Bench for mechanical characterisation of thin objects

The invention claimed is: 1. A bench for mechanical characterisation of a thin object including a portion of interest of a given area by application of a compression force according to a given compression axis including: a frame, a first compression face, a movable element that is mobile along the compression axis with respect to the frame and having a second compression face opposite the first compression face, uprights fixed to the frame, means for applying a force according to the compression axis and of a determined intensity to the object intended to be located between the first and second compression faces, said force being orthogonal to the first and second compression faces, the means for applying being fixed to said uprights, at least one force sensor inserted between the movable element and the means for applying a force, at least one movement sensor disposed to measure movement between the first and second compression faces in a direction of the compression axis, wherein at least one of the first and second compression faces includes a projecting compression zone of which an area is less than or equal to a portion of interest of the object, and wherein the frame includes a recess surrounding in the frame a thicker frame forming a pedestal supporting the first compression face. 2. The bench for characterisation according to claim 1 , wherein the compression zone has an area equal to the area of the portion of interest of the object. 3. The bench for characterisation according to claim 1 , wherein the first compression face is carried by a first compression plate including the compression zone and a measurement zone surrounding the compression zone, and wherein at least one movement sensor is carried by the movable element and comes into contact with the measurement zone. 4. The bench for characterisation according to claim 3 , wherein the pedestal has a height and/or the recess has a width such that the first compression plate is not in contact with the frame outside the pedestal. 5. The bench for characterisation according to claim 1 , including three movement sensors distributed around the compression axis and means configured to compare measurements of the three movement sensors and to detect a flatness defect. 6. The bench for characterisation according to claim 1 , wherein the pedestal has a cross-section with an area equal to that of the compression zone. 7. The bench for characterisation according to claim 1 , wherein the compression force is transmitted from the means for applying a force to the first and second compression faces by at least one connection of a punctual contact type. 8. The bench for characterisation according to claim 7 , wherein the force sensor is connected to the means for applying a force by a connection of a punctual contact type. 9. The bench for characterisation according to claim 7 , wherein the means for applying a force include at least one coil spring with a longitudinal axis aligned or substantially aligned with a straight line passing through a centre of the connection of the punctual contact type and a centre of gravity of the compression zone. 10. The bench for characterisation according to claim 9 , including means for adjusting an orientation of a direction of a force applied by the coil spring, to align the direction with the straight line passing through the centre of the connection of the punctual contact type and the centre of gravity of the compression zone. 11. The bench for characterisation according to claim 1 , wherein the movable element includes a support plate of the second compression face and wherein the force sensor is linked to the support plate by a plane rest. 12. The bench for characterisation according to claim 11 , wherein the movable element includes a homogenising plate of constraints inserted between the force sensor and the support plate. 13. The bench for characterisation according to claim 1 , wherein the means for applying a force includes means for modifying the intensity of the force applied. 14. The bench for characterisation according to claim 1 , wherein the means for applying a force include a step-by-step reduction gear assembly, at least one first pulley directly engaged with an output shaft of the reduction gear assembly, a second pulley, a cable between the first and second pulleys, at least one first lever having the second pulley, and a second lever articulated on the first lever, and wherein a compression rod is provided between the second lever and the second compression face. 15. The bench for characterisation according to claim 14 , wherein the force sensor is disposed between the second lever and the compression rod. 16. The bench for characterisation according to claim 14 , wherein the transmission of the force between the means for applying force and the second compression face takes place through two connections of a punctual contact type. 17. The bench for characterisation according to claim 16 , wherein the compression rod is in punctual contact with the second lever and the force sensor. 18. The bench for characterisation according to claim 1 , including means for aligning the first and second compression faces. 19. A method for characterisation of a thin object implementing a bench for characterisation according to claim 1 , including: setting the object in place on the first compression face to align the portion of interest with the compression zone, applying the second compression face on the object, and measuring the movement between the two compression faces according to the compression force applied. 20. The method for characterisation according to claim 19 , comprising applying a stimulus to cause a modification in a volume of the object during the measurement. 21. The method for characterisation according to claim 19 , wherein the thin object is an electrochemical battery cell of which the portion of interest is a portion including a stack formed by a positive electrode, a separator, a negative electrode and a packaging around the stack, the method including, during measurements, a step of applying an electrical charge and/or discharge cycle.