Abstract: The present invention provides a method of making a nonwoven web with desired fiber orientation, the method including the steps of providing a source of fibers, subjecting the fibers to an electrostatic charge, deflecting the fibers with a non-contacting deflecting device, collecting the fibers on a moving forming surface to form the nonwoven web. The invention also provides an apparatus for forming fibrous nonwoven webs, the apparatus comprising a source of fibers, a device for applying an electrostatic charge to the fibers, a non-contacting fiber deflecting device adapted to affect the fibers while the fibers are under the influence of the applied electrostatic charge, and a forming surface for collecting the fibers as a fibrous nonwoven web.

Abstract: A die head assembly for producing meltblown bicomponent fibers in a meltblown apparatus includes a die tip detachably mounted to an underside of a support member. The die tip has a row of channels defined therethrough terminating at exit orifices along a bottom edge of the tip. The channels receive and combine first and second polymers conveyed from the support member. A recess is defined along the top surface of the die tip and defines an upper chamber for each of the die tip channels. A plurality of breaker plates is removably supported in the recess in a stacked configuration. An upper one of the breaker plates has receiving holes defined therein to separately receive polymers from supply passages in the support member. The remaining breaker plates have holes defined therethrough configured to divide the polymers into separately polymer streams and to direct the polymer streams into the die tip channels, the number of polymer streams corresponding to the number of holes in the lowermost breaker plate.

Abstract: A die head assembly for producing bicomponent meltblown fibers includes a die tip detachably mountable to a support member. The support member conveys first and second polymers separately to the die tip. The die tip has a row of channels defined therethrough that terminate at exit orifices or nozzles along the bottom edge of the die tip. These channels receive and combine the separate first and second polymers conveyed from the support member. An elongated recess is defined in the top surface of the die tip. The recess defines an upper chamber for each of the die tip channels. Stacked breaker plates are removably supported in the recess. The breaker plates have vertically aligned pairs of adjacent holes defined therethrough such that a pair of the aligned holes is disposed in each upper chamber of each channel. A filter screen is in the recess to separately filter the polymers.

Abstract: The operation of a biomagnetometer is verified using a tool containing a dipole source of known strength having a fixed, known position. The tool includes a hollow nonconducting and nonmagnetic sphere filled with an electrically conducting fluid, and at least one well-characterized dipole source within the fluid. The position of the dipole source relative to fixed locations on the surface of the sphere is established by X-ray measurement, and the the fixed surface locations and strength of the dipole source are measured with the biomagnetometer. The position and strength of the dipole source determined in this manner are compared with the known position and strength of the dipole source, to verify the operation of the biomagnetometer.