This relates to a lifter bar, a method for making a lifter bar, a method for assembling a lifter bar and a grinding mill comprising multiple lifter bars. The lifter bar comprises a lifter bar body having a wear surface and comprising polyurethane (PU), a reinforced wearing plate attached to the lifter bar body and forming part of the wear surface. The reinforced wearing plate comprises metal and a wearing surface for forming a part of the wear surface of the lifter bar, and an attachment structure provided to the reinforced wearing plate for attaching the reinforced wearing plate to the lifter bar body. The attachment structure protrudes into the lifter bar body for forming a connection with polyurethane (PU).

The invention relates to biocomposites comprising a polymeric matrix and a magnesium filler such as a water soluble magnesium salt. The use of elemental magnesium or magnesium alloy in the biocomposite is minimized and preferably avoided. The magnesium biocomposites can be used as bone implants.

A rotary milling system includes a rotatable cylinder, a discharge grate, a movable flap valve into and out of engagement with the grate, a discharge housing surrounding the grate, and a conveying pipe extending from the discharge housing. The cylinder can include grinding media for abrading a product when the cylinder is rotated. The product can be in either a dry form or within a liquid medium. Upon conclusion of the milling, the flap valve can be opened to allow the milled product to pass through the grate and into the discharge housing. A negative pressure can be applied to draw the milled product through the conveying pipe into a separator tank.

A unit for grinding biological samples, comprising a grinding device including at least two tubes having different volumes, suitable for being mounted on a support of the grinding device, each tube comprising an inner space having a height (h) along the axis of the corresponding tube, and being intended to contain samples to be ground, means for driving the support in a precession movement, the support having an axis the position of which varies by describing a cone, each tube being subjected to a movement (d) defined by the projection, onto the axis of said cone, of the distance between the extreme positions of a same point of the tube during the precession movement.

An interlocking liner segment for a tumbling unit is disclosed which comprises a body having an inner surface having a first end and a second end, an outer surface, a first side edge, a second side edge opposite the first side edge, a front edge, and a back edge, a first lifter portion at the first end having a first aperture; a second lifter portion at the second end having a second aperture; and a rifling portion on the inner surface intermediate the first lifter portion and the second lifter portion.

A coating layer for electronic device and an electronic device are provided. The coating layer includes a composite of chambersite and a metal.

A cooling system for a ball mill used for production of a lead oxide is disclosed. The system has an internal nozzle configured to introduce water into an interior of a rotating ball mill drum, and a water conduit on an exterior of the rotating drum and configured for external water delivery so as to deliver water on the drum exterior. A control system may also be provided for control of the cooling system. A method is also disclosed.

A generally cylindrical rotor (1) for an agitator mill is provided. The rotor has a rotor wall (11), a plurality of tools (13) attached to the rotor wall, a rotor separation ring (12), a rotor hub (14), and at least one connecting rod (15). The rotor (11) and the rotor separation ring (12) are clamped in the hub (14) by means of the connecting rods (15). The rotor separation ring (12) is designed as a rotationally symmetrical hollow cylinder. The rotor wall (11) is rotationally symmetrical with respect to an axis of rotation (19) and is mirror-symmetrical with respect to a plane of symmetry perpendicular to the axis of rotation. A mill comprising the rotor, a method for servicing the mill, and a stator assembly for use in a mill are also provided.

A generally cylindrical rotor (1) for an agitator mill is provided. The rotor has a rotor wall (11), a plurality of tools (13) attached to the rotor wall, a rotor separation ring (12), a rotor hub (14), and at least one connecting rod (15). The rotor (11) and the rotor separation ring (12) are clamped in the hub (14) by means of the connecting rods (15). The rotor separation ring (12) is designed as a rotationally symmetrical hollow cylinder. The rotor wall (11) is rotationally symmetrical with respect to an axis of rotation (19) and is mirror-symmetrical with respect to a plane of symmetry perpendicular to the axis of rotation. A mill comprising the rotor, a method for servicing the mill, and a stator assembly for use in a mill are also provided.

A discharge grate assembly in a discharge end wall system in a mill shell of a grinding mill. The mill shell defines a mill shell chamber in which a charge including grinding balls and ore-bearing rocks is positioned. The mill shell is rotatable about a central axis thereof for comminution of the ore-bearing rocks to form the grinding balls into worn grinding balls and to produce a slurry including liquid and worn rock pieces from the ore-bearing rocks. The discharge grate assembly includes a body with elongate apertures therein, each aperture extending between a first end thereof and a wider second end thereof. The first and second ends of the aperture are partially defined by respective first and second end walls that are at least partially rectilinear, for impeding the worn grinding balls and the worn rock pieces from lodging in the aperture.