Process for fabrication of a part with tubular geometry made from a ceramic matrix composite material

The invention claimed is: 1. A tensioning device for tensioning a preform along a longitudinal direction thereof, the preform being made from interlaced fibres and comprising a body and two opposite ends, the device comprising: a plurality of coaxial elements placed along an axis, the plurality of coaxial elements comprising a longitudinal main body, a control rod, a first bearing element, and a second bearing element, the longitudinal main body comprising a first end and a second end, the longitudinal main body being configured to support the body of the preform, the control rod being mounted on the first end of the longitudinal main body and rotatable about the axis, the control rod being configured to turn freely relative to at least one of the longitudinal main body and the first bearing element, the first bearing element being configured to bear one of the two opposite ends of the preform, the first bearing element being mounted on the second end of the longitudinal main body, the second bearing element being configured to bear the other one of the two opposite ends of the preform, the second bearing element being mounted on the control rod through a helical link, the rotation of the control about the axis being configured to cause the tensioning of the preform only along the longitudinal direction of and the translation of the second bearing element about the axis and a moving away of the second bearing element from the first bearing element without rotation of the first and second bearing elements in relation to each other, wherein the plurality of coaxial elements are configured to cooperate with each other when the two opposite ends of the preform are beared by the respective first and second bearing elements. 2. The tensioning device according to claim 1 , wherein, during the rotation of the control rod, at least one of the first and second bearing elements is held fixed relative to a coordinate system external to the tensioning device. 3. The tensioning device according to claim 1 , wherein the control rod is assembled onto the first end of the longitudinal main body through an intermediate element, the intermediate element being coaxial with the longitudinal main body and the second bearing element and placed between the longitudinal main body and the second bearing element. 4. The tensioning device according to claim 1 , wherein the control rod is a rod with an external thread and the second bearing element is a nut comprising an internal thread that cooperates with the external thread of the control rod. 5. A tensioning device for tensioning a preform along a longitudinal direction thereof, the preform being made from interlaced fibres and comprising a body and two opposite ends, the device comprising: a plurality of coaxial elements placed along an axis, the plurality of coaxial elements comprising a longitudinal main body, a control rod, a first bearing element, and a second bearing element, the longitudinal main body comprising a first end and a second end, the longitudinal main body being configured to support the body of the preform, the control rod being mounted on the first end of the longitudinal main body and rotatable about the axis, the control rod being configured to turn freely relative to at least one of the longitudinal main body and the first bearing element, the first bearing element being configured to bear one of the two opposite ends of the preform, the first bearing element being mounted on the second end of the longitudinal main body, the second bearing element being configured to bear the other one of the two opposite ends of the preform, the second bearing element being mounted on the control rod through a helical link, wherein the plurality of coaxial elements are configured to cooperate with each other when the two opposite ends of the preform are beared by the respective first and second bearing elements.