Abstract: An orthopedic simulator is provided with a mechanism with a plurality of sub-mechanisms that generate relative motions between the portions of orthopedic devices, such as spinal disc implants. The sub-mechanisms are configured to be nested so as to place the sub-mechanism with the highest required performance closest to the specimen.

Abstract: An orthopedic simulator including a holder assembly and a slide table is disclosed. The holder assembly is configured to hold a test specimen to supply test loads. In the embodiment shown, the slide table is coupled to the holder assembly and includes a plurality of translation plates movable along a plurality of axis. As shown, the plurality of translation plates include a first translation plate movable along a first axis and a second translation plate movable along a second axis generally transverse to the first axis. In illustrated embodiments, an adjustable screw lock is configured to provide a positive lock to restrict movement or stroke of the first or second translation plates along the first or second axis. As disclosed, movement of the first or second translation plates is biased via a spring assembly for example to simulate the effect of soft tissue.

Abstract: An orthopedic simulator is provided with an integral central manifold that provides internal routing of pressurized hydraulic fluid, compressed air, or electrical power to the actuators of the orthopedic simulator. The integral manifold is structurally coupled to support elements and resist and transfer bending and shear forces to the support elements.

Abstract: An orthopedic simulator is provided with a plurality of test stations for each holding a test specimen. A plurality of load actuators are provided, with a respective load actuator for each of the test stations. The load actuators are substantially frictionless and configured to apply loads to the test specimens at the test stations.

Abstract: A transmission for torque transfer with axial compliance and a test machine employing the transmission has a flexible connector that provides high torsional stiffness and high axial compliance while inducing no frictional forces. The transmission includes an axial portion allowed to translate freely along its axis due to a high axial compliance of the transmission while the transmission simultaneously facilitates rigid torque transfer.

Abstract: An orthopedic simulator is provided with an integral central manifold that provides internal routing of pressurized hydraulic fluid, compressed air, or electrical power to the actuators of the orthopedic simulator. The integral manifold is structurally coupled to support elements and resist and transfer bending and shear forces to the support elements.

Abstract: An orthopedic simulator is provided with a slide table assembly that is configurable to be selectively operable in a plurality of operational modes. The modes may include a free-floating mode, a positive axis lock mode, and a shear plane loading mode.

Abstract: An orthopedic simulator is provided with a mechanism with a plurality of sub-mechanisms that generate relative motions between the portions of orthopedic devices, such as spinal disc implants. The sub-mechanisms are configured to be nested so as to place the sub-mechanism with the highest required performance closest to the specimen.

Abstract: An orthopedic simulator is provided with a plurality of test stations for each holding a test specimen. A plurality of load actuators are provided, with a respective load actuator for each of the test stations. The load actuators are substantially frictionless and configured to apply loads to the test specimens at the test stations.

Abstract: An adjustable testing system for supporting a rotating tire against a roadway simulator includes a frame, wherein the tire is mounted on a side of the frame, and a moveable frame. A first linkage joins the moveable frame to the frame allowing the moveable frame to be displaced relative to the frame. A support member is used to mount a wheel of the tire, the support member being mounted to the moveable frame with a second linkage to allow movement of the support member relative to the moveable frame. The assembly is of a compact design for both the first linkage and the second linkage are characterized by two representative planes that intersect with each other on the same side of the frame.