According to the present technology, an impact test in which an impact application member is made to free fall onto a test sample of a plurality of types of rubbers having different physical properties is performed under prescribed test conditions; data for at least one of three items including a loss energy that is absorbed by the test sample when the impact application member collides with the test sample, a thermal energy that is generated at the test sample, and an indentation amount into the test sample by the impact application member is acquired; and an optimal test sample is selected from the respective test samples on a basis of a ranking of the superiority of the respective test samples with respect to the item(s) for which data was acquired.

A conveyor belt 10 is formed with a belt core body 14 covered by a cover rubber 12. The cover rubber 12 is formed with a shock resistance performance evaluation index, i.e., the product of an elongation at break Eb, a tensile strength at break TSb, and a loss tangent tan of 6000 or greater. The loss tangent tan is the ratio between a storage modulus and a loss modulus calculated from a stress when vibrations of a predetermined frequency are applied to cover rubber 12. The measurement conditions of the loss tangent tan are determined on the basis of a speed of an impact applied under the use conditions of the conveyor belt 10.

A ball drop iris is provided for use in a ball drop testing apparatus. Included on the iris is a lower housing having an upper mounting flange having a ball opening and a body depending from the flange, the body defining a passage through which a test ball passes. A control ring is disposed on the upper mounting surface for sliding, rotating action relative to the lower housing. A plurality of iris petals is provided, each operationally connected to the control ring and to the upper mounting flange to pivot between a closed position in which the ball opening is blocked, and an open position in which the petals are simultaneously retracted and the opening is clear for passage of a test ball.

A ball drop iris is provided for use in a ball drop testing apparatus. Included on the iris is a lower housing having an upper mounting flange having a ball opening and a body depending from the flange, the body defining a passage through which a test ball passes. A control ring is disposed on the upper mounting surface for sliding, rotating action relative to the lower housing. A plurality of iris petals is provided, each operationally connected to the control ring and to the upper mounting flange to pivot between a closed position in which the ball opening is blocked, and an open position in which the petals are simultaneously retracted and the opening is clear for passage of a test ball.

This patent describes devices and methods to evaluate and compare the effectiveness of protective equipment in providing protection to players of contact sports, and to determine if a given protective product (pad) is compliant with a specified performance standard. To simulate the impacts experienced by these players, a pad-protected specially modified and instrumented manikin is impacted with solid loads of various weights at various speeds. The impacts are designed to model the impact forces and impact times encountered in typical game collisions. For each impact, measurements are made of the force exerted onto the pad, and the parts of this force that are transmitted through the pad onto various locations on the manikin, as a function of time. Five numbers that quantify the ability of each pad to protect the user are extracted from these measured force verses time data: (1) the maximum force applied on the pad, (2) the average applied force, (3) the maximum force measured under the pad, (4) the sum of the maximum forces measured under the pad, and (5) the ratio of the rebound load speed and the incident load speed. For a given impact, the pad that reduces the magnitudes of these quantities the most is the pad that provides the greatest measure of safety for the game players.

This patent describes devices and methods to evaluate and compare the effectiveness of protective equipment in providing protection to players of contact sports, and to determine if a given protective product (pad) is compliant with a specified performance standard. To simulate the impacts experienced by these players, a pad-protected specially modified and instrumented manikin is impacted with solid loads of various weights at various speeds. The impacts are designed to model the impact forces and impact times encountered in typical game collisions. For each impact, measurements are made of the force exerted onto the pad, and the parts of this force that are transmitted through the pad onto various locations on the manikin, as a function of time. Five numbers that quantify the ability of each pad to protect the user are extracted from these measured force verses time data: (1) the maximum force applied on the pad, (2) the average applied force, (3) the maximum force measured under the pad, (4) the sum of the maximum forces measured under the pad, and (5) the ratio of the rebound load speed and the incident load speed. For a given impact, the pad that reduces the magnitudes of these quantities the most is the pad that provides the greatest measure of safety for the game players.

A kit includes a vessel having a plasma-treated interior surface, solid composition adhered to the plasma-treated interior surface, and a reconstitution liquid. The solid composition has a mass ranging from about 600 micrograms to about 20 grams and is in the form of a lyophilized pellet adhered to the plasma-treated interior surface. The solid composition is macroscopic in three orthogonal dimensions, such that the solid composition is not a coating and has a length, a width, and a height of greater than 1 mm.

A test fixture is provided for dropping an article from a height to a floor, with the article oriented in relation to the floor at a select angle. The fixture includes a column frame, an overhead beam, a carriage, first and second guy wires, first and second spools, and first and second chains. The frame supports first and second guide arms on opposing sides. The overhead beam has a distance span substantially parallel to the floor. The carriage is disposed substantially parallel to the floor and has first and second opposing guides separated by the span. The guy wires attach to the beam separated the span and pass through the guide arms. The first and second spools to receive the corresponding guy wires. The first and second chains suspend the article from the carriage above the floor. Upon release of the guy wires, the carriage falls until contact with the guide arms while the article contacts the floor. Additionally, rods connected at the ends of article and suspended from the carriage to further ensure the article's angle.

A test fixture is provided for dropping an article from a height to a floor, with the article oriented in relation to the floor at a select angle. The fixture includes a column frame, an overhead beam, a carriage, first and second guy wires, first and second spools, and first and second chains. The frame supports first and second guide arms on opposing sides. The overhead beam has a distance span substantially parallel to the floor. The carriage is disposed substantially parallel to the floor and has first and second opposing guides separated by the span. The guy wires attach to the beam separated the span and pass through the guide arms. The first and second spools to receive the corresponding guy wires. The first and second chains suspend the article from the carriage above the floor. Upon release of the guy wires, the carriage falls until contact with the guide arms while the article contacts the floor. Additionally, rods connected at the ends of article and suspended from the carriage to further ensure the article's angle.

The present invention relates to a safety test apparatus of a battery cell. The safety test apparatus of the battery cell comprises: a jig on which the battery cell is disposed on a top surface thereof; and an impact member comprising an impact rod supported on the top surface of the battery cell and a striking weight disposed above the jig to freely drop toward the jig and strike the impact rod so that an impact is applied to the battery cell, wherein the striking weight is provided in a pair and comprises left and right striking parts that respectively strike two striking points, which are spaced apart from each other, of the impact rod and a connection part connecting the left and right striking parts to each other.