A shock-resistance testing apparatus includes a support base, a first rotating component and a controller provided on the support base. A second rotating component is coupled to one side of the first rotating component. A testing board is placed on the first rotating component. A falling board is placed on the testing board. The controller controls the first rotating component to drive the second rotating component rotating from one side of the testing board to another side of the testing board. The controller controls the second rotating component to lift the testing board. The controller controls the second rotating component to move away from the testing board so that the testing board falls.

A shock-resistance testing apparatus includes a support base, a first rotating component and a controller provided on the support base. A second rotating component is coupled to one side of the first rotating component. A testing board is placed on the first rotating component. A falling board is placed on the testing board. The controller controls the first rotating component to drive the second rotating component rotating from one side of the testing board to another side of the testing board. The controller controls the second rotating component to lift the testing board. The controller controls the second rotating component to move away from the testing board so that the testing board falls.

A portable system and method for identifying roulette wheel biases includes a frame member rotatably attachable to a roulette wheel proximate a turret support, a ball-drop tube slidably engaged to the frame member and a laser positioned to measure at least a bounce height of a roulette ball dropped through the ball-drop tube onto selective areas of the roulette wheel. One or more sensors may be positioned to trigger the laser responsive to a roulette ball being dropped through said ball-drop tube. Software analyzes the bounce height to determine dead spots and hot spots on the roulette wheel. Sound waves may also be measured to determine dead spots and hot spots.

A portable system and method for identifying roulette wheel biases includes a frame member rotatably attachable to a roulette wheel proximate a turret support, a ball-drop tube slidably engaged to the frame member and a laser positioned to measure at least a bounce height of a roulette ball dropped through the ball-drop tube onto selective areas of the roulette wheel. One or more sensors may be positioned to trigger the laser responsive to a roulette ball being dropped through said ball-drop tube. Software analyzes the bounce height to determine dead spots and hot spots on the roulette wheel. Sound waves may also be measured to determine dead spots and hot spots.

The present disclosure generally relates to a suspension-based impact test system for testing impact of a testing object against an impacting object. The impact test system includes components to couple the testing object to a suspension arm through a coupling member, and the suspension arm interfaces a motion-guiding mechanism. The impact test system generally includes a detachment mechanism for releasing the testing object from the suspension arm when initiated by a release system. The testing object releases from the constraints such that the testing object can move freely just prior to contacting the impacting object.

The present disclosure generally relates to a suspension-based impact test system for testing impact of a testing object against an impacting object. The impact test system includes components to couple the testing object to a suspension arm through a coupling member, and the suspension arm interfaces a motion-guiding mechanism. The impact test system generally includes a detachment mechanism for releasing the testing object from the suspension arm when initiated by a release system. The testing object releases from the constraints such that the testing object can move freely just prior to contacting the impacting object.

A solid pharmaceutical dosage form testing apparatus and a method are presented. The solid pharmaceutical dosage form testing apparatus includes a striker component, an impact platform, a sensor data acquisition system, and a solid dosage form placement mechanism. The solid dosage form placement mechanism has first and second push components that are movable toward each other to position a solid dosage form at an impact site. The method includes performing an impact strike test on a first plurality of solid dosage forms, and measuring a plurality of peak impact force values. The method may include performing a drop test on a second plurality of solid dosage forms, and measuring a plurality of physical defect rates. The method may include determining a model that describes a relationship between peak impact force values and physical defect rates, and determining, based on the model, a predicted physical defect rate.

A solid pharmaceutical dosage form testing apparatus and a method are presented. The solid pharmaceutical dosage form testing apparatus includes a striker component, an impact platform, a sensor data acquisition system, and a solid dosage form placement mechanism. The solid dosage form placement mechanism has first and second push components that are movable toward each other to position a solid dosage form at an impact site. The method includes performing an impact strike test on a first plurality of solid dosage forms, and measuring a plurality of peak impact force values. The method may include performing a drop test on a second plurality of solid dosage forms, and measuring a plurality of physical defect rates. The method may include determining a model that describes a relationship between peak impact force values and physical defect rates, and determining, based on the model, a predicted physical defect rate.

The present disclosure provides for a guide for use in a compression test, the compression test comprising loading a test sample between a first loading plate and an opposing load applied between the test sample and the first loading plate in a loading direction, the guide comprising: at least one support member, positionable between the first loading plate and the load and extending substantially parallel to the loading direction to constrain the test sample in a direction perpendicular to the loading direction, wherein, when in use, the at least one support member is positioned to define a space between the first loading plate and the support member such that when a load is applied the test sample is deformable in a direction perpendicular to the loading direction within the space.

A pallet impact station includes a frame, at least one pendulum swing arm rotatably coupled to the frame, and a carriage assembly carried by the at least one pendulum swing arm. A latching mechanism extends between the frame and the at least one pendulum swing arm, and engages the at least one pendulum swing arm when the carriage assembly is in a lowered position, raises the carriage assembly to a raised positon, and disengages the at least one pendulum swing arm at the raised positon so that the carriage assembly strikes a pallet. A sensor generates a signal corresponding to how high the carriage assembly is raised. A controller operates the latching mechanism, including disengaging the at least one pendulum swing arm when a height of the carriage assembly corresponds to a desired release height so that a predetermined impact force strikes the pallet.