An example of a shipping and handling fluid for a three-dimensional (3D) printer is disclosed. The shipping and handling fluid includes a co-solvent, a first sugar alcohol, a second sugar alcohol, a surfactant, and a balance of water. The first sugar alcohol includes a ring structure, and the second sugar alcohol has a linear structure.

An example of a shipping and handling fluid for a three-dimensional (3D) printer is disclosed. The shipping and handling fluid includes a co-solvent, a first sugar alcohol, a second sugar alcohol, a surfactant, and a balance of water. The first sugar alcohol includes a ring structure, and the second sugar alcohol has a linear structure.

Dual and multi-modulator projector display systems and techniques are disclosed. In one embodiment, a projector display system comprises a light source; a controller, a first modulator, receiving light from the light source and rendering a halftone image of said the input image; a blurring optical system that blurs said halftone image with a Point Spread Function (PSF); and a second modulator receiving the blurred halftone image and rendering a pulse width modulated image which may be projected to form the desired screen image. Systems and techniques for forming a binary halftone image from input image, correcting for misalignment between the first and second modulators and calibrating the projector system—e.g. over time—for continuous image improvement are also disclosed.

Dual and multi-modulator projector display systems and techniques are disclosed. In one embodiment, a projector display system comprises a light source; a controller, a first modulator, receiving light from the light source and rendering a halftone image of said the input image; a blurring optical system that blurs said halftone image with a Point Spread Function (PSF); and a second modulator receiving the blurred halftone image and rendering a pulse width modulated image which may be projected to form the desired screen image. Systems and techniques for forming a binary halftone image from input image, correcting for misalignment between the first and second modulators and calibrating the projector system—e.g. over time—for continuous image improvement are also disclosed.

An inflatable packaging for storing multiple glass bottles made from a sheet that has a longitudinal axis and a traverse axis. The sheet is folded along six or more traverse fold lines spaced from each other to form a row of two or more pouches. The inflatable packaging can have two or more of such rows separated by a line of weakness. Each pouch has a front wall, a rear wall, a base, and an open-top for storing the glass bottle. Two adjacent pouches are separated by a dividing panel, wherein the dividing panel is corrugated in a biconcave shape.

This disclosure relates to equipment utilized to manufacture chemical agents, particularly biopharmaceuticals, using Disposable Containers (DCs).

This disclosure relates to equipment utilized to manufacture chemical agents, particularly biopharmaceuticals, using Disposable Containers (DCs).

A multi-axial blow-molded packing cushion is a resilient, hollow, thin-walled, generally parallelepiped blow-molded body, having opposite ends, each end defining a groove thereacross. The grooves are each sized and shaped to receive opposite edges of a rectangular opening in a packing insert. Each packing cushion may be snap-fitted into the packing insert rectangular opening by sliding a first end of the packing cushion into a rectangular opening, aligning a first groove defined across the first end of the packing cushion with a first edge of the rectangular opening and pressing down on the packing cushion to snap-fit a second groove defined across a second end of the packing cushion over a second edge of the rectangular opening, with the second grove aligned with the second edge of the rectangular opening. The packing insert, with maintained cushions, is disposed between a packed item and outer packaging, on each item side.

A multi-axial blow-molded packing cushion is a resilient, hollow, thin-walled, generally parallelepiped blow-molded body, having opposite ends, each end defining a groove thereacross. The grooves are each sized and shaped to receive opposite edges of a rectangular opening in a packing insert. Each packing cushion may be snap-fitted into the packing insert rectangular opening by sliding a first end of the packing cushion into a rectangular opening, aligning a first groove defined across the first end of the packing cushion with a first edge of the rectangular opening and pressing down on the packing cushion to snap-fit a second groove defined across a second end of the packing cushion over a second edge of the rectangular opening, with the second grove aligned with the second edge of the rectangular opening. The packing insert, with maintained cushions, is disposed between a packed item and outer packaging, on each item side.

The invention provides a method of packaging a sterilized product. The method includes the steps of providing a product and sterilizing the product. The sterilized product is enclosed in a first layer, which is substantially hermetically sealed to form a first sealed enclosure. The first sealed enclosure is enclosed in a second layer, which is substantially hermetically sealed to form a second sealed enclosure. The second sealed enclosure is enclosed in a third layer, which is substantially hermetically sealed to form a third sealed enclosure. The third sealed enclosure is enclosed in a fourth layer, which is substantially hermetically sealed to form a packaged product.