The present invention provides a non-contact vibration suppression device comprising a first ultrasonic vibration unit and a second ultrasonic vibration unit, the device being characterized in that the first ultrasonic vibration unit and the second ultrasonic vibration unit are installed to face each other while being spaced from each other such that an object can be interposed therebetween, the first ultrasonic vibration unit and the second ultrasonic vibration unit generate ultrasonic vibrations, respectively, and apply repulsive forces, which result from the ultrasonic vibrations, to the object such that the object is constrained with no contact between the first ultrasonic vibration unit and the second ultrasonic vibration unit, thereby suppressing vibration of the object. In addition, the present invention provides an object processing method characterized by comprising the steps of: suppressing vibration of the object using the non-contact vibration suppression device; and processing the object, vibration of which has been suppressed.

The invention relates to a method for cutting material to be cut, which is preferably realized as a rod-shaped element, comprising a receiving device for fixedly receiving the material to be cut in such a manner that a part to be separated from the material to be cut protrudes over an element edge of the receiving device realized as a counter knife edge (42), and comprising a knife unit having a knife (24), which is movable with respect to the receiving device and which moves a knife edge (25) past the counter knife edge (42) in a cutting movement for executing a separating cut, the welding material being subjected to ultrasound for executing oscillations during the cutting movement.

An SiC wafer producing method includes setting a focal point of a pulsed laser beam to a single crystal SiC inside an ingot at a predetermined depth from an end surface of the ingot, the predetermined depth corresponding to the thickness of the wafer to be produced. The pulsed laser beam is applied to the ingot, thereby forming a small circular modified portion on a c-plane present in the ingot at the predetermined depth, in which the modified portion is a region where SiC has been decomposed into Si and C. A separation layer is formed for separating the wafer from the ingot, the separation layer being composed of a plurality of continuous modified portions and a plurality of cracks isotropically formed on the c-plane so as to extend from each modified portion.

The device, which serves for processing, particularly for cutting and diffusing at least one product, particularly a food product, includes at least one blade that is connectable via at least one coupling member and an energy converter to an ultrasound source and that is fastened to a blade holder, which is connected to a drive device that is held by a framework. According to the invention the drive device includes a plurality of actuators, which are connected each on one side via a first rotary joint to the blade holder and on another side via a second rotary joint in such a way to the framework that the blade holder is held by the actuators alone and is displaceable and optionally turnable within a volume of operation.

To provide a manufacturing method for a composite material, a manufacturing apparatus for a composite material, a preform, and a composite material, capable of molding a high quality composite material having a little constraint in the shape by improving moldability while suppressing a deviation of the arrangement of the reinforced fiber during preforming.

A manufacturing method for a composite material 400 provided with a reinforcement 510 and resin 600 infused into the reinforcement, includes: an apply process (step S12) for applying an adhesive to the sheet-shaped reinforcement having first and second regions 511 and 512 such that a content density of the adhesive 520 of the second region is lower than that of the first region; and a preforming process (step S17) for preforming the reinforcement in a three-dimensional shape to form a preform such that the second region has a curvature larger than that of the first region.

The invention provides a tool 10 of the invention for welding a PET gland 12 onto a PET bottle 14 for the fitment of a dispensing tap. The tool 10 is generically indicated as ultrasonic horn or sonotrode in the figure. The ultrasonic horn has a tapered serrated portion 16 which has a lead-in taper section 18 to initiate the melt of the plastics to be welded, and a knife section 20 (when required), being the cutting zone thereof, which in use cuts open a sealed spigot 22 so that the horn can enter into the spigot 24 for the welding operation.

A method punches out a damper from a damper material set on a punching stage with use of a hollow punch so that the punched damper is positioned within a hollow inside of the punch while vibrating a member composing the punching stage on which the damper material is set at the high frequency. The damper material includes a viscoelastic body layer and the constraint layer laminated on the viscoelastic body layer and the viscoelastic body layer includes an attaching surface through which the damper material is detachably attached on the liner.

An anvil system for use in an ultrasonic bonder includes an anvil assembly including an anvil bar having an anvil aperture in at least one anvil bar longitudinal end, the anvil aperture having an anvil aperture inner surface, a shaft separate from the anvil bar and partially disposed in the anvil aperture, the shaft having a circumferential surface and extending outwardly beyond the anvil bar longitudinal end, and a first elastomeric shaft O-ring disposed on the shaft between the shaft circumferential surface and the anvil aperture inner surface; a mounting bracket with a mounting bracket hole having a hole surface; a bushing disposed in the mounting bracket hole and sized to accommodate an end of the shaft, the bushing having a bushing inner surface; and a second elastomeric shaft O-ring disposed on the shaft between the shaft circumferential surface and the bushing inner surface.

The present disclosure provides an object cutting device for manufacturing a composite material including an arrangement unit configured to support an object at both sides, an upper cutting unit including an upper cutter configured to cut the object at an upper side, a lower cutting unit including a lower cutter configured to cut the object a lower side, and a collection unit configured to collect cut objects. According to embodiments of the present disclosure, it is possible to wind and unwind a connected object or positionally move an end thereof to prevent a reduction in a tensile force, thereby easily acquiring an object that is cut into more uniform lengths and enabling the mass production of the object.

Described is an insect net strip produced from a wide insect net which has been cut in a warp direction (xnet) by means of a one-step ultrasonic cutting and welding process. The insect net strip includes warp yarns and weft yarns extending substantially perpendicular to each other and at least 90% of the warp and weft yarns are monofilament yarns made of a thermoplastic material. After cutting and welding process the insect net strip has a first and a second edge extending parallel to said warp yarns each including a deformation zone being constituted by consolidated thermoplastic material deriving at least from said weft yarns. The deformation zone has a width (wdz) in the transverse direction (ystrip) of between 0.5-35 times the weft yarn diameter (?we). At least 90% of gaps between adjacent weft yarns in the deformation zone are closed by consolidated thermoplastic material at least from the weft yarns which has been melted together to form a continuous or substantially continuous reinforced band-shaped edge portion of said insect net strip. The insect net strip is suitable for use in accordion-style constructions in greenhouse ventilation openings. A method for producing the insect strips is also described.