Abstract: A process cartridge mountable in and dismountable from an image forming apparatus includes a frame, a storing portion provided on a mounting surface of the frame and configured to store information on the process cartridge, a projection projecting outwardly of the mounting surface in a direction normal to the mounting surface, and an electrical contact portion mounted on the projection and electrically connected to the storing portion.

Abstract: Provided is a shock absorber formed by a resin composition and provided in a shoe, the shock absorber satisfying all formulas (1) to (4) below when changes in storage elastic modulus between 20° C. to 50° C. are linearly approximated by a least-squares method: Y=aX+b . . . (1); ?0.1?a??0.02 . . . (2); 1.0?b?16.0 . . . (3); and R2?0.75 . . . (4), where X represents a temperature (unit: ° C.) of the shock absorber, Y represents a storage elastic modulus of the shock absorber, and R represents a correlation coefficient in the least-squares method.

Abstract: [Object] To provide an optical connector and an optical connector set which are excellent in environment resistance and suitable for the use in medical instruments, an image pickup unit and an image pickup system that use the optical connector, and an optical transmission module. [Solving Means] An optical connector according to the present technology includes a lens support, a fiber ferrule, a lens, and a lens retainer. The lens support includes a through-hole. An optical fiber is connected to the fiber ferrule. The fiber ferrule is press-fitted in the through-hole. The lens is inserted into the through-hole. The lens retainer is press-fitted in the lens support and sandwiches the lens between the lens retainer and the fiber ferrule.

Abstract: Provided is a shock absorber formed by a resin composition and provided in a shoe, the shock absorber satisfying all formulas (1) to (4) below when changes in storage elastic modulus between 20° C. to 50° C. are linearly approximated by a least-squares method: Y=aX+b . . . (1); ?0.1?a??0.02 . . . (2); 1.0?b?16.0 . . . (3); and R2?0.75 . . . (4), where X represents a temperature (unit: ° C.) of the shock absorber, Y represents a storage elastic modulus of the shock absorber, and R represents a correlation coefficient in the least-squares method.

Abstract: There is provided an optical-electrical hybrid module including a substrate on which a plurality of optical communication modules are arranged, the plurality of optical communication modules transmitting or receiving an optical signal through an optical fiber cable and performing conversion between the optical signal and an electrical signal. A shield case covering the optical communication modules includes a surface inclined in a direction away from a position in which the optical fiber cable is mounted to each optical communication module.

Abstract: An image forming apparatus includes an image forming unit, a transfer portion that transfers a toner image to a transfer material, a first roller disposed upstream of the transfer portion in a conveying direction of the transfer material, and a second roller disposed upstream of the transfer portion and downstream of the first roller. The triboelectric charge polarities of the surfaces of the first and second rollers when the surfaces are triboelectrically charged by contact with the transfer material differ from each other.

Abstract: [Object] To provide an optical connector and an optical connector set which are excellent in environment resistance and suitable for the use in medical instruments, an image pickup unit and an image pickup system that use the optical connector, and an optical transmission module. [Solving Means] An optical connector according to the present technology includes a lens support, a fiber ferrule, a lens, and a lens retainer. The lens support includes a through-hole. An optical fiber is connected to the fiber ferrule. The fiber ferrule is press-fitted in the through-hole. The lens is inserted into the through-hole. The lens retainer is press-fitted in the lens support and sandwiches the lens between the lens retainer and the fiber ferrule.

Abstract: There is provided an optical-electrical hybrid module including a substrate on which a plurality of optical communication modules are arranged, the plurality of optical communication modules transmitting or receiving an optical signal through an optical fiber cable and performing conversion between the optical signal and an electrical signal. A shield case covering the optical communication modules includes a surface inclined in a direction away from a position in which the optical fiber cable is mounted to each optical communication module.

Abstract: An image forming apparatus includes an image forming unit, a transfer portion that transfers a toner image to a transfer material, a first roller disposed upstream of the transfer portion in a conveying direction of the transfer material, and a second roller disposed upstream of the transfer portion and downstream of the first roller. The triboelectric charge polarities of the surfaces of the first and second rollers when the surfaces are triboelectrically charged by contact with the transfer material differ from each other.

Abstract: The present invention describes branched and functionalized siloxanes and methods for making such compounds. The compounds have a variety of uses. One preferred application is as novel planarizing material for lithogaphy, in which case functionalized branched siloxane, such as an epoxy-modified branched siloxane is particularly useful.

Abstract: According to one aspect of the present invention, there is provided a curable resin composition including at least: a polysiloxane compound having, in a molecule thereof, at least two functional groups selected from the group consisting of silanol groups and alkoxysilyl groups as a component (A-1); and silica whose extract water has a pH of 6.1 or lower at 25° C. as a component (B), wherein the amount of the component (B) relative to the total amount of the components (A-1) and (B) is in a range of 70 to 97 mass %. This curable resin composition is able to, even when formed into various shapes and sizes, prevent foaming during curing and thus is suitable as an encapsulant material for a semiconductor element.

Abstract: A composition provided to contain: an alkoxysilane condensate obtained by the condensation of alkoxysilane A represented by general formula (1): (CH3)Si(OR1)3 (In the general formula (1), R1 mutually independently represents methyl group or ethyl group.), alkoxysilane B represented by general formula (2): (Ph)Si(OR1)3 (In the general formula (2), R1 mutually independently represents methyl group or ethyl group.), and alkoxysilane C represented by general formula (3): (CH3)2Si(OR1)2 (In the general formula (3), R1 mutually independently represents methyl group or ethyl group.) at an A:B:C mole ratio within the range of 30-70:10-50:20-60; and a polyether-modified polydimethylsiloxane.

Abstract: A first curable composition has flowability and include a photopolymerizable group-containing silicone compound (A), a photopolymerization initiator, a photoacid generator and at least one kind of metal compound selected from the group consisting of metal carbonates, metal hydroxides and metal oxides. This curable composition provides a temporary bonding material capable of easily temporarily bonding a component part and a substrate, without trapping an air bubble in a temporary bonding surface of the component, and allowing easy separation of the component part and the substrate after performing various processing on the component part.

Abstract: There is provided an optical-electrical hybrid module including a substrate on which a plurality of optical communication modules are arranged, the plurality of optical communication modules transmitting or receiving an optical signal through an optical fiber cable and performing conversion between the optical signal and an electrical signal. A shield case covering the optical communication modules includes a surface inclined in a direction away from a position in which the optical fiber cable is mounted to each optical communication module.

Abstract: The present invention describes branched and functionalized siloxanes and methods for making such compounds. The compounds have a variety of uses. One preferred application is as novel planarizing material for lithogaphy, in which case functionalized branched siloxane, such as an epoxy-modified branched siloxane is particularly useful.

Abstract: Disclosed is a curable composition including a silicone (A) of a specific structure and a composition containing Si—OH group and Si—H group, a silicone (B) of a specific structure and a composition containing Si—OH group and Si—CH?CH2 group, and a hydrosilylation catalyst of a catalytic quantity containing at least one metal compound selected from the group consisting of platinum compounds, palladium compounds, and rhodium compounds. In this curable composition, as kind of each silicone and the content of Si—OH group are adjusted, in curing the silicone, foaming in a cured product can be inhibited by inhibiting a dehydration condensation reaction between Si—OH groups, as compared with a hydrosilylation reaction which is a reaction of Si—CH?CH2 group and Si—H group. Furthermore, an excellent adhesion to a base body such as semiconductor substrate can be given when making a cured film.

Abstract: There is provided an optical-electrical hybrid module including a substrate on which a plurality of optical communication modules are arranged, the plurality of optical communication modules transmitting or receiving an optical signal through an optical fiber cable and performing conversion between the optical signal and an electrical signal. A shield case covering the optical communication modules includes a surface inclined in a direction away from a position in which the optical fiber cable is mounted to each optical communication module.

Abstract: A composition provided to contain: an alkoxysilane condensate obtained by the condensation of alkoxysilane A represented by general formula (1): (CH3)Si(OR1)3 (In the general formula (1), R1 mutually independently represents methyl group or ethyl group.), alkoxysilane B represented by general formula (2): (Ph)Si(OR1)3 (In the general formula (2), R1 mutually independently represents methyl group or ethyl group.), and alkoxysilane C represented by general formula (3): (CH3)2Si(OR1)2 (In the general formula (3), R1 mutually independently represents methyl group or ethyl group.) at an A:B:C mole ratio within the range of 30-70:10-50:20-60; and a polyether-modified polydimethylsiloxane.

Abstract: The present invention describes branched and functionalized siloxanes and methods for making such compounds. The compounds have a variety of uses. One preferred application is as novel planarizing material for lithography, in which case functionalized branched siloxane, such as an epoxy-modified branched siloxane is particularly useful.

Abstract: A composition provided to contain: an alkoxysilane condensate obtained by the condensation of alkoxysilane A represented by general formula (1): (CH3)Si(OR1)3 (In the general formula (1), R1 mutually independently represents methyl group or ethyl group.), alkoxysilane B represented by general formula (2): (Ph)Si(OR1)3 (In the general formula (2), R1 mutually independently represents methyl group or ethyl group.), and alkoxysilane C represented by general formula (3): (CH3)2Si(OR1)2 (In the general formula (3), R1 mutually independently represents methyl group or ethyl group.) at an A:B:C mole ratio within the range of 30-70:10-50:20-60; and a polyether-modified polydimethylsiloxane.