A torque-limiting device may include a shaft extending axially through upper and lower shanks, a spring, and a nut to an end opening of a handle. The upper and lower shanks may be under a force from the spring and further configured to selectively engage within a predetermined torque limit and disengage at above the predetermined torque limit. Accordingly, the shaft may receive torque up to the predetermined limit as provided by a user operating a handle of the torque-limiting device. The torque-limiting device may be disposable, reusable, economical, and have high torque capabilities. The shaft may be of a plastic material and include a lumen extending there through, and through which a variety of devices and materials may be delivered to a workpiece.

Disclosed is a mill liner assembly for a grinding mill. The mill liner assembly including a mill liner and a head nut for the mill liner. The liner comprises a wear surface and an opposite inner surface. The head nut forming part of a coupling for use in removably mounting the mill liner to an interior surface of the grinding mill. The mill liner assembly further comprises at least one passage having an interior wall extending through in the liner for receiving the head nut. The head nut includes a leading end and a trailing end being spaced apart along an axis. The head nut also comprises a body having an interior bore extending along the axis operative to receive a shank, the shank forming part of the coupling, and an engaging portion connected to or integrally formed with the body to engage the interior wall of the passage to retain the head nut in the at least one passage in the mill liner. Also disclosed is a method of installation of a head nut in a mill liner.

A fastener is provided. In another aspect, a fastener is made of layers of material, a light curable material and/or multiple built-up materials. Another aspect uses a three-dimensional printing machine to emit material from an ink jet printing head to build up a fastener.

A fastener is provided. In another aspect, a fastener is made of layers of material, a light curable material and/or multiple built-up materials. Another aspect uses a three-dimensional printing machine to emit material from an ink jet printing head to build up a fastener.

Tolerance absorber sleeve (20) for fastening a first component (40) to a second component (30) within a predetermined tolerance range (D), wherein said sleeve (20) is made of a metallic material and comprises a wall (21) and a first axial end portion (26) and a second axial end portion (27). Said sleeve (20) is adapted to be arranged in a hole of said first component (40) and abutting said second component (30) at the second axial end portion (27), wherein said wall (21) of said sleeve (20) comprises at least one weakening zone (22) adapted to plastically deform upon axial compression of the sleeve (20), such that said wall (21) of said sleeve (20) forms a first radially outward projection (201) on a first side of said hole of said first component (40), and a second radially outward projection (202) on a second side of said hole of said first component (40), whereby said tolerance absorber sleeve (20) is adapted to hold said first component (40) by said first and second projections (201, 202) within a predetermined tolerance range (D) from said second component (30).

Tolerance absorber sleeve (20) for fastening a first component (40) to a second component (30) within a predetermined tolerance range (D), wherein said sleeve (20) is made of a metallic material and comprises a wall (21) and a first axial end portion (26) and a second axial end portion (27). Said sleeve (20) is adapted to be arranged in a hole of said first component (40) and abutting said second component (30) at the second axial end portion (27), wherein said wall (21) of said sleeve (20) comprises at least one weakening zone (22) adapted to plastically deform upon axial compression of the sleeve (20), such that said wall (21) of said sleeve (20) forms a first radially outward projection (201) on a first side of said hole of said first component (40), and a second radially outward projection (202) on a second side of said hole of said first component (40), whereby said tolerance absorber sleeve (20) is adapted to hold said first component (40) by said first and second projections (201, 202) within a predetermined tolerance range (D) from said second component (30).

A fastener including a bolt having a head, a shank portion, and an annular groove located intermediate the head and the shank portion, and a sleeve having a head, a shank portion, an inner cavity, a recess located in the head of the sleeve, and an annular tab located at a bottom of the recess and proximate to the shank portion of the sleeve. The sleeve receives the bolt such that the shank portion of the bolt is positioned within the inner cavity of the sleeve and the head of the bolt is positioned within the recess of the head of the sleeve. When the bolt is in an installed position within the sleeve, the annular tab of the sleeve is deformed and engages the annular groove of the bolt.

A fastener including a bolt having a head, a shank portion, and an annular groove located intermediate the head and the shank portion, and a sleeve having a head, a shank portion, an inner cavity, a recess located in the head of the sleeve, and an annular tab located at a bottom of the recess and proximate to the shank portion of the sleeve. The sleeve receives the bolt such that the shank portion of the bolt is positioned within the inner cavity of the sleeve and the head of the bolt is positioned within the recess of the head of the sleeve. When the bolt is in an installed position within the sleeve, the annular tab of the sleeve is deformed and engages the annular groove of the bolt.

A fastener is provided. In another aspect, a fastener is made of layers of material, a light curable material and/or multiple built-up materials. Another aspect uses a three-dimensional printing machine to emit material from an ink jet printing head to build up a fastener.

A fastener is provided. In another aspect, a fastener is made of layers of material, a light curable material and/or multiple built-up materials. Another aspect uses a three-dimensional printing machine to emit material from an ink jet printing head to build up a fastener.