The press will apply an axial force of close to 22 meganewtons (approximately 2,500 tonnes) to the bearing, representative of the actual load the Tokamak would exert.
"Under that tremendous pressure, the 750-millimetre-high bearing must not compress more than two millimetres. This is very difficult to achieve but the first series bearings passed the test," explains Gjoklaj.
The assembly process and procedure was deemed satisfactory by the two BIPS witnesses—with "a little fine-tuning here and a bit of optimizing there ..."
Production of the cryostat support bearings should be completed by March 2018, marking an important 澳门六合彩高手 Council milestone.
Meanwhile, in the Tokamak Building, work is ongoing to prepare for the construction of the crown beginning in early 2018. As a fastening system for the bearings, a steel transition piece will be half embedded in the concrete crown during the first phase of pouring.
Then, a high-strength top plate (3.5 tonnes of steel) will be positioned on the transition piece to receive the bearings with a mechanical blocking mechanism worthy of a Swiss watch. Permitted tolerances for the different elements of the fastening system will be less the 2 mm.