Patent application number | Description | Published |
20080221285 | Solvent-Stable Metal Complexes Having Slightly Coordinating Counter Anions as Polymerisation Catalysts - The invention relates to a solvent-stable metal catalyst having slightly coordinating counter anions of formula I [M(L) | 09-11-2008 |
20080233302 | Method and Device for Production of a Three-Dimensional Article - The invention relates to a method and device for production of a three-dimensional article from a material, by means of layered application. According to the invention, a dropwise application is carried out, whereby drops of reaction components are ejected by a nozzle arrangement ( | 09-25-2008 |
20080249267 | Method for Producing Highly Reactive Isobutylene Homo-or Copolymers Using Boron-Containing Catalyst Complexes - Preparation of highly reactive isobutene homo- or copolymers having M | 10-09-2008 |
20100292422 | METHOD FOR PRODUCING COPOLYMERS MADE FROM ISOBUTENE AND AT LEAST ONE VINYLAROMATIC COMPONENT - The invention relates to a method for producing copolymers made from isobutene and at least one vinylaromatic component. Said method consists of polymerising isobutene or a hydrocarbon mixture containing isobutene with at least one vinylaromatic compound in the presence of a solvent-stable transistion metal complex comprising slightly co-ordinating anions as a polymerisation catalyst. The invention also relates to copolymers made of isobutene and at least one vinylaromatic compound, which can be obtained by means of said inventive method, in addition to specific functionalisation products therefrom. | 11-18-2010 |
20150232595 | RESIN MIXTURE BASED ON VINYL ESTER RESIN, REACTIVE RESIN MORTAR COMPRISING SAME AND USE THEREOF - Described is a resin mixture comprising a vinyl ester resin and a co-polymerizable compound, which bears at least two methacrylate groups, some of which is replaced by an itaconic acid ester. It is possible to control the properties of the composition, such as the curing, through the selection of the itaconic acid ester. In addition and beyond this feature, it is possible to formulate resin compositions that exhibit a certain amount of bio-based carbon. | 08-20-2015 |
Patent application number | Description | Published |
20080213614 | Honeycomb Body with an End-Side Brazing Zone, Exhaust-gas Treatment Component and Motor Vehicle Having a Honeycomb Body and Method for Producing a Honeycomb Body - A honeycomb body includes two opposite end sides, at least one housing and at least one metallic layer forming channels. At least one of the end sides has at least one brazed zone forming a belt-shaped, brazing material-free zone adjacent the housing. A method for producing the honeycomb body, an exhaust-gas treatment component for an internal combustion engine and a motor vehicle having the honeycomb body, are also provided. | 09-04-2008 |
20090158741 | Method for Generating Openings in a Metal Foil, Method for Producing a Honeycomb Body, Exhaust Gas Treatment Unit Having a Honeycomb Body Produced by the Method and Motor Vehicle - A method for generating openings in a metal foil includes at least the following steps:
| 06-25-2009 |
20090291849 | CATALYST CARRIER BODY WITH PASSIVATION LAYER - A catalyst carrier body includes at least one housing, a honeycomb body and a passivation layer which includes a multiplicity of separate crystal agglomerations with an averaged height lying in the range of 0.3 to 1.5 μm. Various production methods are proposed which are suitable, in particular, for producing such catalyst carrier bodies. Thus, the formation of the passivation layer takes place by the blending and/or mixing of an adhesive with a passivating substance and subsequently applying the adhesive, or by roughening a region using a blast-cutting manufacturing method with corundum particles being employed as the blasting medium. A barrier is thereby provided in a very simple and cost-effective way which, for example during the formation of brazed connections, prevents the then liquid brazing material from being distributed beyond the desired tying regions as a result of capillary effects. | 11-26-2009 |
20100139244 | SELF-SUPPORTING MOUNT FOR CATALYST CARRIER BODY AND EXHAUST SYSTEM HAVING AT LEAST ONE MOUNT - A self-supporting mount for exhaust gas purification modules includes at least two retaining plates. The exhaust gas purification modules each have a cross sectional shape and at least one bead projecting beyond the main cross sectional shape and having a thickness. At least two of the exhaust gas purification modules pass at least partially through at least one of the retaining plates and are each fixed between the at least two retaining plates through the use of the bead. An exhaust system for a motor vehicle having at least one self-supporting mount, is also provided. | 06-10-2010 |
20120064360 | SHEET-METAL LAYER WITH ANTI-DIFFUSION STRUCTURES AND METALLIC HONEYCOMB BODY WITH AT LEAST ONE SUCH SHEET-METAL LAYER - A sheet-metal layer includes anti-diffusion structures made of a high-temperature-corrosion-resistant steel having a longitudinal direction, upper and lower surfaces, a thickness of 0.015 to 0.1 mm and discontinuous microstructures extending approximately in the longitudinal direction. The microstructures have a structure height (0.02 to 0.1 mm), a structure length (2 to 10 mm), a structure width (0.2 to 1 mm), a longitudinal spacing (greater than 2 mm), formed by interruptions, from the nearest microstructure aligned approximately in the longitudinal direction and a lateral distance (1 to 10 mm) from the nearest laterally adjacent microstructure. Some of the microstructures project out of the sheet-metal layer toward the upper surface and some toward the lower surface. The microstructures cause each straight theoretical line extending across the sheet-metal layer perpendicularly to the longitudinal direction to intersect at least two microstructures projecting toward the upper surface and two microstructures projecting toward the lower surface. | 03-15-2012 |
20130247547 | PARTICLE SEPARATOR WITH A METAL LAYER THROUGH WHICH EXHAUST GAS CAN FLOW AND MOTOR VEHICLE HAVING AT LEAST ONE PARTICLE SEPARATOR - A particle separator for treating the exhaust gases of an internal combustion engine includes a housing having an inlet opening, an outlet opening, a cross section and a central axis. At least one metallic layer, through which exhaust gas can flow, is located in the housing and has an undulation or corrugation that spans the cross section of the housing. The particle separator has a large surface for providing the lowest possible flow resistance and a low risk of clogging. A motor vehicle having at least one particle separator is also provided. | 09-26-2013 |
20130247548 | PARTICLE SEPARATOR HAVING A MULTI-PART HOUSING, METHOD FOR PRODUCING THE PARTICLE SEPARATOR AND MOTOR VEHICLE HAVING THE PARTICLE SEPARATOR - A particle separator for treating exhaust gases from an internal combustion engine includes a housing having an inlet opening, an outlet opening, a central axis, a first part with a first joining surface and a second part with a second joining surface. The first and second joining surfaces correspond to one another, so that the first and second parts can be positioned along the central axis relative to one another. At least one metallic layer, through which exhaust gas can flow, spaces the first and second joining surfaces apart over the entire circumference. The particle separator can be manufactured cost-effectively in a simple manner with few measures and, in particular, is suitable for retrofitting to an existing exhaust system. A method for producing the particle separator and a motor vehicle having the particle separator are also provided. | 09-26-2013 |
20130247549 | CLEANABLE PARTICLE SEPARATOR AND MOTOR VEHICLE HAVING AT LEAST ONE PARTICLE SEPARATOR - A particle separator for treating the exhaust gases of an internal combustion engine includes at least one metallic layer through which exhaust gas can flow. The metallic layer is located in a housing that includes an inlet opening, an outlet opening and a central axis. The housing is provided with at least one inspection or maintenance opening that laterally penetrates the housing and provides a passage through to the metallic layer. The particle separator can, in particular, remain operational without having to be dismantled or can autonomously remain fully open to a flow at all times. A motor vehicle having at least one particle separator is also provided. | 09-26-2013 |
Patent application number | Description | Published |
20100009832 | Method for Processing a Fluid and Fluid Processing Device - The present invention relates to improved methods for processing fluids and to a fluid processing device ( | 01-14-2010 |
20100261595 | Apparatus for Processing Biological Material - A gripper unit for handling a vessel for receiving biological material is proposed, inter alia. The vessel has a lid which can assume an open position and a closed position. The gripper unit comprises a gripper for gripping and releasing the vessel, and a lid holder, for holding a lid in a defined position in relation to the vessel. The defined position is an open position of the lid. | 10-14-2010 |
20110091364 | APPARATUS FOR DELIVERING PIPETTABLE SUBSTANCES | 04-21-2011 |
20110162755 | APPARATUS AND PROCESS FOR REMOVING SUBSTANCES FROM PRE-FILLED CONTAINERS | 07-07-2011 |
20120024417 | Bellows-Type Reservoir For Microsystems - The invention relates to a storage and dispensing vessel for microsystems and to a method for storing and dispensing a liquid. It is the object of the invention to be able to store a liquid with volatile and/or creeping substances in very small vessels over many months, preferably over at least one year, and to be able to dispense it automatically with comparatively little technical effort. For accomplishing this object, a bellows configured as a vessel is provided which is sealed, preferably welded, in an air-tight and liquid-tight manner once the bellows vessel has been filled. This bellows vessel at the same time serves as a dispensing vessel. The vessel can be emptied automatically with relatively simple means. For this purpose, it is, for example, clamped into a device which compresses the bellows, namely in the direction of a hollow needle—also referred to as cannula or hypodermic needle—or of a comparable means. In the process, the hollow needle or the comparable means pierces a vessel wall. The vessel is then automatically emptied via the hollow needle or the comparable means. | 02-02-2012 |
20130026268 | PULVERIZER AND CORRESPONDING METHOD FOR PREPARING A BIOLOGICAL SAMPLE FOR PROCESSING - The invention relates, for example, to methods for preparing a plant or animal sample for processing, i.e. for example for the isolation of nucleic acids or proteins from the sample, as well as to a pulverizer. | 01-31-2013 |
20130314697 | FLUID PROCESSING TUBE FOR OPTICAL ANALYSIS AND METHOD FOR ANALYZING A FLUID - Fluid processing tube for use in optical analysis comprising at least one first portion being made from a first material suitable for optical analysis and being configured to include two optical paths of different lengths, and at least one second portion connected to said first portion and being made from a second material different from said first material. | 11-28-2013 |
20140056784 | SAMPLE RECEPTACLE - The invention relates to a sample container, comprising a housing which forms a sample space for receiving a sample and has at least one circular opening which extends in a channel-shaped manner into the sample space, and further comprising a spherical closing element, wherein the diameter of the closing element only exceeds the diameter of the opening channel in at least one (closing) portion to such an extent that the closing element can be fixed in a force-locked manner by its largest circumference in the closing portion, wherein the spherical closing element is in contact with the housing, and the opening channel between the closing portion and the inner opening forms a protrusion which reduces the opening cross section of the opening channel with respect to the opening cross section in the closing portion. | 02-27-2014 |
20140349410 | METHOD FOR PROCESSING A FLUID AND FLUID PROCESSING DEVICE - The present invention relates to improved methods for processing fluids and to a fluid processing device ( | 11-27-2014 |
20150114123 | APPARATUS FOR PROCESSING BIOLOGICAL MATERIAL - A gripper unit for handling a vessel for receiving biological material is proposed, inter alia. The vessel has a lid which can assume an open position and a closed position. The gripper unit comprises a gripper for gripping and releasing the vessel, and a lid holder, for holding a lid in a defined position in relation to the vessel. The defined position is an open position of the lid. | 04-30-2015 |
20150239596 | APPARATUS AND PROCESS FOR REMOVING SUBSTANCES FROM PRE-FILLED CONTAINERS | 08-27-2015 |
Patent application number | Description | Published |
20090029173 | TWO-COMPONENT ANTICORROSIVE PAINT, USE THEREOF AND METHOD FOR PRODUCING THE SAME - A two-component anticorrosion paint comprising metal pigment, epoxy binder component and amine curing agent and containing two components A and B, | 01-29-2009 |
20100064938 | METALLIC PAINT, METHOD FOR THE PRODUCTION THEREOF, AND USES THEREOF - The invention relates to metallic paint comprising water and/or organic solvent and also at least one film-forming agent, at least one organofunctional silane, and at least one metallic effect pigment, the metallic effect pigment being a leafing aluminum pigment. | 03-18-2010 |
20150122146 | Plate-Shaped Effect Pigment Comprising a Copper-Containing Coating, Method for the Production Thereof, and Use Thereof - The present invention relates to an effect pigment comprising a plate-shaped non-metallic substrate and at least one copper-containing coating, wherein the average particle size D | 05-07-2015 |
20150218388 | Zinc-Magnesium Anticorrosion Pigments, Anticorrosion Paint, and Method for the Production of Said Anticorrosion Pigments - The present invention relates to platelet-shaped zinc-magnesium pigments, wherein the platelet-shaped zinc-magnesium pigments comprise the 40.8 to 67.8 mol % of zinc, 32.2 to 59.2 mol % of magnesium and 0 to 7 mol % of Mn, Li, Be, Y, Sn, Al, Ti, Fe, Cu and mixtures thereof, based in each case on the total molar amount of the elements Zn, Mg, Mn, Be, Y, Li, Sn, Al, Ti, Fe and Cu, where the molar percentages add up to 100 mol %, and the median thickness h | 08-06-2015 |