A plunger for advancing a substance in a syringe toward a dispensing nozzle. The plunger has a plunger rod and a seal and being formed of a plastic composition. The plastic composition includes a polymer and a filler which is non-uniformly distributed within the polymer to provide the plunger rod and the seal with different mechanical properties depending on the filler content in the portions of the plastic composition plunger forming the rod and the seal. The invention preferably provides a dental syringe which can be conveniently used, and further helps minimizing costs in the manufacturing of the dental syringe.

A method for manufacturing a displacement detection sensor that is for a sealed-type secondary battery and comprises a polymer matrix layer and a detection unit;

the polymer matrix layer comprising a filler which is in a dispersed state and which changes an external field in response to a displacement of the polymer matrix layer, and the detection unit being a unit for detecting a change of the external field; and

the method comprising:

a first step of mixing the filler with a polymer matrix precursor to prepare a mixture liquid,

a second step of injecting the mixture liquid into a container having a predetermined shape, and

a third step of heating and curing the polymer matrix precursor in the container to produce the polymer matrix layer integrated with the container.

A system for making a customized orthopedic surgical instrument for use in repairing a joint of a patient includes a computer system for generating computer-readable instructions to form a patient-specific orthopedic surgical instrument based at least in part on image data obtained from at least a portion of a bone corresponding to the joint of the patient; and a machine for forming a patient-specific orthopedic surgical instrument from the computer-readable instructions. The surgical instrument includes a resin composition including from about 50 wt % to about 90 wt % of a base thermoplastic and from about 10 wt % to about 50 wt % of a filler material. The base thermoplastic includes polyetherimide, polycarbonate, modified polyphenylene ether, polyamide, copolymers of these thermoplastics, and combinations thereof. The surgical instrument includes at least one surface portion having a shape that substantially conforms to a corresponding surface portion of the bone.

A method for production of a molded part made of plastic by rotational molding includes placing a starting material in a form of at least one of a plastic or a plastic precursor into a rotational melt mold that is fitted with at least one magnetic element. The rotational melt mold is rotated and, while the rotational melt mold is rotating, the starting material is shaped. The at least one magnetic element rotates together with the rotational melt mold while the starting material is being shaped. The starting material and the at least one magnetic element are configured in such a way that the starting material and the at least one magnetic element interact magnetically such that a portion of the starting material is attracted and held in place by the at least one magnetic element while the starting material is being shaped.

The invention is directed to a process for the preparation of a reinforced article which comprises the step of molding a molding composition comprising pellets into the article at an elevated temperature, wherein each of the pellets has an axial length and comprises a core and a sheath around the core, wherein the core comprises an impregnating agent and a multifilament strand comprising glass fibers each having a length substantially equal to the axial length of the pellet and substantially oriented in the axial length of the pellet, wherein the sheath comprises a thermoplastic polymer; and wherein the molding composition further comprises a filler.

Disclosed is a mold assembly comprising: a cavity forming an inner space to be filled with resin containing metallic particles, and having a protruding part corresponding to a hole of a molded object; a first gate disposed at any one side of the cavity so as to inject the resin into the inner space; and a second gate disposed at another side of the cavity, and injecting the resin, which flows in a second direction intersecting with a first direction, into the inner space so as to change the arrangement of the metallic particles such that a weld line, formed according to the orientation of metallic particle in the first direction, is blurred in an area at which the flow of the resin is separated by the protruding part and then comes back together.

A oil gel composition, consisting essentially of: 65-80 wt. % of a mineral oil, 15-25 wt. % of a hydrogenated styrenic block copolymer (HSBC), 1 to 15 wt. % of glass spheres having an average particle size of at least 15 microns, 1 at least 50 wt. % of a plasticizer selected from mineral oil, a paraffinic oil, an oil-enriched in paraffin, and mixtures thereof, and 0.25-5 wt. % of a tack reducing component selected from the group of steric acid, metal stearates, long chain fatty acids, fatty acid salts, fatty acid esters, amide waxes, ethylene-bis-stearamides, erucamide, polyester modified siloxanes, and mixtures thereof. The oil gel composition has an average peel strength of less than 0.3 lbf/in measured according to ASTM D 1876. Articles formed from the oil gel composition are characterized as being tack-free.

Disclosed herein are methods for manufacturing a functionally graded polymer material. The methods comprise preparing a melted polymer mixture comprising a thermoplastic polymer and a magnetic filler dispersed in the thermoplastic polymer, molding the melted polymer mixture and applying a magnetic field to a portion of the melted polymer mixture to form a functionally graded polymer material. The resulting functionally graded polymer material has a magnetic filler gradient formed through a thickness of the material.

The subject disclosure presents systems and methods for manufacturing a non-porous thermoformable polyurethane solid by combining an uncured polyurethane resin with Aluminum Trihydrate (ATH), a plurality of particulates, molecular sieves, and color particulates. This combination is mixed in a vacuum for a time period sufficient to initiate an exothermic reaction within the mixture. After the time period, the exothermically reacting mixture is allowed to cure to form the polyurethane solid. The curing may occur in a mold, i.e. by pouring or injecting the mixture into the mold. Alternatively, the mixture may be sprayed on to a surface and allowed to cure.

An injection molded article obtained by injection molding a thermoplastic resin composition comprising 100 parts by mass of a thermoplastic resin and 50 parts by mass or less of at least one of a filler and a colored metallic pigment, wherein at least one weld exists, and a long diameter of 95% by mass or more of the filler existing within a cross-sectional depth of 50 μm or less from a surface of the weld is parallel to the surface of the weld.