Professor Xiangqian (Jane) Jiang FREng - Integrating metrology in business and academe
Professor Jane Jiang’s interest in measuring began when she worked on a bus production line in China. She found that the best way to improve quality, consistency and productivity was through metrology, the science of measurement. Today, she runs the UK’s largest metrology research group.
In 2012, Sir Patrick Stewart, then Chancellor of the University of Huddersfield, marked Professor Jiang’s election as the university’s first Fellow of the Royal Academy of Engineering
Professor Jane Jiang’s office at Huddersfield University has a collection of pictures, awards and souvenirs that demonstrate her successful wide-ranging international career in research. One unusual accolade for an academic’s wall is a scroll proclaiming Professor Jane Jiang FREng as a Freeman of the City of London, an honour bestowed on her in 2013 through the Worshipful Company of Scientific Instrument Makers. Jiang’s husband, the pioneering mathematical metrologist Professor Paul Scott, jokes that this gives his wife the right to take a flock of sheep over London Bridge whenever she should feel like it!
The scroll is just one indicator of how far Professor Jiang has come since Chairman Mao’s Cultural Revolution forced her parents away from their careers as doctors and academics in Shanghai in China. Exile from their home not only disrupted her parents’ lives, but seemed to end Jiang’s own hopes of following them into a life of learning, “the family tradition” as Jiang describes it. Instead, in 1970, the authorities put this bright 15-year old schoolgirl to work on a production line, in a factory assembling buses.
Professor Xiangqian (Jane) Jiang FREng
Professor Jiang’s atypical career path to academic research eventually brought her to Huddersfield as the director of one of the UK’s leading centres for metrology research. There can’t be many university professors without an undergraduate degree but when Jiang finally emerged from the bus factory after 20 years she made up for lost time by going straight for a masters degree followed quickly by a PhD.
Professor Jiang’s escape from the production line began when she was told that she wasn’t physically up to heavy manual labour. Instead she was transferred to the factory’s drawing office. From there she moved up the ranks, as a technician and metrologist before becoming a fully qualified engineer.
This was a significant achievement for someone with no formal education in engineering – self-taught engineers rarely get that far. But even when she was working on the production line, Jiang had refused to give up on her ambitions. She attended night classes to catch up on her lost schooling. The classes did not cover engineering. “It was just like middle school,” she explains. So Jiang spent her own money on undergraduate text books to teach herself mathematics and engineering.
Jiang attributes her rise through the system partly to the fact that her bosses saw in her someone bright who could tackle problems. As she puts it: “If people find that you are clever and will take the load off them, they just keep giving you new tasks”. In her case, these involved fixing problems on the production line. In particular, components often arrived from different factories that did not fit together properly on the line. The challenge, she explains, was to get factories to follow the same standards and to keep products and components to the same tolerances. “To keep the tolerances you need to measure, you need to specify,” she explains. This takes you straight into metrology, the science of measuring things.
For Jiang, the attraction of metrology is that it was a way to indulge her scientific interests. “Metrology is interesting for me because it requires mathematics and physics. It can go from the nano size to astronomy size, where you have very large machines and telescopes.”
What started for Jiang as a way of solving production line problems, devising equipment to measure particular components, grew into a wider expertise. At first, she came up with ways to measure a specific part and then generalised it. “Gradually I started to use instruments, like the coordinate measuring machine, which measures the physical geometrical characteristics of an object, to measure a range of things.”
This evolution from the specific to the general is in line with Jiang’s approach to problem solving. Asked what she would say to someone thinking of a career in metrology, she said: “A piece of advice would be to focus on a particular solution initially and then try to relate it to a universal requirement.”
In her own pursuit of solutions to measure things, Jiang produced several inventions that went on to win prizes in China, including a first-class award for provincial technology achievements and one for technological innovation.
Even as a works engineer, Jiang was writing papers. Her early work included a series of lectures that were published for use at Changzhou Polytechnic College. Jiang’s publishing output now stands at more than 330 papers, including several best paper awards at major conferences.
For two decades, the authorities turned down her requests for permission to go to university. However, when she finally did make it, her rise was rapid. In 1990, Jiang passed the National Graduate Admission Examination with results so good that, even though she lacked a first degree, she was allowed to go to Huazhong University of Science and Technology in Wuhan to study measurement technology and scientific instruments to masters and doctorate level.
Jiang’s PhD led her to focus on the power of optical systems in metrology. Light allows instruments to probe surfaces without physical contact and she worked on the complex task of measuring the shape of “arbitrary” curved surfaces that have no obvious symmetry to latch on to. The approach involves utilises optical systems, using interferometry for example, to probe surfaces and then complex maths to study the shape of the surface.
She finished her PhD on BUSINESS PARTNERS
Suppliers of instruments and metrology systems, one of the UK’s engineering successes, work closely with the centre. Taylor Hobson, a leading supplier of metrology systems for machine tools, for example, has licences to commercialise the metrology centre’s SURFSTAND software, developed for areal surface characterisation.
Professor Jane Jiang aligning optical apparatus for her team’s newest invention, the Dispersed ReferenceInterferometer. The target of this new measurement technology is to cover a 2 mm + measurement rangeat nanometre resolution, with a measurement rate of up to 10 kHz
Another important partner with an interest in Huddersfield’s software is Renishaw, which has research staff seconded to Huddersfield. The company designs and sells probes for the machine tool market as well as measuring systems for chip makers. Jiang says: “Renishaw sells the probing, while Huddersfield contributes mathematical skills to compute the results. We pull together.”
Jiang is proud of the centre’s work with the UK’s manufacturers. It has carried out projects with Rolls-Royce, for example, which needs help to ensure that the turbine blades it makes are the correct shape, with the right surface structure. Here, the centre has done much to bring down the time it takes the company’s engineers to calibrate their production lines.
It can be expensive to take manufacturing equipment offline to check that the machinery is correctly calibrated to produce components to the required accuracy. Jiang talks enthusiastically about her team’s success in slashing the downtime on large machines from a fortnight to half a shift. “In half a day we can do everything.” In the past, she jokes, the company used to say that it could not afford to suspend production for calibration. “Now they say it is impossible not do it, because that way they keep the quality and the productivity”.
Rolls-Royce, Taylor Hobson and Renishaw, are just three of the hundred or so businesses that have worked with the centre, part of a wider supply chain for metrology, including many local businesses. Cummins Turbo Technologies, for example, is within walking distance of the centre. Jiang’s guided tour of her domain also takes in the facilities of NPL Huddersfield, the northern offshoot of the National Physical Laboratory, and its first facility outside its headquarters near London. Set up in 2008, NPL Huddersfield provides commercial calibration services that are very much in line with the metrology centre’s research expertise.
The growth of commercial operations like NPL North underlines the value of having a cutting-edge research centre in the region. Jiang points out that the Huddersfield centre is surrounded by engineering companies that need to monitor and control the precision of their production lines. Jiang’s ambitions, backed by Huddersfield University, are to move the centre, now spread around the engineering department and the 3M Buckley Innovation Centre next door, which also houses NPL North, into a brand new building on the campus.
Bringing everything together would make it easier for Jiang to achieve another of her ambitions. She wants to eliminate the need for even half a day’s downtime for companies like Rolls-Royce.
Her group is working towards ‘on-machine’ metrology, measuring what goes on during manufacturing. The ultimate ambition is the ‘autonomous factory’. The aim, says Jiang, is in-process inspection, at every stage, on the machine. The need for metrology in this ambition is why the Huddersfield centre has been a part of the EPSRC’s ‘factory of the machine’ initiative. “The idea behind this is that manufacturing and measurement go together,” she explains. Maybe Chinese bus factories would be open to such an approach when running production lines?
Michael Kenward OBE has been a freelance writer since 1990 and is a member of the Ingenia Editorial Board. He is Editor-at-Large of CAREER TIMELINE AND DISTINCTIONS
Born, 1955. Apprentice, Draftsperson, Technician, Engineer, City Automobile Manufacturer, Changzhou, P R of China, 1970–1990. Research Fellow, University of Birmingham, 1996. Senior Research Fellow, University of Huddersfield, 1997. Cheung Kong (Yangzi) Distinguished Professor awarded by the Ministry of Education, P R of China, 1999. Outstanding Young Scientist, awarded by National Natural Science Foundation of China, 2000. Professor (Chair of Precision Metrology), Leader of Surface Metrology Group, Chief Scientist, Centre of Precision Technologies, University of Huddersfield, 2003. Elected Fellow of Chinese Society of Measurement and Instruments, 2004. Royal Society Wolfson Research Merit Award, 2006. Elected Fellow of the Royal Society of Arts, 2006. Elected Fellow of the Institute of Engineering Technologies, 2006. ERC Advanced Investigator Holder, European Research Council, 2009. Elected Fellow of CIRP – Collège International pour la Recherche en Productique, 2011. Elected Fellow of the Royal Academy of Engineering, 2012. Freeman of the City of London, 2013. Elected Fellow of International Society for Nano-manufacturing, 2013. Liveryman of the Worshipful Company of Scientific Instrument Makers, 2013. Sir Harold Hartley Medal, 2014. Renishaw/RAEng Chair in Precision Metrology, 2016.
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