Abstract: A method and a device using a pair of fixing rolls at least one of which is heated so that the two rolls are brought into pressing engagement with each other by thermal expansion of the heated roll. A copy sheet bearing a toner image formed thereon is fed between the two rolls so as to fix the toner image by thermal fusion.

Abstract: An electrophotographic fixing device which is fundamentally constructed by assembling a heat fusing roller made of a resilient material, a rigid press-contacting roller, and a heating roller, wherein the heat fusing roller is provided at a position to contact a copying material at the side thereof bearing a developed image, and has its surface heated by means of the heating roller, and wherein the copying material is pressed against the heat fusing roller by the press-contacting roller to complete the image fixing. The fixing device further includes means to apply an appropriate quantity of an image separating agent onto a front end part of a non-fixed reproduced image on the copying material, over a certain width, the device being provided at a position immediately preceding the fixing device and actuated by a timer.

Abstract: Flash fusing method and apparatus for fusing toner images onto flexible support material in which the support material is transported in a cylindrical path encircling the flash fusing lamp. The support material is a web or alternatively is in the form of copy sheets tacked onto a transport belt either by electrostatic tacking or by a vacuum transport and then advanced in a circular path around the flash with the toner images facing the flash lamp and receiving a uniform radiation therefrom.

Abstract: Method and apparatus to heat fix a heat fusible xerographic powder image to a final support material in which the powder image is first transferred to a final support material and the image-bearing support material then brought into contact with a bath of hot liquid metal for a period of time sufficient to fix the image to the support material. The temperature of the bath is maintained at a temperature high enough to fuse the image but below that at which the support material is damaged. The liquid metal bath has floating on it a layer of molten non-metal to prevent oxidating of the metal and to precoat the support material on its entry into the bath to prevent particles of the liquid metal from embedding in the support material. The relative high density of the molten metal acts as a wringer to keep the plasticized coating very thin when drawn out of the bath.