An improved photoimageable dry film formulation, a fluidic ejection head containing a thick film layer derived from the improved photoimageable dry film formulation, and a method for making a fluidic ejection head. The improved photoimageable dry film formulation includes a multifunctional epoxy compound, a photoinitiator capable of generating a cation, a non-photoreactive solvent, and from about 0.5 to about 5% by weight a silane oligomer adhesion enhancer based on a total weight of the photoimageable dry film formulation before drying.

A liquid ejecting head includes a nozzle plate, a multilayer substrate, and a pressure chamber substrate. The multilayer substrate includes a liquid chamber wall portion. The liquid chamber wall portion has a first wall surface facing a common liquid chamber. The multilayer substrate has a supply flow path which has an inlet portion coupled to the first wall surface and via which the common liquid chamber communicates with the first pressure chamber. When a direction from the common liquid chamber toward the first pressure chamber is defined as a first direction, and a direction intersecting the first direction is defined as a second direction, the supply flow path includes a first portion having a first width in the inlet portion and a second portion having a second width, in a first cross section along the first direction and the second direction. The first width is narrower than the second width.

There is provided a liquid discharge head including a substrate having a pressure chamber, an actuator, and a channel member. The actuator has a first film arranged on the substrate and a second film arranged on a surface of the first film. The substrate and the channel member are attached to each other with an adhesive. A first through hole is formed in a part of the first film, and a second through hole is formed in a part of the second film. An edge of the first through hole is positioned further inward of the second through hole than an edge of the second through hole. The adhesive is applied to a part of the surface of the first film overlapping with the second through hole, so as to cover a boundary part between the first and second films.

There is provided a liquid discharge head including: a channel substrate including a pressure chamber; a support substrate having a through hole; a piezoelectric element disposed between the channel substrate and the support substrate in a thickness direction of the channel substrate; a drive section disposed on a surface of the support substrate on a side opposite to the piezoelectric element; a trace passing through the through hole of the support substrate, extending on the support substrate toward the drive section, and connected to the piezoelectric element and the drive section; and a reservoir member including a channel communicating with the pressure chamber, and joined to the surface of the support substrate with adhesive. A protrusion or a recess is provided on the surface of the support substrate on the side opposite to the piezoelectric element at a position between the trace and the channel.

There is provided a liquid discharge head including: a channel substrate including a pressure chamber; a support substrate having a through hole; a piezoelectric element disposed between the channel substrate and the support substrate in a thickness direction of the channel substrate; a drive section disposed on a surface of the support substrate on a side opposite to the piezoelectric element; a trace passing through the through hole of the support substrate, extending on the support substrate toward the drive section, and connected to the piezoelectric element and the drive section; and a reservoir member including a channel communicating with the pressure chamber, and joined to the surface of the support substrate with adhesive. A protrusion or a recess is provided on the surface of the support substrate on the side opposite to the piezoelectric element at a position between the trace and the channel.

A method of manufacturing a liquid discharge head includes preparing a first substrate where a discharge port configured to discharge liquid is formed to face a first surface, a concave portion is formed on a side of a second surface opposite to the first surface, and a first liquid flow passage penetrating from the first surface to the second surface is opened inside the concave portion on the side of the second surface, preparing a second substrate including a second liquid flow passage opened on a third surface, and sticking the first substrate and the second substrate to communicate the first liquid flow passage with the second liquid flow passage by bonding a bottom face of the concave portion and the third surface with an adhesive agent.

A method of manufacturing a structure that includes a substrate provided with a through hole, and a resin layer provided on a front surface of the substrate to close the through hole, includes, in order, preparing the substrate including the through hole and including a support substrate on a back surface of the substrate to close the through hole, bonding a dry film to a front surface of the substrate, the dry film including a support member and a resin layer on the support member, to close the through hole with the resin layer and turn the through hole into a closed space with the substrate, the support substrate, and the dry film, opening the through hole turned into the closed space from the support substrate side, and separating the support member from the dry film while retaining the resin layer on the front surface of the substrate.

An inkjet recording apparatus includes three or more recording heads. The recording heads contain different inks and eject the different inks sequentially on a recording medium. The different inks each contain a pigment. Of the different inks, an ink to be ejected first has the lowest pigment content ratio. Of the different inks, an ink to be ejected third and an ink to be subsequently ejected each have a pigment content ratio equal to or higher than that of the pigment contained in a corresponding one of inks to be precedently ejected. Of the different inks, an ink to be ejected second and an ink to be subsequently ejected each have a lower viscosity at 25 C. than a corresponding one of inks to be precedently ejected.

A liquid ejecting head includes a nozzle plate, a multilayer substrate, and a pressure chamber substrate. The multilayer substrate includes a communication flow path penetrating a first flow path arrangement layer, a insulating layer, and a second flow path arrangement layer. When a direction from the pressure chamber substrate toward the nozzle plate is defined as a first direction, and a direction intersecting the first direction is defined as a second direction, the communication flow path includes a first portion having a first width and a second portion having a second width in a first cross section along the first direction and the second direction, the first width is narrower than the second width, the first portion includes the insulating layer, and the communication flow path includes a first inclined portion having a wall surface inclined to the first direction between the first portion and the second portion.

There is provided a liquid discharge head including: a channel substrate including a pressure chamber; a support substrate having a through hole; a piezoelectric element disposed between the channel substrate and the support substrate in a thickness direction of the channel substrate; a drive section disposed on a surface of the support substrate on a side opposite to the piezoelectric element; a trace passing through the through hole of the support substrate, extending on the support substrate toward the drive section, and connected to the piezoelectric element and the drive section; and a reservoir member including a channel communicating with the pressure chamber, and joined to the surface of the support substrate with adhesive. A protrusion or a recess is provided on the surface of the support substrate on the side opposite to the piezoelectric element at a position between the trace and the channel.