The present disclosure provides a single or a set of packed protein unit for use in fabrication of a meat analogue product, the packed protein unit comprises at least one elongated texturized protein strip held, in an organized spatial configuration, by or within a retaining element, the at least one elongated texturized protein strip being defined by a longitudinal axis and a cross sectional area taken perpendicular to the longitudinal axis; wherein at least one dimension of said cross sectional area is equal or less than 10 mm and said longitudinal axis has a dimension of at least 100 mm. Also disclosed herein is a method of fabricating a meat analogue product making use of one or more packed protein units disclosed herein.

The present disclosure provides a single or a set of packed protein unit for use in fabrication of a meat analogue product, the packed protein unit comprises at least one elongated texturized protein strip held, in an organized spatial configuration, by or within a retaining element, the at least one elongated texturized protein strip being defined by a longitudinal axis and a cross sectional area taken perpendicular to the longitudinal axis; wherein at least one dimension of said cross sectional area is equal or less than 10 mm and said longitudinal axis has a dimension of at least 100 mm. Also disclosed herein is a method of fabricating a meat analogue product making use of one or more packed protein units disclosed herein.

A consumer product package with a first outer panel having a first end with a first adhesive region and a first fold line, a second outer panel, an inner panel positioned between the first outer panel and the second outer panel. The inner panel is configured to receive a first consumer product. A product return envelope extends from the second outer panel with a perforated joint between the product return envelope and the second outer panel. The product return envelope defines a pocket. An adhesive strip is positioned between the perforated joint and the pocket. A tear tab is positioned between the first adhesive region and the first fold line of the first outer panel.

A consumer product package with a first outer panel having a first end with a first adhesive region and a first fold line, a second outer panel, an inner panel positioned between the first outer panel and the second outer panel. The inner panel is configured to receive a first consumer product. A product return envelope extends from the second outer panel with a perforated joint between the product return envelope and the second outer panel. The product return envelope defines a pocket. An adhesive strip is positioned between the perforated joint and the pocket. A tear tab is positioned between the first adhesive region and the first fold line of the first outer panel.

Provided are a building board package suitable to suppress generation of a gloss that could be caused as a result of pressing a coating film on the surface of a building board, and a method for manufacturing the building board package. A building board package X1 according to the present invention includes a first building board 10, and a packing sheet 20 stacked on top of the first building board 10. The first building board 10 has a first surface 11 on the packing sheet 20 side, and a second surface 12 opposite the first surface 11. The first surface 11 includes a first coating film surface 11A. The packing sheet 20 has a third surface 21 on the first building board 10 side, and a fourth surface 22 opposite the third surface 21. The third surface 21 is in contact with the first coating film surface 11A. An absolute value of a difference between a 60-degree gloss value of the first coating film surface 11A and a 60-degree gloss value of the third surface 21 is 3.0 or less, and an absolute value of a difference between an 85-degree gloss value of the first coating film surface 11A and an 85-degree gloss value of the third surface 21 is 3.0 or less. A method for manufacturing a building board package according to the present invention includes the step of stacking the first building board 10 and the packing sheet 20 on top of each other such that the first coating film surface 11A and the third surface 21 are in contact with each other.

Provided are a building board package suitable to suppress generation of a gloss that could be caused as a result of pressing a coating film on the surface of a building board, and a method for manufacturing the building board package. A building board package X1 according to the present invention includes a first building board 10, and a packing sheet 20 stacked on top of the first building board 10. The first building board 10 has a first surface 11 on the packing sheet 20 side, and a second surface 12 opposite the first surface 11. The first surface 11 includes a first coating film surface 11A. The packing sheet 20 has a third surface 21 on the first building board 10 side, and a fourth surface 22 opposite the third surface 21. The third surface 21 is in contact with the first coating film surface 11A. An absolute value of a difference between a 60-degree gloss value of the first coating film surface 11A and a 60-degree gloss value of the third surface 21 is 3.0 or less, and an absolute value of a difference between an 85-degree gloss value of the first coating film surface 11A and an 85-degree gloss value of the third surface 21 is 3.0 or less. A method for manufacturing a building board package according to the present invention includes the step of stacking the first building board 10 and the packing sheet 20 on top of each other such that the first coating film surface 11A and the third surface 21 are in contact with each other.

A stack of histology cassettes configured to be inserted into a hopper of a printer, wherein each histology cassette in the stack includes a bottom face, a top face opposite the bottom face, a front face, a rear face opposite the front face, a first lateral face and a second lateral face opposite the first lateral face. The top face of the histology cassette is open to allow a sample to be received within the histology cassette. The histology cassettes have substantially the same orientation within the stack. The histology cassettes in the stack are arranged with a first histology cassette at the bottom of a stack, and each subsequent histology cassette in the stack up to a last histology cassette in the stack is arranged with its bottom face positioned on the top face of a preceding histology cassette in the stack.

A stack of histology cassettes configured to be inserted into a hopper of a printer, wherein each histology cassette in the stack includes a bottom face, a top face opposite the bottom face, a front face, a rear face opposite the front face, a first lateral face and a second lateral face opposite the first lateral face. The top face of the histology cassette is open to allow a sample to be received within the histology cassette. The histology cassettes have substantially the same orientation within the stack. The histology cassettes in the stack are arranged with a first histology cassette at the bottom of a stack, and each subsequent histology cassette in the stack up to a last histology cassette in the stack is arranged with its bottom face positioned on the top face of a preceding histology cassette in the stack.

A substrate container including substrate supports, such as concentric rings, adapted to receive substrates in a substrate stack. The container includes a base and a top cover to enclose the substrate stack. A latching mechanism is adapted to latch the top cover to the base and secure the substrate stack within the container. The latching mechanism includes resilient corner flanges on an outside portion of the container, the flanges acting as springs to exert a biasing force on the cover and on the substrate stack. The flanges hold the stack within the container while accommodating stack-up uncertainty caused by the accumulation of uncertainties due to component machining tolerances. In some embodiments, a gap is created between a side wall of the top cover and the base of the container to assure compression of the substrate stack. Deflection limiters may be implemented to prevent over-deflection of the flanges.

A wheeled shipping/transport cart includes a cart frame that supports a plurality of wheels. The cart frame supports a plurality of stackable trays. The trays include a tray frame with opposed end members, a plurality of longitudinal support members disposed between the opposed end members, and a plurality of upright members nesting with upright members of an adjacent tray. A support structure is disposed between the opposed end members to form an arc corresponding to a curved surface of an article to be supported by the support structure. A pin is received through each of the upright members of the plurality of stackable trays to retain the stackable trays in a stacked configuration.