The present disclosure includes methods and systems for lapping a row bar of sliders. According to the present disclosure, an electrical interconnect configuration is provided that permits the net current provided to a row bar to heat electrical heating devices during lapping to be managed so as help prevent exceeding breakdown currents of related electrical channels.

The present disclosure relates to separating parts (e.g., sliders and/or row bars) from an adhesive and carrier during the manufacture of parts to be used in a data storage device such as a hard disc drive.

A thermally assisted magnetic head including a slider and a light source-unit. The slider includes a slider substrate and a magnetic head part. The light source-unit includes a laser diode and a sub-mount. The magnetic head part includes a medium-opposing surface, a light source-opposing surface and a waveguide which guides laser light from the light source-opposing surface to the medium-opposing surface. The slider substrate includes a light source-cavity formed in a light source-placing surface on which the light source-unit is placed. The light source-cavity includes an opening concave part being formed larger than a mount bottom surface of the sub-mount. The mount bottom surface of the sub-mount is inserted into the opening concave part to be joined to the light source-cavity.

A method for cleaning magnetic sliders. One embodiment of the method includes dislodging particulate debris from a surface of a magnetic slider by contacting the surface of the slider with an oscillating brush, enveloping the dislodged particulate debris in a foam, and removing the enveloped particulate debris by removing the foam from the magnetic slider.

A lapping mount tool and a process for lapping a row of head sliders involves affixing the row to a lapping mount tool fixture, actuating each of multiple first actuation pins to set each head slider for lapping to a respective element target stripe height, and simultaneously lapping accordingly. The process may further involve actuating each of multiple second actuation pins to set each head slider for lapping to a respective target wedge angle, and simultaneously lapping accordingly. Each target wedge angle may be achieved by applying a respective angular force to a compliant elastomer adhered to the fixture and to the row, where such angular forces may be applied through at least two flexures interconnecting a rotatable first structural member and a second structural member of the lapping mount tool, wherein the flexures virtually intersect at and define an axis of rotation about which the angular forces are applied.

Embodiments of the present disclosure demonstrate a lapping carrier system for a bar to be lapped. The lapping carrier system may be configured with a single piece insert whose bridge is separated from a plurality of joints of the carrier insert by a varying distance. The varying distance can be greater at a medial portion of the bridge than at an end portion of the bridge to collectively form a parabolic shape. In some embodiments, a lapping insert can include a bridge with its length longer than the bar. In some embodiments in a lapping insert, the centerline between the end joint edge and the end finger edge extends beyond the edge of bar.

According to one embodiment, a method includes attaching a die to a beam, wherein the die comprises an array of transducers positioned in a transducer region of the die, a first region extending from the transducer region to a first end of the die and a second region extending from the transducer region to a second end of the die. The first region of the die is attached to the beam. The transducer region and the second region are not attached to the beam.

A method according to one embodiment includes attaching a die to a beam, where the die includes an array of transducers in a transducer region of the die, a first region extending from the transducer region to a first end of the die and a second region extending from the transducer region to a second end of the die. The transducer region of the die is attached to the beam, and the first region and the second region are not attached to the beam.

A high density slider clamp fixture is disclosed for accurately positioning a large number of head sliders for metrology testing. The slider clamp fixture may include a single piece, monolithic structure comprising a large number of slider nests, aligned in rows and columns in the slider fixture. Each slider nest includes a reference datum surface machined to precisely align with all other reference datum surfaces in a row of the monolithic structure. Each slider nest further includes a flexure clamp for independent clamping of each slider in the row against the reference datum surfaces.

A lapping tool assembly includes a mount tool and an interposer structure interposed between actuators and the mount tool, where the interposer includes interposer pins reactively coupled with the actuators such that each interposer pin is configured to receive a translational force from a corresponding actuator and to transmit the force to a corresponding actuation pin of the mount tool. The interposer may include a zero z-axis shift flexure system, and/or a z-axis decoupling flexure system, and/or alignment features, for accurately transmitting the actuation forces to the mount tool, while inhibiting affecting other portions of the mount tool.