Abstract: An electrical connector for supplying power to electrical equipment includes a first connector part with an electrically conductive pin and an insulating layer, and a second connector part with a socket. The electrically conductive pin in the first connector part is configured for engagement with the socket of the second connector part and for transmitting power or data or both through the electrically conductive pin to the socket part. The insulating layer is in intimate contact with and at least partially covering the electrically conductive pin and electrically insulates the pin from a body of the first connector part of the connector. The insulating layer includes a polymeric material having a repeat unit of formula: —O-Ph-Ph-O-Ph-CO-Ph- (I) and a repeat unit of formula —O-Ph-Ph-O-Ph-SO2-Ph-Ph-SO2-Ph- (II) wherein Ph represents a phenylene moiety; and wherein the repeat units I and II are in the relative molar proportions 95:5 to 80:20.

Abstract: A capsule filling machine for filling capsules and a cleaning unit for use in a capsule filling machine are disclosed. The capsule filling machine includes at least two processing paths with a plurality of processing stations. One of the processing stations includes a cleaning unit. The cleaning unit has, for each of the at least two processing paths, a leadthrough path with a longitudinal axis for leading through capsules. At least one cleaning element for cleaning the capsules is arranged on each leadthrough path.

Abstract: The disclosure relates to a processing system for in particular pharmaceutical powders, and to a method for decontamination of such a processing system. The processing system includes a processing device for the powder, and a closed housing with an inner production space in which the processing device is arranged. The processing system further includes a steam generator via which water vapor is introduced into the production space in such a quantity that air supersaturated with water vapor develops there at least in some parts. Any powder residues present are bound via water since, on account of the supersaturation, water condenses in the production space. The condensed water, including powder residues bound therein, is removed, in particular with the housing opened.

Abstract: A capsule filling machine for filling capsules and a cleaning unit for use in a capsule filling machine are disclosed. The capsule filling machine includes at least two processing paths with a plurality of processing stations. One of the processing stations includes a cleaning unit. The cleaning unit has, for each of the at least two processing paths, a leadthrough path with a longitudinal axis for leading through capsules. At least one cleaning element for cleaning the capsules is arranged on each leadthrough path.

Abstract: A porous gas diffusion substrate that includes: (a) a porous non-woven web comprising carbon fibers; and (b) a carbonaceous residue; wherein the carbonaceous residue is embedded within the porous non-woven web; (c) a fluorinated polymer; and (d) inert particles wherein at least some of the carbon fibers of the porous non-woven web have a coating comprising the fluorinated polymer and inert particles is disclosed.

Abstract: The invention generally relates to a naked collation package comprising an arrangement of individual packages, individually packaged in a polyolefinic filmic material, that are packed together in said naked collation package in a naked collation film, and there being no seal between the naked collation film and the filmic material of the individual packages. A method for forming the naked collation package and a method for manufacturing the naked collation package are also disclosed.

Abstract: The invention generally relates to a naked collation package comprising an arrangement of individual packages, individually packaged in a polyolefinic filmic material, that are packed together in said naked collation package in a naked collation film, and there being no seal between the naked collation film and the filmic material of the individual packages. A method for forming the naked collation package and a method for manufacturing the naked collation package are also disclosed.

Abstract: A non-woven gas diffusion substrate including: (i) a non-woven carbon fiber web; (ii) a carbon particulate material; and 10 (iii) a hydrophobic binder characterized in that the non-woven gas diffusion substrate further includes a conductive material having a x:y aspect ratio from 0.01 to 100, a x:z aspect ratio of at least 500 and a y:z aspect ratio of at least 500.

Abstract: A process for preparing gas diffusion substrate including a non-woven fibre web, thermally conductive materials and a carbonaceous residue, wherein the thermally conductive materials and carbonaceous residue are embedded within the non-woven fibre web and wherein the thermally conductive materials have a maximum dimension of between 1 and 100 ?m and the gas diffusion substrate has a porosity of less than 80% is disclosed. The substrate has particular use in phosphoric acid fuel cells.

Abstract: A porous gas diffusion substrate comprising: (a) a porous non-woven web comprising carbon fibres; and (b) a carbonaceous residue; wherein the carbonaceous residue is embedded within the porous non-woven web; (c) a fluorinated polymer; and (d) inert particles wherein at least some of the carbon fibres of the porous non-woven web have a coating comprising the fluorinated polymer and inert particles is disclosed.

Abstract: A sheet material for use in static dissipation applications comprises conductive staple fibres and a cross-linked binder system. Laminar structures comprising an insulating substrate and a layer of the sheet material are also disclosed as are static electricity dissipation assemblies comprising the laminar structure associated with an electrical conductor in contact with the sheet material layer of the laminar structure, the conductor also being for connection to an earthing point. The laminar structures and static dissipation assemblies may be used for constructing tanks, reservoirs and/or pipes that hold or convey flammable liquids in aircraft.

Abstract: A prepreg comprising resin and at least one fiber layer and further comprising an electrically insulating layer and an electrically conducting layer is provided, and particularly wherein the conductive layer is at or near the top surface, beneath that is the insulating layer and beneath that is a fiber/resin interleaf structure.

Abstract: A non-woven gas diffusion substrate including: (i) a non-woven carbon fibre web; (ii) a carbon particulate material; and 10 (iii) a hydrophobic binder characterised in that the non-woven gas diffusion substrate further includes a conductive material having a x:y aspect ratio from 0.01 to 100, a x:z aspect ratio of at least 500 and a y:z aspect ratio of at least 500.

Abstract: A magnetic material comprises a fibre matrix. The fibres of the matrix have a coating of a magnetic metal or alloy and magnetic particles are bonded to the matrix. The fibres of the matrix preferably have a core of carbon fibre.

Abstract: A process and an apparatus for producing sausages (28) in which sausage meat is introduced into a tubular case (20) by means of a filling machine (2) and the filled case (20) is divided into portions by means of a twisting-off device (40) for producing twist-off locations (22) so that the result is a sausage chain. The sausage chain is further transported by means of at least two transport devices (6, 8) connected in succession in the sausage chain transport direction (30), and the transport devices (6, 8) can be controlled by means of a control device (38) so that the transport speed of the second transport device (8) in the transport direction is at least at times greater than the transport speed of the first transport device (6).

Abstract: A gas diffusion substrate comprising a non-woven fibre web, thermally conductive materials and a carbonaceous residue, wherein the thermally conductive materials and carbonaceous residue are embedded within the non-woven fibre web and wherein the thermally conductive materials have a maximum dimension of between 1 and 100 ?m and the gas diffusion substrate has a porosity of less than 80% is disclosed. The substrate has particular use in phosphoric acid fuel cells.

Abstract: A prepreg comprising resin and at least one fibre layer and further comprising an electrically insulating layer and an electrically conducting layer is provided, and particularly wherein the conductive layer is at or near the top surface, beneath that is the insulating layer and beneath that is a fibre/resin interleaf structure.

Abstract: The invention concerns a process and an apparatus for producing sausages (28) in which sausage meat is introduced into a tubular case (20) by means of a filling machine (2) and the filled case (20) is divided into portions by means of a twisting-off device (40) for producing twist-off locations (22) so that the result is a sausage chain. According to the invention the sausage chain is further transported by means of at least two transport devices (6, 8) connected in succession in the sausage chain transport direction (30), and the transport devices (6, 8) can be controlled by means of a control device (38) so that the transport speed of the second transport device (8) in the transport direction is at least at times greater than the transport speed of the first transport device (6).

Abstract: The invention generally relates to a naked collation package comprising an arrangement of individual packages, individually packaged in a polyolefinic filmic material, that are packed together in said naked collation package in a naked collation film, and there being no seal between the naked collation film and the filmic material of the individual packages. A method for forming the naked collation package and a method for manufacturing the naked collation package are also disclosed.

Abstract: A method of finding delays of a multipath channel for receiving a spread spectrum signal, the multipath channel having a maximum delay spread, includes the steps of performing a first delay search within a time window in order to find first delays, the time window being located within the maximum delay spread, storing of the first delays in a delay storage, shifting the time window within the maximum delay spread, performing a second delay search within the shifted time window in order to find second delays and updating the delay storage on the basis of the second delays.