Laboratory

The Key Laboratory of CNC Machine Tool Optimization Technology for Machinery Industry, approved by China Machinery Industry Federation, was built in December 2010. Affiliated to USST, the laboratory focuses its research on the key technologies for CNC machine tool design and processing techniques, dynamic performance analysis and testing to shorten the design cycle, reduce manufacturing costs, and improve equipment performance by close collaboration with enterprises.

Infrastructure

Hardware

Self-made special machine tool component performance testing platform (grinding head and tailstock, grinding wheel frame performance testing platform, moving component performance testing platform, mechanical performance comprehensive testing platform, impact performance testing platform)

Modal experiment system (Siemens LMS, Switzerland KISTLER, US NI data collecting equipment)

Testing sensor (KISTLER, Switzerland; LION, US; Micro-Epsilon, Germany)

High-performance workstation (Dell, HP)

Software

Self-developed software: structural adaptive topology optimization design software

Computer-aided engineering (CAE)software: HYPERWORKS

 Multiphysics engineering simulation software: COMSOL

Multidisciplinary/multi-objective optimization software: ISIGHT

Integrated vibration and noise testing software: LMS

Academic leader

Professor Ding Xiaohong, doctoral supervisor, received her PhD in intelligent creation science from National Kanazawa University Japan. She is currently the Director of the Key Laboratory of CNC Machine Tool Optimization Technology for Machinery Industry, the academic leader of the Discipline of mechanical design at the School of Mechanical Engineering, USST, Director of the undergraduate major----Mechanical Design and Manufacturing and Automation, and Director of National Experiment Teaching Center for Equipment Manufacturing Virtual Simulation.

Main academic titles:

Member of the International System and Structure Multidisciplinary Optimization Society (ISSMO), Senior Member of China Mechanical Engineering Society, Member of the China Mechanical Engineering Society and Member of the Intelligent Integration Technology Branch, and Director of the Shanghai Vibration Engineering Society

Team members

The team consists of 2 professors, 4 associate professors, and 10 lecturers.

Contact Information

Address: No. 516, Jungong Road, Shanghai 200093, China. Key Laboratory of CNC Machine Tool Optimization Technology for Machinery Industry, the School of Mechanical Engineering, University of Shanghai for Science and Technology

E-mail:  dingxhsh021@126.com

Telephone: 55270456

Research Area:

  Dynamic performance testing and analysis of CNC machine tool

  CNC processing optimization technology

  CNC machine tool optimization design method

Ongoing projects:

  2 major projects from the Ministry of Science and Technology

  Shenyang Machine Tool Group Strategic Cooperation Project

  2 projects from National Natural Science Foundation of China

Academic Exchanges and Cooperation

In May each year, academic exchange with professors at the Machine Tool Research Institute of the University of Stuttgart, Germany is held in Shanghai.

The University of Stuttgart Germany, founded in 1829, is well-known for its technical subjects. The Key Laboratory of CNC Machine Tool Optimization Technology for Machinery Industry of the School of Mechanical Engineering of USST and the University of Stuttgart have academic exchanges every year in the field of numerical control equipment technology (machine tool design, machine tool dynamics, processing technology, etc.).

2~3 team members attend the World Congress of Structural and Multidisciplinary Optimization (WCSMO) held every 2 years in USA/Australia/Germany.

The World Congress of Structural and Multidisciplinary Optimization (WCSMO), the top society in the field of structure and multidisciplinary optimization, is committed to promoting mutual exchange, cooperation and development among scholars in the world. It’s also the highest level platform for new ideas, new methods, and new applications. The society has a total of more than 1,800 international members and the Congress is held once every two years. The Key Laboratory of CNC Machine Tool Optimization Technology of Machinery Industry of USST will send 2~3 team members to participate in the conference and make report for academic exchange.

Exchanges and cooperation with Shenyang Machine Tool Co. Ltd. and Shanghai Machine Tool Co. Ltd., Shanghai/Shenyang

Both Shenyang Machine Tool Co. Ltd and Shanghai Machine Tool Co. Ltd. boast a large number of scientific research elites who have mastered modern methods for design and development of machine tools. The Key Laboratory of CNC Machine Tool Optimization Technology for Machinery Industry of USST has established cooperation with the R&D Centers of Shenyang Machine Tool Co. Ltd and Shanghai Machine Tool Co. Ltd. to perform design and development of machine tool products within the strategic cooperation agreement framework.

Research projects undertaken:

1.           Research on optimal heat dissipation mechanism of heat flow branching network, National Natural Science Foundation of China (51175347), 2012—2015

2.           High-end CNC machine tools and basic manufacturing equipment: Development of high-speed, heavy-duty, precision ball screw and linear guide - Research on high-speed ball screw grinding process optimization technology, sub-item of national science and technology major project (NO.2009ZX04011-031), 2009-2012

3.           High-end CNC machine tools and basic manufacturing equipment: Ultra-heavy precision CNC roll grinder - ultra-heavy CNC roll grinder grinding process, on-machine inspection and reliability research, sub-item of national science and technology major project (NO.2009ZX04002-071), 2009-2012

4.           Research on the spatial evolution law of dynamic characteristics of ultra-precision machine tools, youth project of National Natural Science Foundation of China (NO.51405300), 2015-2017

5.           Ultra-precision optical glass grinding machine performance prediction and condition monitoring technology, Shanghai Science and Technology Commission key project (NO.13160502500), 2014-2016

6.           Adaptability research on numerical control equipment for aerospace complex structure, Shanghai Science and Technology Commission key project, 2015-2017.

7.           Industrialization research of metal rubber damper, Shanghai Municipal Nation Defense Office’s military-civilian integration project, 2016-2018

8.           Research on dynamic characteristics of electronic cabinets, China Electronics Technology Group Corporation, 2011-2012

9.           Design and research of metal rubber damper, China Electronics Technology Group Corporation, 2014-2015

10.        Lightweight design of CNC cylindrical grinding structure, Shanghai Machine Tool Factory, 2015-2017

11.        M1.4 product structure optimization design, Shenyang Machine Tool (Group) Design and Research Institute Co., Ltd., 2016-2018

Awards:

1.       Second Prize of Shanghai Technology Invention Award, key technology of lightweight design of mechanical structure based on bionic principle and application in many fields, Shanghai Municipal People's Government, 2016

2.       Second Prize of China Machinery Industry Science and Technology Award, Research and Application of Lightweight Key Technology for Equipment Structure, China Machinery Industry Federation, 2016

3.       Shanghai Excellent Master's Thesis, Structural Reinforcement Bionic Topology Optimal Criteria Method, Shanghai Municipal Education Commission, 2016 (mentor)

4.       Shanghai May Fourth Youth Medalist, Mechanical Optimization Design Research and Teaching Innovation Team of USST, 2014

5.       First Prize of Teaching Achievements of USST, Exploration of Mechanical Engineering Talents' Ability-Driven Training Model, 2017

Recently published academic papers:

 Ge Z, Ding X. Design of thermal error control system for high-speed motorized spindle based on thermal contraction of CFRP [J]. International Journal of Machine Tools & Manufacture, 2018, 125: 99-111.

 H Zhang, X Ding, X Dong, M Xiong. Optimal topology design of internal stiffeners for machine pedestal structures using biological branching phenomena [J]. Structural & Multidisciplinary Optimization, 2017(1): 1-16.

 Xionghu Dong, Xiaohong Ding, Min Xiong. Optimal layout of internal stiffeners for three-dimensional box structures based on natural branching phenomena [J]. Engineering Optimization, 2018(4): 1 - 18.

Li, T., Wu, T., Ding, X. Design of an internally cooled turning tool based on topology optimization and cfd simulation. International Journal of Advanced Manufacturing Technology, 2017, 91(1-4), 1327-1337.

Shenlong Wang, Xiaohong Ding, Daye Zhu, Huijie Yu, Haihua Wang. Measurement uncertainty evaluation in whiplash test model via neural network and support vector machine-based Monte Carlo method [J]. Measurement, 2018, 119: 229-245.

TJ Li, XH Ding, K Cheng, T Wu. Dynamic optimization method with applications for machine tools based on approximation model. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science [J]. 2018, 232(11):2009-2022.

Tao Wu, Tianjian Li, Xiaohong Ding, etc. Design of a modular green closed internal cooling turning tool for applications [J]. International Journal of Precision Engineering and Manufacturing - Green Technology, 2018, 5(2): 211-217.

Yu Huijie, Sun Xiuting, Xu Jian, Zheng Pei. The time-delay coupling nonlinear effect in sky-hook control of vibration isolation systems using Magneto-Rheological Fluid dampers, Journal of Mechanical Science and Technology, 2016, 30 (9): 4157-4166.

Xiao Wei, Xiaohong Ding. Research on adaptive topology optimization criterion method for heat transfer structure [J]. Journal of Mechanical Engineering, 2017, 53(20): 153-160.

Tianjian Li, Zongmei Chen, Xiaohong Ding, Kai Cheng. Research on surface microstructure design of static pressure air bearing guide rail for ultra-precision machine tools [J]. Journal of Mechanical Engineering, 2017, 53(03): 193-200.

Tianjian Li, Xiaohong Ding, Kai Cheng. Machine tool dynamics based on spatial statistics. Journal of Mechanical Engineering [J]. 2015, 51(21): 87-94.

Patents:

Xiaohong Ding, Kun Zhang, Weiyu Ni, Haihua Wang. (2017). Component distribution method for car seat frame. Invention patent: ZL201410425992.2 , China

 Huijie Yu, Xifang Zhao, Weifang Wang, Yasu Wang, Xin Yan, Yundong Tan. (2017). Damping components, crystal oscillators, frequency synthesizers and electronic equipment. Invention patent: ZL201410849643.3, China

 Tianjian Li, Tao Wu, Wenbo Liu, Hong Chen, Lei Wang. (2018). Internal circulation cooling tool with transition surface and cooling method.　ZL201610830310.5, China

 Huijie Yu, Yasu Wang, Xin Yan, Lejing Zhang. (2016). Suspension type non-resonant isolators. Invention patent: ZL201410263402.0, China

Xiaohong Ding, Haihua Wang, Xinfang Zhao, Weiyu Ni, Daojiong Chen. (2015). Component topology optimization design method for complex assemblies. Invention patent: ZL201210384639, China

Huijie Yu, Xiaohong Ding, Weiyu Ni, Daojiong Chen, Haihua Wang. (2014). Evaluation method for complex impact acceleration energy of car seats. Invention patent: ZL 201110229106.5, China

Huijie Yu, Xiaohong Ding, Chen Zhang, Jiahui Han, Haihua Wang. (2014). Optimization method for stiffness and damping of contact parts of automobile seat rails. Invention patent ZL 2014104526641, China

 Xiaohong Ding, Jianyun Hou. (2013). Full stress structure topology optimization method based on continuous step reference stress. Invention patent ZL201110193932.9., China

Xiaohong Ding, Xuerong Ji, Zhiheng Luo, Yeling Chen (2013). Optimization design method for side seat of car seat back. Invention patent ZL201010154892, China

 Xiaohong Ding, Huijie Yu, Haitao Du, Daojiong Chen, Haihua Wang. (2013). Dynamic and static equivalent test method for parts. Invention patent:  ZL201110229100.8, China

Xiaohong Ding, Huijie Yu,  Daojiong Chen, Haihua Wang. (2013). Generation method of acceleration approximate pulse curve for automobile collision complex shock. Invention patent ZL201110229039, China

Haitao Du, Xiaohong Ding, Qinghong Wang, Dongsheng Yang, Wei Liu, Jianyun Hou. (2013)Micro-oscillator damping spring piece structure and design method. Invention patent ZL201110268853.x, China

Xiaohong Ding, Man Ma. (2012). Optimization design method for large electrostatic precipitator smoke box structure.Invention patent ZL201210213720.7, China

Xiaohong Ding, Yelin Chen, Zhiheng Luo, Xuerong Ji. (2012). Optimization design method of machine bed structure. Invention patent ZL201010154882.9, China

Xiaohong Ding, Guojie Li. (2011). Optimization design method of internal stiffened plate distribution of box-shaped support structure. Invention patent ZL200910197135.0, China