A method of analysing granular material in a slurry, the method comprising: compacting the granular material in the slurry to form one or more pucks; irradiating said pucks with X-Ray radiation and detecting X-ray energy transmitted through said one or more irradiated pucks; irradiating a reference material with X-Ray radiation, said reference material having known material characteristics and detecting X-ray energy transmitted through said reference material; comparing X-ray energy transmission through said one or more pucks with the reference material to compute, using a processing unit, one or more particle characteristics of the granular material in the one or more pucks.

An X-ray inspection apparatus for a cylindrical secondary battery according to the present invention comprises: an inspection chamber; a transfer unit for transferring a cylindrical secondary battery into the inspection chamber; an inspection body moving while holding the secondary battery; an X-ray source; an X-ray detector; a discharge unit for discharging the inspected secondary battery outside the inspection chamber;

and an alignment mechanism arranged along a moving path of the inspection body so as to align the cylindrical secondary battery. Further, in the X-ray inspection apparatus for a cylindrical secondary battery according to the present invention, the alignment mechanism comprises: one or more sensing unit for sensing the position of a specific portion of the cylindrical secondary battery; and one or more contact unit operable between a standby position in which the contact unit do not come into contact with the secondary battery and a contact position in which the contact unit can come into contact with the secondary battery.

A cabinet x-ray device for imaging seeds includes an x-ray source configured to transmit an x-ray beam along a beam path. A seed holder is configured to hold seeds and be selectively positioned in the x-ray device such that the beam path crosses the seed holder and the x-ray beam passes through at least some of the seeds. An x-ray detector is configured to detect the x-ray beam after passing through the seeds such that one or more x-ray images of the seeds can be formed. Self-supporting x-ray shielding can extend circumferentially around the x-ray beam to mitigate x-ray transmission outside the device. A drive mechanism can automatically move the seed holder so that discrete x-ray images of subsets of seeds are taken in an automatic seed imaging operation. Various seed evaluations and seed process evaluations can be made using the device.

A sequential X-ray fluorescence spectrometer according to the present invention includes a total analysis time display unit configured to measure, for each kind of analytical sample, a standard sample which contains a component at a known content as a standard value to determine a measured intensity of each measurement line corresponding to the component. The total analysis time display unit is further configured to calculate, for each component, a counting time which gives a specified analytical precision by using the standard value and the measured intensity and to calculate a total counting time as a sum of the counting times of respective components. The total analysis time display unit is configured to calculate a total analysis time as a sum of the total counting time and a total non-counting time and to output the calculated total analysis time and the calculated counting times of the respective components.

A sequential X-ray fluorescence spectrometer according to the present invention includes a total analysis time display unit configured to measure, for each kind of analytical sample, a standard sample which contains a component at a known content as a standard value to determine a measured intensity of each measurement line corresponding to the component. The total analysis time display unit is further configured to calculate, for each component, a counting time which gives a specified analytical precision by using the standard value and the measured intensity and to calculate a total counting time as a sum of the counting times of respective components. The total analysis time display unit is configured to calculate a total analysis time as a sum of the total counting time and a total non-counting time and to output the calculated total analysis time and the calculated counting times of the respective components.

The present disclosure relates to a measuring chamber, a working method of the measuring chamber, a chemiluminescence measurement method of the measuring chamber and a chemiluminescence detector. The measuring chamber includes a dark chamber, a first substrate nozzle, a photomultiplier detection component, a waste liquor adsorption needle component, a reaction cup turntable and a plurality of reaction cup processing stations; the reaction cup turntable is provided in the measuring chamber rotationally; and the plurality of reaction cup processing stations are sealed in a mutually light-isolated manner. When the instrument works, reaction cups in the reaction cup turntable are moved in the dark chamber; and after the reaction cups are moved to corresponding processing stations for processing the reaction cups, the plurality of different processing stations for processing, the reaction cups may simultaneously process the reaction cups moved to the corresponding reaction cup processing stations.

A cabinet x-ray device for imaging seeds includes an x-ray source configured to transmit an x-ray beam along a beam path. A seed holder is configured to hold seeds and be selectively positioned in the x-ray device such that the beam path crosses the seed holder and the x-ray beam passes through at least some of the seeds. An x-ray detector is configured to detect the x-ray beam after passing through the seeds such that one or more x-ray images of the seeds can be formed. Self-supporting x-ray shielding can extend circumferentially around the x-ray beam to mitigate x-ray transmission outside the device. A drive mechanism can automatically move the seed holder so that discrete x-ray images of subsets of seeds are taken in an automatic seed imaging operation. Various seed evaluations and seed process evaluations can be made using the device.

A method of analysing granular material in a slurry, the method comprising: compacting the granular material in the slurry to form one or more pucks; irradiating said pucks with X-Ray radiation and detecting X-ray energy transmitted through said one or more irradiated pucks; irradiating a reference material with X-Ray radiation, said reference material having known material characteristics and detecting X-ray energy transmitted through said reference material; comparing X-ray energy transmission through said one or more pucks with the reference material to compute, using a processing unit, one or more particle characteristics of the granular material in the one or more pucks.

The present invention includes an apparatus for preparing samples for measurement by x-ray fluorescence spectrometry. The apparatus comprises a plate having one or more holes passing through the plate. The holes are covered by a film on one side of the plate. The holes are less than 500 micrometers across in one dimension where the film covers the holes. The film is translucent to x-rays. The present invention also includes an apparatus for preparing samples for measurement by x-ray fluorescence spectrometry. The apparatus comprises a plate having one or more holes passing through the plate. The holes are covered on one side of the plate by a detachable cover forming a water-tight seal against the plate. The cover is substantially free of the elements osmium, yttrium, iridium, phosphorus, zirconium, platinum, gold, niobium, mercury, thallium, molybdenum, sulfur, lead, bismuth, technetium, ruthenium, chlorine, rhodium, palladium, argon, silver, and thorium. The holes are less than about 500 micrometers across in one dimension where the cover covers the holes. The present invention also includes a method for preparing samples for measurement by x-ray fluorescence spectrometry. The method comprises providing a solution of with less than 10 micromolar solute and a volume of between about 2 microliters and about 2 milliliters. The solution is concentrated and analyzed using x-ray fluorescence spectrometry.

An X-ray detection method and an X-ray detector are provided. The X-ray detection method according to embodiments of the present disclosure includes: dividing an energy range of photons emitted by an X-ray source into a number N of energy windows, where N is an integer greater than 0; obtaining a weighting factor for each of the number N of energy windows based on linear attenuation coefficients of a substance of interest and a background substance of an imaging target; obtaining a weighting factor matrix for M output channels of an X-ray detector based on the weighting factor for each of the number N of energy windows, where M is an integer greater than 0; and obtaining output results of the M output channels based on the weighting factor matrix and numbers of photons having an energy range falling into individual energy windows of the number N of energy windows.