The present disclosure provides a photopolymerizable composition. The photopolymerizable composition includes at least one urethane component, at least one monofunctional reactive diluent, an initiator, and optionally an inhibitor. The present disclosure also provides an article including the reaction product of the photopolymerizable composition. Further, the present disclosure provides a method of making an article. The method includes (i) providing a photopolymerizable composition and (ii) selectively curing the photopolymerizable composition to form an article. The method optionally also includes (iii) curing unpolymerized urethane component and/or reactive diluent remaining after step (ii). Further, methods are provided, including receiving, by a manufacturing device having one or more processors, a digital object comprising data specifying an article; and generating, with the manufacturing device by an additive manufacturing process, the article based on the digital object. A system is also provided, including a display that displays a 3D model of an article; and one or more processors that, in response to the 3D model selected by a user, cause a 3D printer to create a physical object of an article.

Provided herein are methods and systems for bio-printing of three-dimensional cell-containing matrixes. Further, provided herein are methods and systems for generating a three-dimensional (3D) structure corresponding to a biological material, such as a kidney or lung comprising either nephron or alveolar structures. Also provided herein are bio-printed three-dimensional matrices for use in the generation nephron and/or alveolar structures.

A casting in the form of a sink, including a basin having a base, a rear wall, a front wall and two interconnecting side walls, and also a circumferential rim that extends to the side of the basin and consists of flat rim sections that extend in a straight line from the lateral edges of the rear wall, the side walls and the front wall. The sink is composed of a composite material including a cured polymeric binder and filler particles intercalated therein. A skirt that surpasses the height of the front wall at least in sections adjoins at least the rim section of the front wall, and its outer face extends at right angles from the outer face of the rim section and in a straight line up to the end thereof.

The present invention provides a method for producing an optical film excellent in anti-fouling properties and scratch resistance as well as anti-reflection properties. The method includes the steps of: (1) applying a lower layer resin and an upper layer resin; (2) forming a resin layer having the uneven structure on a surface thereof by pressing a mold against the lower layer resin and the upper layer resin from the upper layer resin side in the state where the applied lower layer resin and upper layer resin are stacked; and (3) curing the resin layer, the lower layer resin containing at least one kind of first monomer that contains no fluorine atoms, the upper layer resin containing a fluorine-containing monomer and at least one kind of second monomer that contains no fluorine atoms, at least one of the first monomer and the second monomer containing a compatible monomer that is compatible with the fluorine-containing monomer and being dissolved in the lower layer resin and the upper layer resin.

A method for printing a three-dimensional part with an additive manufacturing system, which includes providing a part material that compositionally has one or more semi-crystalline polymers and one or more secondary materials that are configured to retard crystallization of the one or more semi-crystalline polymers, where the one or more secondary materials are substantially miscible with the one or more semi-crystalline polymers. The method also includes melting the part material in the additive manufacturing system, forming at least a portion of a layer of the three-dimensional part from the melted part material in a build environment, and maintaining the build environment at an annealing temperature that is between a glass transition temperature of the part material and a cold crystallization temperature of the part material.

Provided herein is a method of forming a three-dimensional object in which the polymerizable liquid includes a mixture of (i) a light polymerizable first component, and (ii) a heat polymerizable second component; the heat polymerizable second component comprising (i) a first blocked reactive constituent that is blocked with a volatile blocking group, and optionally (ii) a curative. Upon heating a formed three-dimensional intermediate sufficiently, the volatile blocking group is cleaved and vaporizes out of the three-dimensional intermediate, to form the three-dimensional object. Also provided is a three-dimensional object produced by the method. Further provided is a polymerizable liquid composition useful for carrying out the method, and prepolymers and monomers useful for the polymerizable liquid composition.

The present disclosure relates to the use of occluding fluids, such as a high-density fluid (a “z-fluid”) or a low-density fluid (an “a-fluid”), to displace resin within a vat during 3D printing. Further, an a-fluid may act as a protective boundary for a 3D printing resin wherein the a-fluid sits on top of the printing resin. Another embodiment of the disclosure provides a process of assessing which regions of a computer-aided design (CAD) model take advantage of a buoying force supplied by the occluding fluid, such that fewer support structures are needed for printing a final CAD model compared to printing the CAD model without the occluding fluid.

A process for producing a photosensitive resin for 3D printing includes: (i) treating a vegetable oil with a polyol to form a monoglyceride, (ii) reacting the monoglyceride of step (i) with an unsaturated reagent to form a liquid resin with viscosity lower than 20 Pa.Math.s at the temperature of 20° C., and (iii) mixing the liquid resin with a comonomer and a photoinitiator, as well as the photosensitive resin for 3D printing obtainable from such process and the 3D object obtainable from such photosensitive resin.

The present invention is directed to a method for fabricating a three-dimensional object and to a three-dimensional object fabricated in a method according to the present invention.

Provided herein are methods for making three-dimensional parts by additive manufacturing using a debondable curable coating composition on the build surface.