Abstract: A hot isostatic press which includes a mantle interposed between heating elements and the wall of the press and means associated with the press for equalizing the pressure on both sides of said mantle during operation of the press or during pressurization or depressurization.
Abstract: Disclosed is a multi-wall dunnage bag wherein at least one end of the bag is closed by flaps which extend around the end of the bag and are adhesively secured to the plies which form the bag wall. The end of the outermost flap is disposed beneath the outermost ply and is adhesively secured thereto by the use of a thermally activated adhesive. The outermost flap and the penultimate flap may be secured together. Additionally, a conventional adhesive material connects the outermost ply with an adjacent portion of the bag.
Abstract: A container for packaging fragile items. The container provides an inner carton suspended within an outer carton. The suspension is achieved by means of integral end flaps on the inner carton which interlock the end flaps of the outer carton.
Abstract: Small particles of metal, such as those used in making powder metal compacts, are produced by feeding the end of a metal wire or rod against the edge of a rotating disc and causing a direct electrical current to flow through the wire and disc. This melts the end of the wire and also creates a magnetic field about the wire. The rotation of the disc breaks the electrical contact and forms an arc which causes additional melting of the wire. Contact between the wire and disc takes place within a second electromagnetic field. Continuously advancing the end of the wire causes the intermittent making and breaking of electrical contact. The interaction of the two magnetic fields causes the molten particles to be removed from the area of contact. Means are provided for cooling and collecting the metal particles and for preventing the accumulation of solidified metal particles on the electromagnet or the rotating disc. Vacuum conditions may be used, thus producing a powder of high purity.
Abstract: Method for compacting preheated powder bodies in a high pressure isostatic pressure vessel in which a liquid such as water is used as the pressurizing medium. A preheated workpiece is inserted into the vessel which is closed and sealed. The vessel is then rapidly filled with the liquid pressurizing medium while avoiding contact of the medium with the preheated workpiece until the vessel is substantially completely full. The pressure within the vessel is then increased rapidly to a preselected compacting level by continually pumping the liquid pressurizing medium into the vessel. The preselected compacting pressure is in excess of the critical pressure of the liquid pressurizing medium. The rapid increase of pressure within the vessel to a level exceeding the critical pressure minimizes the amount of vapor that is formed in the vessel and reduces heat transfer from the preheated body to the pressurizing system.