Abstract: A method, system, and computer program product are disclosed for securely orchestrating containers in a container orchestration environment. The containers comprise confidential containers running in a trusted execution environment (TEE) and standard containers running in the container orchestration environment. The containers are securely orchestrated without modifying the containers, container runtimes, and platforms, protecting sensitive data and code of the containers by restricting access to containers.

Abstract: An example operation may include one or more of receiving a blockchain request comprising a timestamp added by one or more endorsing nodes included within a blockchain network, identifying that the timestamp added by an endorsing node from among the one or more endorsing nodes is a modification to a previously added timestamp provided by the computing node, determining a reputation value for the endorsing node based on a difference between the timestamp added by the endorsing node and the previously added timestamp provided by the computing node, and transmitting the determined reputation value of the endorsing node to an ordering node within the blockchain network.

Abstract: The disclosure improves the flexibility of arrangement of a separator provided at an end of a touch sensor unit to ensure electrical insulation. A sensor body included in a touch sensor unit includes a tubular insulator that is elastically deformed when an external force is applied; linear electrodes that are provided inside the tubular insulator and come into contact with each other as the tubular insulator is elastically deformed; a resistor disposed on an outer side of an end of the tubular insulator; connection wires connecting the linear electrodes and the resistor; a separator interposed between the connection wires and preventing contact between the connection wires; a mold part including at least the connection wires, the resistor, and the separator; and a cover member covering at least a part of the connection wires, the resistor, and the separator via the mold part.

Abstract: The disclosure realizes a touch sensor unit including a mold part that can restrict the movement of a sensor body embedded in a sensor holder. A touch sensor unit includes a sensor body, a sensor holder in which the sensor body is embedded, and a resistor disposed outside the sensor holder and electrically connected to the sensor body. The sensor body includes a tubular insulator that is elastically deformed when an external force is applied, and a plurality of linear electrodes that are provided inside the tubular insulator and come into contact with each other as the tubular insulator is elastically deformed. At least an end of the sensor holder, an end of the tubular insulator protruding from an end surface of the sensor holder, and the resistor are molded together with a mold part which is a resin molded body.

Abstract: A sensor unit manufacturing method includes: a core metal insertion process of inserting a core metal member having a length dimension smaller than a length dimension of a core metal accommodation portion into a predetermined location (a section of a curving portion) extending along a longitudinal direction of the core metal accommodation portion; and a bending process of bending the section (the section of the curving portion) of a fixation base portion, into which the core metal member is inserted, following a curved shape of a sensor bracket.

Abstract: A composition includes first, second, and third components. The composition preferably includes 0.1 to 50 parts by mass of the third component with respect to 100 parts by mass in total of the first and second components. The first component is at least one type of melamine salt selected from the group consisting of melamine orthophosphate, melamine pyrophosphate, and melamine polyphosphate. The second component is at least one type of piperazine salt selected from the group consisting of piperazine orthophosphate, piperazine pyrophosphate, and piperazine polyphosphate. The third component is cyanuric acid or zinc cyanurate.

Abstract: The disclosure provides a manufacturing method of a touch sensor unit that includes a tubular insulator housing a plurality of electrodes, and the plurality of electrodes housed in the tubular insulator are prevented from being fixed in a short-circuited state by the resin flowing into the tubular insulator. The manufacturing method of the touch sensor unit includes: a first process of disposing an end of a sensor holder, a resistor, connection wires, and a separator, which are included in a mold part provided at an end of the touch sensor unit, in a mold; and a second process of supplying molten resin into the mold in a state where the tubular insulator housing linear electrodes is pressed from an outer side of the sensor holder in the mold. In the second process, the tubular insulator is pressed within a range where the tubular insulator and an insertion protrusion overlap.

Abstract: A retractor of a seat belt apparatus includes a spool that is configured to wind the seat belt while allowing the seat belt to be pulled out, a motor that includes a shaft coupled to the spool and generates a rotational resistance force against the spool rotating in a direction to pull out the seat belt, the rotational resistance force corresponding to the rotation of the spool and the shaft caused by pulling out of the seat belt, a rotational resistance member that is coupled to the spool and generates a rotational resistance force against the spool rotating in the direction to pull out the seat belt when the seat belt is pulled out in the event of vehicle collision, and a reducing mechanism that reduces the rotation of the spool and transmits a reduced rotation to the shaft.

Abstract: A flame retardant composition containing a piperazine phosphate, a melamine phosphate, and an oil having a siloxane bond and a specific gravity of 0.930 to less than 0.970 at 25° C. The oil is present in an amount of 0.01 to 5 parts by mass per 100 parts by mass of the sum of the piperazine phosphate and the melamine phosphate. The flame retardant composition preferably further contains 0.01 to 5 parts by mass, per 100 parts by mass of the sum of the piperazine phosphate and the melamine phosphate, of a methylhydrogen silicone oil having hydrogen as part of the side chains of polysiloxane and a specific gravity of 0.970 to less than 1.01 at 25° C.

Abstract: A sensor unit manufacturing method includes: a core metal insertion process of inserting a core metal member having a length dimension smaller than a length dimension of a core metal accommodation portion into a predetermined location (a section of a curving portion) extending along a longitudinal direction of the core metal accommodation portion; and a bending process of bending the section (the section of the curving portion) of a fixation base portion, into which the core metal member is inserted, following a curved shape of a sensor bracket.

Abstract: The disclosure provides a manufacturing method of a touch sensor unit that includes a tubular insulator housing a plurality of electrodes, and the plurality of electrodes housed in the tubular insulator are prevented from being fixed in a short-circuited state by the resin flowing into the tubular insulator. The manufacturing method of the touch sensor unit includes: a first process of disposing an end of a sensor holder, a resistor, connection wires, and a separator, which are included in a mold part provided at an end of the touch sensor unit, in a mold; and a second process of supplying molten resin into the mold in a state where the tubular insulator housing linear electrodes is pressed from an outer side of the sensor holder in the mold. In the second process, the tubular insulator is pressed within a range where the tubular insulator and an insertion protrusion overlap.

Abstract: The disclosure realizes a touch sensor unit including a mold part that can restrict the movement of a sensor body embedded in a sensor holder. A touch sensor unit includes a sensor body, a sensor holder in which the sensor body is embedded, and a resistor disposed outside the sensor holder and electrically connected to the sensor body. The sensor body includes a tubular insulator that is elastically deformed when an external force is applied, and a plurality of linear electrodes that are provided inside the tubular insulator and come into contact with each other as the tubular insulator is elastically deformed. At least an end of the sensor holder, an end of the tubular insulator protruding from an end surface of the sensor holder, and the resistor are molded together with a mold part which is a resin molded body.

Abstract: The disclosure improves the flexibility of arrangement of a separator provided at an end of a touch sensor unit to ensure electrical insulation. A sensor body included in a touch sensor unit includes a tubular insulator that is elastically deformed when an external force is applied; linear electrodes that are provided inside the tubular insulator and come into contact with each other as the tubular insulator is elastically deformed; a resistor disposed on an outer side of an end of the tubular insulator; connection wires connecting the linear electrodes and the resistor; a separator interposed between the connection wires and preventing contact between the connection wires; a mold part including at least the connection wires, the resistor, and the separator; and a cover member covering at least a part of the connection wires, the resistor, and the separator via the mold part.

Abstract: A flame-retardant thermoplastic polyurethane resin composition is provided, containing: a thermoplastic polyurethane resin; at least one melamine salt selected from the group consisting of melamine orthophosphate, melamine pyrophosphate, and melamine polyphosphate; at least one piperazine salt selected from the group consisting of piperazine orthophosphate, piperazine pyrophosphate, and piperazine polyphosphate; and wet process silica having an oil absorption of 200 ml/100 g or more. The composition preferably contains zinc oxide.

Abstract: A composition contains an amine phosphate (A) and melamine cyanurate (B). In the composition, it is preferable that the component (A) contains components (A-1) and (A-2) below. The component (A-1) is at least one melamine salt selected from the group consisting of melamine orthophosphate, melamine pyrophosphate, and melamine polyphosphate. The component (A-2) is at least one piperazine salt selected from the group consisting of piperazine orthophosphate, piperazine pyrophosphate, and piperazine polyphosphate. It is possible to provide a composition that can impart a drip prevention effect and excellent flame retardancy to a resin and can provide a molded article with good surface smoothness, by being mixed with the resin.

Abstract: A composition includes first, second, and third components. The composition preferably includes 0.1 to 50 parts by mass of the third component with respect to 100 parts by mass in total of the first and second components. The first component is at least one type of melamine salt selected from the group consisting of melamine orthophosphate, melamine pyrophosphate, and melamine polyphosphate. The second component is at least one type of piperazine salt selected from the group consisting of piperazine orthophosphate, piperazine pyrophosphate, and piperazine polyphosphate. The third component is cyanuric acid or zinc cyanurate.

Abstract: A flame retardant composition containing a piperazine phosphate, a melamine phosphate, and an oil having a siloxane bond and a specific gravity of 0.930 to less than 0.970 at 25° C. The oil is present in an amount of 0.01 to 5 parts by mass per 100 parts by mass of the sum of the piperazine phosphate and the melamine phosphate. The flame retardant composition preferably further contains 0.01 to 5 parts by mass, per 100 parts by mass of the sum of the piperazine phosphate and the melamine phosphate, of a methylhydrogen silicone oil having hydrogen as part of the side chains of polysiloxane and a specific gravity of 0.970 to less than 1.01 at 25° C.

Abstract: A retractor of a seat belt apparatus includes a spool that is configured to wind the seat belt while allowing the seat belt to be pulled out, a motor that includes a shaft coupled to the spool and generates a rotational resistance force against the spool rotating in a direction to pull out the seat belt, the rotational resistance force corresponding to the rotation of the spool and the shaft caused by pulling out of the seat belt, a rotational resistance member that is coupled to the spool and generates a rotational resistance force against the spool rotating in the direction to pull out the seat belt when the seat belt is pulled out in the event of vehicle collision, and a reducing mechanism that reduces the rotation of the spool and transmits a reduced rotation to the shaft.

Abstract: It is an object of the present invention to provide a reaction force generating apparatus which can be improved in size and weight.

Abstract: A flame-retardant thermoplastic polyurethane resin composition is provided, containing: a thermoplastic polyurethane resin; at least one melamine salt selected from the group consisting of melamine orthophosphate, melamine pyrophosphate, and melamine polyphosphate; at least one piperazine salt selected from the group consisting of piperazine orthophosphate, piperazine pyrophosphate, and piperazine polyphosphate; and wet process silica having an oil absorption of 200 ml/100 g or more. The composition preferably contains zinc oxide.