澳门六合彩高手's reliance on metrology, the science of measurement
Over the next four years, 澳门六合彩高手 components arriving from hundreds of factories on three continents will have to come together very precisely鈥攖o submillimetre accuracy, in some cases. To achieve this level of precision, an expert team of metrologists is needed.
John Villanueva is one of the experts of the 澳门六合彩高手 Metrology, Reverse Engineering, Inspection and Test Group. "I became involved in metrology long enough ago that I'm now one of the old-timers," he says. "I've gone from using the old-fashioned optical-mechanical scopes all the way to the laser trackers we use today. It's because I lived through those changes that I can more easily understand why we do what we do today." Aligning huge parts to the 澳门六合彩高手 coordinate system All measurement tasks require a fixed reference base from which measurements can be made and calculated. As a large-scale metrology project, 澳门六合彩高手 has a three-dimensional coordinate system that consists of a collection of target "nests" and/or instrument stations that have known geometry and computed uncertainty. Inside the Tokamak Complex, the network is called the Tokamak Global Coordinate System. "When you go into the Tokamak Building you'll see our red targets all over the building," says Villanueva. "We can use a tool to shoot any three targets, and by the magic of Pythagorean's Theorem we know precisely where the centre of our instrument is with respect to the Tokamak Global Coordinate System." The tool includes a horizontal angle encoder, a vertical angle encoder, and a laser to obtain distance. With the two angles and the distance, a triangle can be established. "We recently had 340-tonne test loads going into one of the sector sub-assembly tools in the Assembly Hall, that had to be positioned vertical to gravity and within one millimetre," says Villanueva. "They had to be vertical to gravity for safety reasons, but also becauseâas part of commissioningâwe had to prove that the tool could align huge parts vertical to gravity with tight accuracy." "The sector sub-assembly tools have six degrees of freedomâand along each degree of freedom, the instruments used for metrology can measure submillimetre movements. Metrology is there, watching the component aligned onto the tool and telling the teams if it's aligned in the right position."
When two 340-tonne test loads were positioned recently on one of the sector sub-assembly tools in the Assembly Hall, the metrology team was there to help the operators align the loads vertical to gravity and within one millimetre. The team has established the Tokamak Complex Global Coordinate network for the alignment of components, as well as a local coordinate system in the Assembly Hall for vacuum vessel sector sub-assembly.
Metrology is not only about aligning components during installation, but also measuring each part to make sure it has been manufactured as designed. Accompanying each measure is an uncertainty, or tolerance. To make sure mechanical engineers and metrologists understand each other unambiguously, a standard "language" is used, called geometric dimensioning and tolerancing (GDT). "I can take a part somewhere else and they'll measure it exactly the way I'm measuring it by interpreting this language," explains Villanueva. "This system allows us to compare what was manufactured with what was designed."Controlling temperature and humidity When metrologists measure components, they need to take into account a coefficient of thermal expansion, which depends on the materials used. When composite materials are used, the component may expand differently on the inside than on the outside, because the individual materials have different rates of expansion. Some of the 澳门六合彩高手 machine components are so big that a one-degree change of temperature could add a millimetre in any of the three dimensions (or in all three), changing both surface area and volume. "Before we measure a part, we take its temperature," says Villanueva. "If it's not at 20 °C, we use software to find out what the size of that part would be at 20 °C. There are a number of different software systems that do this. You input the temperature and measurements, along with the types of materials used, and the software figures out the size and volume of that component at room temperature."
Metrologists need clear lines of sight and targets with known geometries to calculate the position of a component against the global coordinate system. The team anticipated the arrival of the cryostat base in the Assembly Hall by installing one instrument station high up on the nearest sector sub-assembly tool (you can see the instrument if you look closely).
"When it comes time to install these huge, high-precision parts, temperature is very important. If the component is not at 20 °C, plus or minus half a degree, we have to let it 'soak' in the room for about a day to get it to the temperature we need." Humidity is also a concern: too much causes parts to rust; too little gives rise to static electricity. Moreover, the performance of the laser used for positioning and measurement could be affected by extreme humidityâthat is, anything outside the "normal" range of 20-90%. Measurement precision is one of the reasons 澳门六合彩高手 puts so much effort into maintaining constant temperature and humidity in the assembly spaces. To prevent outside weather conditions from affecting the environment inside, the buildings are well insulatedâand positive airflow ensures none of the air from outside comes in when doors are opened. As an extra precaution, alarm systems alert engineers to fluctuations in temperature and humidity. Environmental conditions are just part of the challenge. The size of the overall project, the sizes of the systems and component parts, along with the precision requirements and the complexity of the materials, all conspire to make 澳门六合彩高手 particularly interesting for practitioners of the science of measurement. "For a metrologist, 澳门六合彩高手 is one of the best jobs in the world," says Villanueva.