract: The present invention provides an apparatus for forming a uniform, large scale nanoparticle coating on a substrate. The apparatus comprises a source of vaporised metal nanoparticles. The apparatus further comprises a first plate (20) providing an array of spaced apart first apertures (22). The apparatus further comprises a second plate (24) aligned with and spaced apart from the first plate (20). The second plate (24) provides an array of spaced apart second apertures 26. Each second aperture (26) of the second plate (24) is aligned with a first aperture (22) of the first plate (20).

Abstract: There is described an intaglio printing plate coating apparatus comprising a vacuum chamber having an inner space adapted to receive at least one intaglio printing plate to be coated, a vacuum system coupled to the vacuum chamber adapted to create vacuum in the inner space of the vacuum chamber, and a physical vapour deposition (PVD) system adapted to perform deposition of wear-resistant coating material under vacuum onto an engraved surface of the intaglio printing plate, which physical vapour deposition system includes at least one coating material target comprising a source of the wear-resistant coating material to be deposited onto the engraved surface of the intaglio printing plate. The vacuum chamber is arranged so that the intaglio printing plate to be coated sits substantially vertically in the inner space of the vacuum chamber with its engraved surface facing the at least one coating material target.

Abstract: Certain example embodiments relate to techniques for improving the uniformity of, and/or conformance to a desired pattern for, metal island layers (MILs) formed on a substrate (e.g., a glass or other substrate), and/or associated products. Certain example embodiments form MILs using a laser or other energy source or magnetic field assisted technique, e.g., to compensate for non-uniformities that otherwise likely would result in the MIL diverging from its desired configuration. For example, a laser or other energy source may introduce heat onto a substrate, enable pulsed laser deposition, raster a target including the MIL metal to be deposited, raster a substrate where the MIL is to be formed, etc. These and/or other techniques may be used to enable the MIL to be formed on the substrate in a desired pattern, e.g., by compensating for implicit non-uniformities of the substrate and/or by selectively creating non-uniformities in how the MIL is formed.

Abstract: Systems and methods for treating metal pipe couplings, including a frame and insulated panels attached to the frame forming an oven. A pre-heat zone and a bake zone inside the oven, the pre-heat zone separated from the bake zone by a shared oven wall. A combustion burner and recirculation blower are positioned in opposite ends of the oven in a pre-heat zone combustion/recirculation chamber. Another burner and recirculation blower pair are positioned in opposite ends of the oven in a bake zone combustion/recirculation chamber. Heated air supply plenums are fluidly connected to respective recirculation blowers, and include direction-adjustable nozzles to direct heated air generally downward onto pipe couplings moving through the preheat and bake zones. Return air plenums positioned in each of the pre-heat and bake zones each have an air inlet, and an outlet fluidly connected to respective combustion/recirculation chambers. Coating-cured metal pipe couplings made by the methods.

Abstract: A method for material deposition is described in several embodiments. According to one embodiment, the method includes providing a substrate defining features to receive a deposition of material, initiating a flow of a Ru carbonyl precursor to the substrate, the Ru carbonyl precursor decomposing within the defined features such that a Ru metal film is deposited on surfaces of the defined features and CO gas is released, and stopping the flow of the Ru carbonyl precursor to the substrate. The method further includes flowing additional CO gas to the substrate after stopping the flow of the Ru carbonyl precursor to the substrate, and repeatedly cycling between process steps of flowing the Ru carbonyl precursor to the substrate and flowing the additional CO gas to the substrate. In one embodiment, the Ru carbonyl precursor contains Ru3(CO)12.

Abstract: A vaporizer includes a main body including a first body and a second body. The first body has an upper portion narrowing in a direction of a height of the first body and the second body has a cavity in which the first body is positioned. A mixing chamber is between the first and second bodies. The second body includes a carrier gas injection path connected to a carrier gas inlet formed in an upper portion of the mixing chamber. The carrier gas injection path carries a carrier gas. A source material injection path is connected to a source material inlet formed in the mixing chamber. The source material injection path carries a liquid source material. A discharge is connected to an outlet formed in a lower portion of the mixing chamber. A mixed fluid including the carrier gas and the liquid source material is discharged through the discharge path.

Abstract: A process for making low resistivity CVC silicon carbide. Applicants have developed a better process for adding nitrogen to silicon carbide which has the safety economic advantages of doping with N2 with the ease of N2 release advantages of using NH3. Preferred embodiments of the present invention include a NH3 generator with a source of H2 and a source of N2 and an arc discharge apparatus adapted to produce NH3 gas from a combination of the H2 and N2 sources.

Abstract: A controller causes treatment of a substrate with a treating gas by operating an exhaust portion to discharge gas from a treatment space and supplying the treating gas from a treating gas generator to the treatment space. After supplying a dry gas at a treatment flow rate to the treatment space and replacing the gas with the dry gas, the controller carries out a slow leak operation to flow the dry gas from a dry gas supplier in a predetermined direction and to supply the dry gas to a filter in a lower flow rate than the treatment flow rate.

Abstract: A film deposition apparatus includes a chamber and a turntable provided in the chamber. The turntable includes a concave portion in its upper surface. A bottom portion of the concave portion has a through hole. A substrate supporting member is detachably placed on the concave portion so that a lower surface thereof is exposed from the through hole, and includes a substrate receiving portion. A drive mechanism moves up and down and rotates the turntable. A rotary unit rotatable by air is provided under the turntable. An air supply unit is provided. A controller causes the drive mechanism to rotate and move down the turntable so that the rotary unit supports the exposed lower surface of the substrate supporting member. The controller causes the air supply unit to supply air to the rotary unit so that the substrate supporting member rotates a predetermined angle relative to the turntable.

Abstract: Methods of performing PE-ALD on a substrate with reduced quartz-based contamination are disclosed. The methods include inductively forming in a quartz plasma tube a hydrogen-based plasma from a feed gas that consists essentially of either hydrogen and nitrogen or hydrogen, argon and nitrogen. The nitrogen constitutes 2 vol % or less of the feed gas. The hydrogen-based plasma includes one or more reactive species. The one or more reactive species in the hydrogen-based plasma are directed to the substrate to cause the one or more reactive species to react with a initial film on the substrate. The trace amounts of nitrogen serve to reduce the amount of quartz-based contamination in the initial film as compared to using no nitrogen in the feed gas.

Abstract: Embodiments of the disclosure generally relate to apparatuses for processing substrates. In one embodiment, a substrate processing system is provided and includes a lid having an upper lid surface opposed to a lower lid surface, a plurality of gas inlet passages extending from the upper lid surface to the lower lid surface, a gas manifold disposed on the lid, at least one valve coupled with the gas manifold and configured to control a gas flow through one of the gas inlet passages, wherein the at least one valve is configured to provide an open and close cycle having a time period of less than about 1 second during a gas delivery cycle for enabling an atomic layer deposition process. The substrate processing system further contains a gas reservoir fluidly connected between the gas manifold and at least one precursor source.

Abstract: An electric discharge generator and power supply device of electric discharge generator includes a radical gas generation apparatus, a process chamber apparatus, and an n-phase inverter power supply device. The radical gas generation apparatus is located adjacent to the process chamber apparatus. The radical gas generation apparatus includes a plurality of (n) discharge cells. The n-phase inverter power supply device includes a power supply circuit configuration offering a means to control output of n-phase alternating current voltages and variably controls, according to positions of the plurality of discharge cells, the alternating current voltages of different phases.

Abstract: The present disclosure relates generally to the field of conversion coating. More specifically, the present disclosure relates to improved methods for improving efficiency of chromium conversion coat processing lines.

Abstract: The invention relates to an anode construction comprising a frame with two or more anodes and being adapted to be used with an offshore installation for remote connection with the offshore installation through cable connections between anodes and offshore installation. The frame comprises a main part and at least one movable part mounted on the main part and adapted to be pivotable or slidable in relation to the main part, where one or more anodes are mounted in a fixed position on the main part and one or more anodes are mounted on the movable part. The main part has a bottom frame part and a top frame part and further at least two anode mounting columns between the bottom frame part and the top frame part, and where the fixed anodes are mounted on the anode mounting columns.

Abstract: A hydrogen water manufacturing system includes: a container-shaped constant pressure maintaining unit receiving water and maintaining a water level; an electrolysis unit including a hermetically sealed container bisected into an oxygen generation chamber and a hydrogen generation chamber with an ion exchange membrane interposed therebetween, wherein the chambers independently receive the raw water from the constant pressure maintaining unit, and a positive electrode plate is provided in the oxygen generation chamber and a negative electrode plate is provided in the hydrogen generation chamber; a fluid pump receiving the water and hydrogen from the hydrogen generation chamber; a dissolution unit having a nozzle to inject the water and the hydrogen supplied from the fluid pump; and a flow rate detection sensor arranged on piping downstream of the dissolution unit to detect supply of hydrogen water and drive the fluid pump and simultaneously supply electrical power to the electrolysis unit.

Abstract: The present invention relates to a one-step process for preparation of “in-situ” or “ex-situ” self-organized and electrically conducting polymer nanocomposites using thermally initiated polymerization of a halogenated 3,4-ethylenedioxythiophene monomer or its derivatives. This approach does not require additional polymerization initiators or catalysts, produce gaseous products that are naturally removed without affecting the polymer matrix, and do not leave by-product contaminants. It is demonstrated that self-polymerization of halogenated 3,4-ethylenedioxythiophene monomer is not affected by the presence of a solid-state phase in the form of nanoparticles and results in formation of 3,4-polyethylenedioxythiophene (PEDOT) nanocomposites.

Abstract: An electrochemical reaction device includes: a first electrolytic solution tank including first and second storage parts storing first and second electrolytic solutions containing carbon dioxide and water respectively; reduction and oxidation electrodes immersed in the first and second electrolytic solutions respectively; a generator connected to the reduction and oxidation electrodes; a second electrolytic solution tank including a third storage part storing a third electrolytic solution containing carbon dioxide; and a flow path connecting the first and third storage parts. The third electrolytic solution is lower in temperature than the first electrolytic solution.

Abstract: A method for manufacturing a palladium coated doped metal oxide conducting electrode including immersing a metal oxide conducting electrode into an aqueous solution having a palladium precursor salt to form the metal oxide conducting electrode having at least one surface coated with palladium precursor. To form a layer of palladium nanoparticles on the metal oxide conducting electrode the palladium precursor on the metal oxide conducting is reduced with a borohydride compound. The palladium nanoparticles on the metal oxide conducting electrode have an average diameter of 8 nm to 22 nm and are present on the surface of the metal oxide conducting electrode at a density from 1.5×10?3 Pd·nm?2 to 3.5×10?3 Pd·nm?2.

Abstract: An apparatus for separating a mixture of two liquids of different densities which liquids are substantially insoluble in one another includes a hollow permeable body having a recess for receiving a first fluid which can flow from the recess through the permeable body to an exterior of the permeable body. A housing surrounds and is spaced from the exterior of the permeable body. The housing has an inlet for a second fluid and an outlet for a mixture of the first and second fluid. A baffle or baffles are provided in the space between the exterior of the permeable body and the housing, and to define a mixing channel in space between the exterior of the permeable body and the housing so that the second fluid can enter the housing inlet and flow through the mixing channel to the outlet, while picking up fluid on the exterior of the permeable body.

Abstract: The present disclosure relates to a method for preparing titanium by using electrowinning and, more specifically, to a method for preparing titanium by using electrowinning, comprising the steps of: preparing a mixture by mixing a solid electrolyte, which contains an oxide of a Group 1 element and boron oxide, with titanium dioxide; and forming a molten oxide from the mixture by putting the mixture in an electrowinning apparatus comprising an anode and an insoluble cathode and heating the same, and then forming titanium on the cathode by applying voltage to the anode and the cathode.

Abstract: Provided herein is an electric Al—Zr—Mn alloy-plating bath which comprises (A) an aluminum halide; (B) one or at least two kinds of compounds selected from the group consisting of N-alkylpyridinium halides, N-alkylimidazolium halides, N,N?-dialkyl-imidazolium halides, N-alkyl-pyrazolium halides, N,N?-dialkyl-pyrazolium halides, N-alkylpyrrolidinium halides and N,N-dialkyl-pyrrolidinium halides; (C) a zirconium halide; and (D) a manganese halide, in which the molar ratio of the aluminum halide (A) to the compound (B) ranges from 1:1 to 3:1. The plating bath never involves any risk of causing an explosion and can provide a smooth and fine Al—Zr—Mn alloy-plated film. Moreover, the resulting film has high resistance to corrosion even when it does not contain any chromium and therefore, it is quite suitable from the viewpoint of the environmental protection and it can thus be used in a wide variety of applications including the plating of parts for motorcars, and the plating of parts for electrical appliances.

Abstract: The present invention provides a copper-nickel alloy electroplating bath which contains (a) a copper salt and a nickel salt, (b) a metal complexing agent, (c) a conductivity imparting agent, (d) a sulfur-containing organic compound and (e) a redox potential regulator.

Abstract: A method for producing a closed cavity on a substrate, including: a) forming a cavity surrounded by at least one block on a given face of a substrate, the cavity having an aspect ratio higher than a determined threshold; and b) depositing a closing layer on the at least one block surrounding the cavity, the aspect ratio of the cavity being such that in b), the closing layer does not entirely fill the cavity and an empty space in the cavity is maintained.

Abstract: A method for subjecting garment accessories to a surface electrolytic treatment provides various metallic colors to metallic garment accessories in a cost effective manner. The method can provide a first metallic color on one side of outer surface of the garment accessory and provide a second metallic color on the other side of the outer surface, by placing one or more metallic garment accessories in an electrolytic solution in a non-contact state with an anode and a cathode for passing electric current through the electrolytic solution, passing electric current through the electrolytic solution and generating a bipolar phenomenon on the garment accessory.

Abstract: The present invention relates to a method of electrodepositing a metal on an electrically conductive particulate substrate. There is provided a method of electrodepositing a metal on an electrically conductive particulate substrate comprising the steps of: (i) providing a cathode; (ii) providing an anode formed from the metal to be electrodeposited; (iii) providing the substrate, cathode and anode within an electrodeposition bath comprising an electrolyte; and (iv) providing a voltage between said anode and cathode causing metal ions to flow from the anode to the cathode, wherein a separator is provided between the anode and the cathode.

Abstract: A process for the continuous application of metallic layers on a body comprising providing an electrically conductive body having a surface with an outer surface area; providing a plating apparatus comprising a cylindrical, hollow anode having an internal volume and an inner surface area, an electrolyte having metal ions dissolved therein, a cathode; imparting a charge on said body using said cathode, generating an electrical field by applying an electrical current to said anode, feeding said electrolyte into said internal volume of said anode, feeding said body through said anode, such that said body contacts said electrolyte, whereby said ions plate onto said body, forming a metallic layer on the surface of said body, and withdrawing said body from the anode; wherein a ratio of said anode inner surface area to said body outer surface area is in the range between 2.6:1 to 26:1.

Abstract: The present invention relates to a method for forming a capacitor having carbon or metal electrodes and an electrolyte which is also a source of electropolymerisable anions. Applying a sufficiently positive voltage, a thin dielectric layer forms at the positive electrode, enabling the use of cell voltages higher than 3.5 V. The construction and characteristics of capacitors with 5, 6.3, and 10 V of cell voltages, having reduced graphene oxide electrodes and an ionic liquid electrolyte, are shown.

Abstract: The invention relates to an apparatus for continuously electrolytically coating a wire for a high tension cable for use in overhead transmission lines, wherein the apparatus comprises a bath for an aqueous electrolytic solution containing a precursor for an electro-ceramic coating on a wire, a first air knife cleaning device, an electrification device for electrifying the wire, a plurality of guide members positioned to route the wire from into, through and out of the bath, a cathodic connection positioned in the bath for contacting the aqueous electrolytic solution, and a power source electrically connected to the electrification device and the cathodic connection, said power source capable of providing high voltage and high current to the wire through the electrification device, and through the wire in the bath to the cathode connection via the aqueous electrolytic solution.

Abstract: An advanced coating for parts used in plasma processing chamber. The advanced coating is formed over an anodized surface that has not been sealed. After the coating is formed, the coated area is masked, and the remaining anodized surface is sealed. The porous and rough structure of the anodized but un-sealed aluminum enhances adhesion of the coating. However, to prevent particle generation, the exposed anodized surface is sealed after formation of the coating. The coating can be of yttria, formed by plasma enhanced atomic deposition techniques which results in a dense and smooth coating.

Abstract: A flexible electrically conductive structure includes: a first polymer layer; and an electrically conductive layer disposed on a surface of the first polymer layer, wherein the electrically conductive layer includes an electrically conductive metal and a nanocarbon material, and wherein the flexible wiring board is to be used with a bending portion provided at least one position of the electrically conductive layer.

Abstract: Provided is a copper-nickel alloy electroplating apparatus which is capable of stably forming a copper-nickel plated coating on a workpiece with a uniform composition and which enables a plating bath to be used for a long period. The present invention provides a copper-nickel alloy electroplating apparatus (1), comprising: a cathode chamber (4) in which a workpiece (5) is to be placed; an anode chamber (6); an anode (7) placed in the anode chamber; an electrically conductive diaphragm (14) placed to separate the cathode chamber and the anode chamber from each other; a cathode chamber oxidation-reduction potential adjusting tank (8) for adjusting the oxidation-reduction potential of a plating liquid in the cathode chamber; an anode chamber oxidation-reduction potential adjusting tank (10) for adjusting the oxidation-reduction potential of a plating liquid in the anode chamber; and a power supply unit (36) that provides an electric current to flow between the workpiece and the anode.

Abstract: The embodiments herein relate to methods and apparatus for determining whether a particular test bath is able to successfully fill a feature on a substrate. In various cases, the substrate is a semiconductor substrate and the feature is a through-silicon-via. Generally, two experiments are used: a first experiment simulates the conditions present in a field region of the substrate during the fill process, and the second experiment simulates the conditions present in a feature on the substrate during the fill process. The output from these experiments may be used with various techniques to predict whether the particular bath will result in an adequately filled feature.

Abstract: In a single-crystal diamond material, a concentration of non-substitutional nitrogen atoms is not more than 200 ppm, a concentration of substitutional nitrogen atoms is lower than the concentration of the non-substitutional nitrogen atoms, and the single-crystal diamond material has a crystal growth main surface having an off angle of not more than 20°. A perforated tool includes a single-crystal diamond die, wherein in the single-crystal diamond die, a concentration of non-substitutional nitrogen atoms is not more than 200 ppm, a concentration of substitutional nitrogen atoms is lower than the concentration of the non-substitutional nitrogen atoms, and the single-crystal diamond die has a low-index plane represented by a Miller index of not less than ?5 and not more than 5 in an integer, a perpendicular line of the low-index plane having an off angle of not more than 20° relative to an orientation of a hole for wire drawing.

Abstract: Provided are drug-transport metabolomics profile assessments and therapies.

Abstract: A yarn for reinforcing composite material includes carbon nanotubes. The yarn has also been treated to promote interaction with a resinous matrix.

Abstract: A cellulosic fiber includes a fiber body including a cellulosic material and non-encapsulated phase change material dispersed within the cellulosic material. The non-encapsulated phase change material forms a plurality of distinct domains dispersed within the cellulosic material. The non-encapsulated phase change material has a latent heat of at least 40 Joules per gram and the cellulosic fiber has a latent heat between 9.8 Joules per gram and 132 Joules per gram and a transition temperature in the range of 0° C. to 100° C., and cellulosic fiber provides thermal regulation based on at least one of absorption and release of the latent heat at the transition temperature.

Abstract: A method to manufacture composite fibers of rice husk and charcoal includes the following steps. Heat and grind the rice husk and the charcoal and blend with PET to form first granules and second granules respectively wherein mass fractions of rice husk and charcoal are 15-20 wt %. The mass fraction of rice husk in the first granules and that of the charcoal in the second granules are equal. Blend the first granules and the second granules to form mixed granules. Blend and melt the mixed granules and PET to form a mixture wherein the summation of the mass fractions of rice husk and charcoal in the mixture is 0.2-2 wt %. Form composite fibers from the melted mixture by a procedure of filament making.

Abstract: The present invention discloses a preparation method of polyester cord fabric with low denier and high modulus, including steps of: spinning, reducing melt discharge volume for extruding yarn with denier of 500-1000 D; using high-speed motor and heat roller, spinning speed of 6000-6500 m/min to produce raw yarn; performing initial and repeat twisting of raw yarn by straight twisting machine; performing weaving of twisted yarn using Dornier air-jet loom to produce cord fabric, when weaving and reeding-in, using two into a reed way, adding creel roller bearing and creel single spindle tension control belt to improve uniformity; performing dipping of cord fabric using two-bath dipping, adjusting temperature to 250-260 degrees Celsius, tension to 0.3-2.9 daN/each yarn of key area, running speed of yarn to 55-70 m/min. The polyester cord fabric with low denier and high modulus can reduce rolling resistance and fuel consumption, and improve performance.

Abstract: Disclosed is a high-strength copolymerized aramid fiber which includes aramid copolymers containing an aromatic group substituted with a cyano group (—CN), so as to have an intrinsic viscosity (IV) of 6.0 to 8.5, a polydispersity index (PDI) of 1.5 to 2.0, a strength of 23 to 32 g/d, and an elastic modulus of 1,100 to 1,300 g/d. The high-strength copolymerized aramid fiber may be prepared by a method which includes, when para-phenylenediamine, cyano-para-phenylenediamine, and terephthaloyl dichloride are sequentially added to an organic solvent and reacted together to prepare a copolymerized aramid fiber, adding and dispersing a neutralizing agent in the organic solvent before the reaction of the para-phenylenediamine, cyano-para-phenylenediamine and terephthaloyl dichloride, which were dissolved in the organic solvent.

Abstract: This invention innovates a low cost method to synthesize carbon fibers through graphene composites, which are fabricated through chemical treatment of graphite. This invention also is related to the applications of thereof carbon fibers in different fields. Several examples of such fields would be to use carbon fibers to manufacture carbon fiber tubes, pipes or risers, or car/airplane/computer parts, bicycles, and sports supplies and many additional applications.

Abstract: Textile with an adhesive effect containing at least one stitch-forming adhesive thread. The adhesive thread has a component that imparts an adhesive effect at least at a surface thereof.

Abstract: A method for manufacturing tubular articles provided with a grip region on their reverse side, particularly for providing hold-up stockings, by way of circular hosiery knitting machines, comprising the use of a circular hosiery knitting machine that has at least two feeds or drops, of which at least one first feed is capable of dispensing a bare elastomer yarn; at the first feed, at least one needle of at least one group of contiguous needles is moved to a “tuck” position or to a “drop” position knit in order to pick up the bare elastomer yarn while the other needles of the group of needles are held in or moved to the “miss” position and therefore excluded from picking up the bare elastomer yarn.

Abstract: The method for manufacturing tubular knitted articles (M) comprises the steps of: a) knitting a tubular knitted article (M) with the needle cylinder (3); b) transferring loops (MA) of a last-formed course of loops from the needles (5) of the needle cylinder (3) onto the pick-up members (27A, 27B) of a transfer unit (21), divided into two circular half-rings (25A, 25B, 27A, 27B) which can be overturned over each other; c) overturning one of the circular half-rings (25A, 25B, 27A, 27B) of pick-up members (27B) onto the other so as to arrange two edge portions of the final edge of the tubular knitted article (M) one onto the other; d) joining the two edge portions to one another by means of joining stitches (A, B, C, D) formed in intermediate spaces between adjacent pick-up members (27A), whereon the knitted tubular article (M) is retained; e) unloading the knitted tubular article (M) with the closed toe from the transfer unit (21).

Abstract: Provided is a fiber molded body which has excellent durability against repeated compression and also has excellent flexibility and a cushioning property. The fiber molded body forms, on a surface of the fiber molded body, the ridges having a compressed and flattened shape in the thickness direction of the fiber molded body; or the fiber molded body forms a continuous curved surface with the fiber layer which forms the ridges and extends from both sides of the ridges in the thickness direction of the fiber molded body, and portions of the fiber layer of mutually adjacent ridges which form ridges and extend in the thickness direction of the fiber molded body come into close contact with each other in the thickness direction of the fiber molded body.

Abstract: Spunbonded electret webs comprising polylactic acid fibers, in which at least some of the polylactic acid fibers are meltspun, drawn, charged fibers that include charging additive; and, methods of making such fibers and webs.