Abstract: The invention relates to a pressing system, including a press having a first pressing tool and a second pressing tool. The first pressing tool and the second pressing tool being movable relative to one another to form a working space. A workpiece, a pressure generating device for generating a pressure curve acting on the workpiece in the working space, a temperature generating device for generating a temperature curve acting on the workpiece in the working space the workpiece running through an elongation curve (DVW) depending on the pressure curve acting in the working space and on the temperature curve acting in the working space. The first pressing tool and the second pressing tool running through a respective elongation curve (DVP1, DVP2) depending on the pressure curve acting in the working space and on the temperature curve acting in the working space, wherein the first pressing tool and/or the second pressing tool are designed such that their elongation curve (DVP1, DVP2) deviates by no more than 3.

Abstract: A system for determining the fractional capture efficiency of filters includes two filters having substantially the same capture efficiency connected in series. A steady, controlled flow of ultrapure water and a colloidal silica suspension is directed through both filters, with respective stages of the flow upstream of the upstream filter, between the filters and downstream of the downstream filter, directed to respective non-volatile residue monitors. Each residue monitor produces a digital output representing the non-volatile residue concentration at its respective stage. A microprocessor receives the digital outputs and generates respective residue values indicating residue concentration in parts per billion. The three residue values are used to characterize the residue by proportion of the colloidal silica suspension to other residue components, and to calculate filter capture efficiency with respect to the colloidal silica.