A basket structure includes an outer frame and a net-shaped bottom plate secured on the outer frame. The outer frame has an upper end provided with a scratch-proof protrusion which is rounded outward. The outer frame has a lower end provided with a resting rib which is bent and extends inward. The net-shaped bottom plate is received in the outer frame and rests on the resting rib of the outer frame. Thus, the upper end of the outer frame is directly formed with the scratch-proof protrusion, and the lower end of the outer frame is directly formed with the resting rib whose sharp portion is bent inward, thereby preventing the basket structure from scratching the user.

An aerosol can body includes a lower opening Ob formed on one end of the seamless cylindrical trunk portion. A domed shoulder portion is formed on the other end of the trunk portion continuously from the trunk portion. An opening curled portion that is diametrically smaller than the lower opening Ob is formed on a center of a leading end of the shoulder portion. The surface pattern is formed on the trunk portion between an upper end of the shoulder portion side and a lower end of the lower opening Ob side. An upper region A that has a predetermined width including an upper end portion of the surface pattern in an axial direction of the trunk portion is formed above the trunk portion. Vickers hardness of at least the upper region a of the trunk portion is greater than 200 Hv but less than 250 Hv.

Disclosed is a container including a box body made of a metal material, the box body including a side wall closed by at least one bottom wall. The side wall includes at least one reinforcing zone that extends over at least part of the height and the circumference of the side wall. The reinforcing zone includes at least one reinforcing moulding. The virtual lines of the reinforcing zone, designed to form straight virtual lines on the reinforcing zone when it is set flat, are each intersected by the at least one reinforcing moulding. Preferably, the at least one reinforcing moulding consists of a non-straight reinforcing moulding with a non-straight contour.

A drawn aluminum can shell has a peripheral crown which is double-seamed with an end portion of an aluminum can body to provide a can end having a generally flat center panel connected by an inclined curved or straight panel wall to an inclined inner wall of an annular U-shaped countersink. The countersink has an outer wall which connects with an inclined lower wall portion of a chuck wall at a junction below the center panel, and the chuck wall has a curved or inclined upper wall portion which connects with an inner wall of the crown. The chuck wall also has an intermediate wall portion forming a break, and the inner bottom width of the countersink is less than the radial width of the panel wall. The inclined upper wall portion of the chuck wall extends at an angle greater than the angle of the inclined lower wall portion of the chuck wall.

A modular aerial cargo aerodynamic encasement and a method for modular aviation cargo transport is provided. The aviation cargo aerodynamic encasement comprises a platform having a planar upper surface configured to accept cargo and a lower surface. The lower surface includes two or more ground supports displacing a portion of the platform from contact with a supporting surface. The platform includes two or more load transfer structures. The aviation cargo aerodynamic encasement further comprises a fairing configured to detachably couple to the platform, wherein the fairing, when coupled to the platform, forms an aerodynamic encasement, and wherein the aerodynamic encasement is detachably mountable to an aircraft by the two or more load transfer structures.

Embodiments described herein include layered mesh containers and methods for using the containers to safely transport and dispose of airbag inflators having ammonium-nitrate-based propellant. For example, a container with at least two single-layer sidewalls is provided that can hold multiple airbag inflators and withstand up to 4 moles of matter being deployed from an inflator having ammonium-nitrate-based propellant. The container can contain the inflator and any shrapnel associated with the explosion while also venting gases expelled as a result of the explosion. Various container designs are provided, along with methods for using these containers.

A drawn aluminum can shell has a peripheral crown which is double-seamed with an end portion of an aluminum can body to provide a can end having a generally flat center panel connected by an inclined curved or straight panel wall to an inner wall of an annular U-shaped countersink. The countersink has an outer wall which connects with a lower wall portion of a chuck wall, and the chuck wall has an upper wall portion which connects with an inner wall of the crown. The chuck wall also has an intermediate wall portion forming a break, and the inner bottom width of the countersink is less than the radial width of the panel wall.

Provided is a can body containing contents such as carbonated beverages, the can body being capable of suppressing the occurrence of an unexpected opening while increasing the internal pressure resistance. In the can body, formula (A+B).Math.E/Z<1.88 is satisfied when 0<L<Y2, with the following definitions: L=D.Math.cos (12), A=X.Math.(L+Y1Y2)/Y1, and B=L+Y1Y2, under a condition of E<Z.

Embodiments described herein include layered mesh containers and methods for using the containers to safely transport and dispose of airbag inflators having ammonium-nitrate-based propellant. For example, a container with at least two single-layer sidewalls is provided that can hold multiple airbag inflators and withstand up to 4 moles of matter being deployed from an inflator having ammonium-nitrate-based propellant. The container can contain the inflator and any shrapnel associated with the explosion while also venting gases expelled as a result of the explosion. Various container designs are provided, along with methods for using these containers.

The present disclosure relates to a storage device made of expanded metal mesh material. The storage device comprises a basket (3, 5, 7, 9) with an attached fastening device (11). The fastening device has a portion with U-shaped cross section (21) provided with hooks (13) in the interior thereof, such that the fastening device can be fitted on a vertical carrier provided with slots, the hooks (13) entering said slots, and the fastening device is at least partly inserted in the outer envelope of the basket and has a portion (25) extending under the bottom panel of the basket.