Abstract: The invention relates to a device for producing a nonwoven fabric, wherein at least one spinning apparatus for spinning fibers is provided and a deposit conveyor is provided, on which the fibers can be deposited to form the nonwoven web. At least one hot-air pre-bonding apparatus is provided for the hot-air pre-bonding of the nonwoven web on the deposit conveyor. An additional conveyor for receiving the pre-bonded nonwoven web is arranged downstream of the deposit conveyor in the conveying direction of the nonwoven web, at least one final bonding apparatus being provided for the final bonding of the nonwoven web on the additional conveyor. The hot hot-air pre-bonding of the nonwoven web can be carried out on the deposit conveyor, with the stipulation that the nonwoven web has a strength in the machine direction (MD) of 0.6 to 4 N/5 cm before being transferred to the additional conveyor.

Abstract: A method for detecting X-rays which are separated into individual energy ranges after penetrating an object, as well as to an arrangement for implementing this method. It is known to detect X-rays (FX) by using detection devices (3), consisting of several identically configured detector pairs. The detector pairs in that case consist of a low-energy detector (4) and a high-energy detector (7). As a result, the weakened X-ray beam (FX′) is separated into individual energy ranges following the X-raying of an object (2). This separation is necessary to determine the types of material in the X-rayed object (2). The disadvantage of known detection devices (3) is that an overlapping of the individual energy ranges occurs in the low-energy detector (4), thereby making it impossible to detect the material type with certainty. This problem is avoided by providing for computing out the high-energy shares absorbed in the low-energy detector (4) with the aid of an additional signal.