宋金华 研究教授 先进材料

师资队伍

78740

宋金华

研究教授

先进材料创新中心

E-mail: songjh@sustech.edu.cn

个人主页


研究方向

材料加工新技术及加工过程模拟

生物基新材料

环保新材料及产品设计制造

教育经历

1991 – 1997英国,布鲁内尔伦敦大学, 博士后,陶瓷新加工技术

1987 - 1991英国,纽卡斯尔大学,博士, 陶瓷粉体压制行为计算机模拟

1985 - 1987中国,西北工业大学,硕士,叶片精锻的计算机模拟及设计

1978 - 1982中国,合肥工业大学,工学士, 材料科学及工程

工作经历

2006 – 2018英国,布鲁内尔大学伦敦,沃尔夫森材料加工研究中心主任

2004 – 2018英国,布鲁内尔大学伦敦工程学院,终身教授

2002 - 2004英国,布鲁内尔大学伦敦工程学院,高级讲师 

1997 – 2002英国,布鲁内尔大学伦敦工程学院, 讲师

1990 – 1997英国,布鲁内尔大学伦敦工程学院, 博士后研究员 

1982 - 1985 中国,合肥工业大学材料系,助教

学术机构兼职

2015 - 2016英国环境部(DEFRA) 技术顾问

2013 – 2016英国阿伯丁大学工程学院外部考官

2008 - 2009加拿大国家创新基金(CFI)海外评委 

2007        第八届国际环境材料会议主席及论文集主编,伦敦

2005 – 2012《应用陶瓷》(APPLIED CERAMICS)编委 

2005 – 2008英国国家科研委员会(EPSRC)结构材料分会,评委

2005 - 2012英国环境部 “ 可再生材料“ 项目,专家评委

2002 -  2018英国国家科研委员会(EPSRC)评委团成员

2002 -  2018英国高校博士外部考官 (UCL, Loughborough, Queen Marry, Aberdeen, Southbank and Kingston etc) 

1997 - 2002 英国国家环境工程中心,工程博士(EngD) 委员会成员

科研项目

  1. 1) PI: “Compression Moulding of Biodegradable Foams”, Industry funded project (Green Light Products Ltd, UK), £24k, 1998-1999. 

  2. 2) CoI: “Direct Ink Jet Printing of Metal and Ceramic Powders” –2 joint EPSRC projects in collaboration with Queen Mary, University of London, £197k, 1998-2001.

  3. 3) PI: “Biodegradable Cushion Packaging Blocks”, EPSRC, £313k, 2000-2003.

  4. 4) PI: “Novel Processing of Cereal Straws for Fibre Packaging Materials”, STI LINK Programme, EPSRC, £427k, 2003-2006.

  5. 5) PI: “Biodegradable Starch-Based Materials and Thermo-Forming for Food Packaging Applications”, FOOD LINK Programme, DEFRA, £488k, 2004-2007.

  6. 6) PI: “Biodegradable Foams Based on Wheat Flour- from materials processing to modelling and design for packaging applications”, STI LINK Programme, EPSRC, £350k, 2004-2007.

  7. 7) PI: “Lightweight Eco-composites Based on Renewable Resources”, Technology Programme, DTI and HGCA, £500k, 2005-2008.

  8. 8) PI: “Powder Impregnation Moulding (PIM) Technology for Recycling of Mixed Waste  Plastics”, Technology Programme - Materials For Extended First Use and Re-Use, DTI, £156k, 2007-2009. 

  9. 9) PI: “Novel Bio-Composites Based on Whole Utilisation of Wheat Straw”, Renewable Materials LINK Programme, DEFRA and HGCA, £307k, 2008- 2011. 

  10. 10) PI: “Bio-based Lightweight Sandwich Structures for Packaging Applications”, EPSRC, £306k, 2008-2011.

  11. 11) PI: “Production of Bio-alcohols from Lignocellostic Waste Materials Produced in the Agro-food Chains”, Renewable Materials LINK, DEFRA, £150k, 2008-2011. 

  12. 12) PI: “Open Innovation Models for ICT-Enabled Manufacturing in Food and Packaging”, EPSRC, £1.7 million, 2013-18

  13. 13) CoI, “Design of re-usable Biomaterial Packaging Systems for the Chilled Meat and Fish Industry”, New Designs for a Circular Economy Programme, TSB, £33k, 2013.

  14. 14) CoI: RCUK Centre for Sustainable Energy Use in Food Chains, £5 million, 2013-18.

  15. 15) CoI: “PIM technology for moulding flood barrier components from recycled plastics”, FP7 £320k, 2012-2015 

  16. 16) PI: Valorisation of Biorefinery by-products Leading to Closed Loop Systems with Improved economic and environmental performance, FP7 Collaborative Project, European Commission, £350k, 2013-17.

  17. 17) PI:  Case PhD studentship, National Centre for Structure Integrity, EPSRC £68k, 2013-2017.

  18. 18) PI: Industrial PhD sponsorship, Hydropac Ltd, UK, £27k, 2013-2017. 

  19. Notes: 

  20. PI: Principal Investigator

  21. CoI: Co-investigator

  22. EPSRC: Engineering and Physical Science Research Council, UK

  23. STI: Sustainable Technology Initiative

  24. LINK: A UK founding mechanism for collaborative between research institutions and industry

  25. DTI: Department of Trade and Industry, UK government  

  26. DEFRA: Department of Environment, Food and Rural Affairs, UK government  

  27. HGCA: Home Grown Cereal Authority, UK 

  28. RCUK: Research Councils UK

  29. TSB: Technology Strategies Board, UK government  

  30. FP7: The 7th Framework (Research) Programme, European Commission 

代表论文

  1. 1) H.W. Chandler and J.H. Song, Mathematical Modelling of Isostatic Pressing, Br. Ceram. Trans. J,  88(1989), 167-172.

  2. 2) J.H. Song and H.W. Chandler, The Determination of some Compaction Properties of Ceramic Powders using a Simple Cylindrical Apparatus, Br. Ceram. Trans. J. 89(1990), 49-52.

  3. 3) H.W. Chandler and J.H. Song, A Variational Principle for the Compaction of Granulate Materials, Chemical Engineering Science, 45 (1990), 1359-1366.

  4. 4) J.H. Song, High Strength Steel Wire Cable Connector, Innovation, 20(1991), 13-15.

  5. 5) G. Dransfield, I. Birkby, P. McColgan, J.R.G. Evans and J.H. Song, Manufacture of Ceramic Components from Ultra-fine Oxide Powders, Proc. Brit. Ceram. Soc. 51(1993), 15-23.

  6. 6) J.H. Song and J.R.G. Evans, The Assessment of Dispersion of Fine Powders for Injection Moulding and Related Process, J. Euro. Ceram. Soc. 12(1993), 467-478.

  7. 7) J.H. Song and J.R.G. Evans, Phase Separation during Reheating of Mouldings, Processing of Advanced Materials, 3(1993), 193-198.

  8. 8) J.H. Song and J.R.G. Evans, A Die Pressing Test for the Estimation of Agglomerate Strength, J.Am. Ceram. Soc. 77(1994), 806-814.

  9. 9) G. Dransfield, I. Birkby, J.H. Song and J.R.G. Evans, Factors Affecting the Machinability of Fine Powder Compacts, Br. Ceram. Tran. J, 93(1994), 183-186.

  10. 10) J.H. Song and J.R.G. Evans, Flocculation after Injection Moulding in Ceramic Suspensions.  Journal of Materials Research, 9(1994), 2386-2397.

  11. 11) J.H. Song and J.R.G. Evans, The Effect of Undispersed Agglomerates on the Relative Viscosity of Ceramic Suspensions, J. Mat. Sci. Lett. 13(1994), 1642-1644.

  12. 12) J.H. Song and J.R.G. Evans, A Comparison Between the Injection Moulding of Fine and Ultra-fine Zirconia Powders, Ceramics International, 21(1995), 325-333.

  13. 13) S.A. Matar, M.J. Edirisinghe, J.R.G. Evans, E.H. Twizell and J.H. Song, Modelling the Removal of Organic Vehicle from Ceramic or Metal Mouldings: the Effect of Gas Permeation on the Incidence of Defects, J. Mat. Sci., 30 (1995), 3805-3810.

  14. 14) J.H. Song and J.R.G. Evans, Ultra-fine Ceramic Powder Injection Moulding, the Role of Dispersants, J. Rheology, 40 (1996), 131-152.

  15. 15) J.H. Song, J.R.G. Evans, M.J. Edirisinghe and E.H. Twizell, Effect of A Powder Bed on the Critical Heating Rate for Thermolysis of Ceramic Injection Moulded Components, A.I.Ch.E.J., 42(1996), 1715-1722.

  16. 16) J.H. Song, J.R.G. Evans, M.J. Edirisinghe and E.H. Twizell, Modelling the Effect of Gas Transport on the Formation of Defects during Thermolysis of Moulded Powders, J. Mater. Res., 11 (1996), 830-840.

  17. 17) J.H. Song, J.R.G. Evans, M.J. Edirisinghe and E.H. Twizell, Mathematical Modelling of Binder Removal from Plastically-formed Engineering Ceramics, Advances in Computational Mathematics, 6(1996), 325-331.

  18. 18) J.H. Song, J.R.G. Evans, M.J. Edirisinghe and E.H. Twizell, Review: Gas Transport Coefficients in Ceramic Bodies during the Thermolysis of Organic Additives, International Materials Reviews, 41 (1996), 116-128.

  19. 19) J.H. Song and J.R.G. Evans, On the Machinability of Ceramic Compacts, J. Euro. Ceram. Soc. 17(1997), 1665-73.

  20. 20) J.H. Song, Compaction Behaviour of Ceramic Powders and Computer Modelling, Ch. Mater. Res. 2(1997), 50-61.

  21. 21) J.H. Song, J.R.G. Evans, M.J. Edirisinghe and E. H. Twizell, Multi-parameter Mapping of Polymer Properties for Fast Thermolysis of Powder Mouldings, J. Appl. Polym. Sci., 70(1998), 545-557.

  22. 22) J.H. Song, Applications of Solid Free Forming Techniques in the Fabrication of Ceramic Components, Ch. J. Mater. Res. 12(1998), 45-51.

  23. 23) M. Mott, J.H. Song and J.R.G. Evans, Microengineering of Ceramics by Direct Ink-Jet Printing, J. Am. Ceram. Soc., 82(1999) 1653-58.

    24) J.H. Song, M.J. Edirisinghe and J.R.G. Evans, Formulation and Multilayer Jet Printing of Ceramic Inks, J. Am. Ceram. Soc., 82(1999), 3374-80.

  24. 25) J.H. Song, J.R.G. Evans and M.J. Edirisinghe, Optimisation of Heating Schedules in Pyrolytic Binder Removal from Ceramic Mouldings, J. Mater. Res, 15 (2000), 449-457.

  25. 26) Z. Shi, Z. X. Guo and J. H. Song, Kinetic Modelling Of Binder Burnout For Optimisation Of Slurry-Powder Manufacturing Process of Ti/Sic Composites, Mater. Sci. & Tech, 16(2000), 843-47.

  26. 27) Z. Shi, X.Z.Guo and J. H. Song, Binder Removal Dynamics in a Ti-SiC Composite Prepared by a Powder Metallurgy Route, Ch. Mater. Res., 105(2001), 213-218.

  27. 28) X. L. Zhao, J. R. G. Evans, M. J. Edirisinghe and J. Song, Ceramic Freeforming using an Advanced Multi-nozzle Printer,  J. Mater. Synth. Proc. 9(2001), 319-327.

  28. 29) B. Wang, J.H. Song and Y. G. Kang, Modelling of the Mechanical Behaviour of Biodegradable Foams-from Physical Fundamentals to Applications, Chapter 7 in Engineering Plasticity and Impact Dynamics (Ed. L. C. Zhang), World Scientific, 2001, 117-134.

  29. 30) H. Nur, J. H. Song and J. R. G. Evans, Ink Jet Printing of Gold Conductive Tracks, J. Mater. Sci:: Mater. in Electronics, 13(2002), 213-19.

  30. 31) Z. Shi, Z.X. Guo and J. H. Song, A Diffusion-Controlled Kinetic Model For Binder Burnout In A Powder Compact, Acta, Mater, 50(2002), 1937-50.

  31. 32) B. Wang, J. Song and Y. Kang, On Modelling of Biodegradable Foams for Packaging Applications, Key Engineering Materials, 227(2002), 253-60.

  32. 33) X. L. Zhao, J. R. G. Evans, M. J. Edirisinghe and J. Song, Direct Ink Jet Printing of Vertical Walls, J. Am. Ceram. Soc. 85(2002), 2113-2115.

  33. 34) X. L. Zhao, J. R. G. Evans, M. J. Edirisinghe and J. Song, Ink-jet Printing of Ceramic Pillar Arrays, J. Mater. Sci., 37(2002), 1987-1992.

  34. 35) X. L. Zhao, J. R. G. Evans, M. J. Edirisinghe and J. Song, Formulation of a Ceramic In for a Wide Array Drop-on-demand Ink-Jet Printer, Ceramic Int. 29(2003), 887-892.

  35. 36) H. Nur, J.H. Song, Formation and Prevention of Defects and Prevention in Ceramic Components Fabricated by Inkjet Printing, J. Mater. Proc. Tech. 155-156(2004), 1286-1292

  36. 37) G. Davis and J. H. Song, Biodegradable Packaging Based on Raw Materials and Their Impact on Waste Management, Ind. Crop and Prod, 23(2006), 147-161

  37. 38) J. Zhou, J. Song and R. Parker, Structure and Properties of Starch-Based Foams Prepared by Microwave Heating from Extruded Pellets, Carbohydrate Polymers, 63(2006), 466-475.

  38. 39) J. Zhou, J. Song and R. Parker, Microwave-Assisted Moulding Using Expandable Extruded Pellets from Wheat Flours and Starch, Carbohydrate Polymers, 69(2007), 445-454

  39. 40) H.W. Chandler, C.M. Sands , J.H. Song, P.J. Withers and S.A. McDonald, A Plasticity Model for Powder Compaction Processes Incorporating Particle Deformation and Rearrangement, accepted by International Journal of Solids and Structures, doi:10.1016/j.ijsolstr.2007.11.021    

  40. 41) Szegda, D., Song, J., Warby, M.K. and Whiteman, J.R., Computational Modelling of a Thermoforming Process for Themoplastic Starch, in Materials Processing and Design; Modelling, Simulation and Applications 908(1)35-48, 2007; DOI:10.1063/1.2740788

  41. 42) H.W. Chandler, C.M. Sands, J.H. Song, P.J. Withers , S.A. McDonald, A plasticity model for powder compaction processes incorporating particle deformation and rearrangement, I. J. of Solids and Structures 45, 2056–2076, 2008.

  42. 43) Y. G. Kang and J Song, Structure and compression behaviour of macro-composite starch foams, Journal of Cellular Plastic,45(2009), 33-49.  

  43. 44) Y. G. Kang, W. Xia, J. Song and K. Traverdi, Extrusion fractionation of wheat straw for biocomposites utilising the entire straw constituents, Int. J. Mater. Prod. Tech. 36(1-4) 2009,  334 – 347.

  44. 45) J. Song R.J. Murphy, R. Narayan and G. Davies Biodegradable and compostible alternatives to conventional plastics. Phil. Trans. R. Soc. B (2009) 1, 1–12 

  45. 46) Wendy Xia, Jim Song, Karnik Tarverdi and Yong Gang Kang, Wheat Straw and Wheat Flour Biocomposites Prepared by Extrusion Process, Journal of Biobased Materials and Bioenergy, 4(2010), 1–9.

  46. 47) Damian Szegda, Sitthi Daungphet, Jim Song and Karnik Tarverdi EXTRUSION FOAMING AND RHEOLOGY OF PHBV, Foam 2010 Seattle, USA October 2010. 

  47. 48) Yong Wang, Yun-Xin Gao, Jim Song, Michael Bonin, Miao Guo and Richard Murphy, Assessment of technical and environmental performances of wheat based foams in thermal packaging applications, Packag. Technol. Sci. 2010; 23: 363–382

  48. 49) Sitthi Daungphet, Jim Song and Karnik Tarverdi, The Effect of Chain Extender on Poly(3-hydroxybutyrate-co-3-hydroxyvalerate): Thermal Degradation, Crystallization, and Rheological Behaviours. J Poly Envir. DOI: 10.1007/s10924-012-05685 online: http://link.springer.com/article/10.1007/s10924-012-0568-5 .

  49. 50) X. Peng, J. Song , A. Nesbitt  and R. Day, Microwave Foaming of Starch-based   Materials(I) Dielectric Performance, Cellular Plastics , 49(3) 245–258, 2013 

  50. 51) X. Peng, J. Song , A. Nesbitt  and R. Day, Microwave Foaming of Starch-based   Materials(II) Thermo-mechanical Performance, Cellular Plastics, 49(2) 147–160, 2013

  51. 52) Damian Szegda, Sitthi Duangphet,Jim Song and Karnik Tarverdi, Extrusion foaming of PHBV, Journal of Cellular Plastics, DOI: 10.1177/0021955X13505249

  52. 53) L. Zhao, W. Xia, K. Tarverdi and J. Song, Biocomposite boards from wheat straw

  53. without addition of bonding agent, Journal of Materials Science and Technology,  30(5), 2014, 603-610

  54. 54) Panagiotis Tsimiklis, Fabrizio Ceschin, Sheng Feng Qin, Stephen Green, Jim Song, Tom Rodden, Sharon Baurley, Charalampos Makatsoris, “A Consumer-Centric Open Innovation Framework for Food and Packaging Manufacturing”, International Journal of Knowledge and Systems Science, 6(3), 52-69, 2015.

  55. 55) Muhammad Shaheer, Mike Troughton, Amir Khamsehnezhad and Jim Song, A study of the micro-mechanical properties of butt fusion-welded joints in HDPE pipes using the nanoindentation technique, Welding in the World, 61(4), 2017, 819–831

  56. 56) Kun Qi,  Jim Song, Karnik Tarverdi, Recycling of mixed plastics using PIM technology Part I - Influence of impurities in the feedstock on mechanical properties of PIM sandwich panels, accepted by Journal of Environment Engineering 

  57. 57) Kun Qi,  Jim Song, Karnik Tarverdi, Recycling of mixed plastics using PIM technology Part II - Influence of loading and flake size of mixed plastics on mechanical properties of PIM sandwich panels accepted by Journal of Environment Engineering 

  58. 58) J. Harris etc and J Song, A critical review of international standards for bio-degradability, accepted by J. Roy. Soc. 

  59. 59) L. Zhao, W. Xia, K. Tarverdi and J. Song, wheat straw-biopolymers composites, accepted by Environmental Polymers.

  60. 60) Sitthi Duangphet and Jim Song, Thermal stabilisation of PHBV composites, accepted by Environmental Polymers.

  61. 61) J Song, M. Kay and R. Coles Chapter 11 Bioplastics, in “Food Packaging Technology”,   2nd Ed,  (Ed. R Cloes et al)   Blackwell Publishing, 2009.

  62. 62) J. Song, Chapter 7, Starch foams in “Bio-foams, Science and applications of bio-based cellular and porous Materials” (C. Park etc), CRC Press, 2015. 

获奖和专利

  1. 1) Joint silver prize winner in “Innovative Technology, 1987”, China State Council of Science and Engineering for ”High Strength Steel Wire-Cable Connectors”.

  2. 2) Principal Inventor in patent “RPS technology and processing equipment” (GB 0409714.3)

  3. 3) Principal inventor in patent “Compression moulding of biodegradable foams” (GB 0514489.4).  

  4. 4) Principal Inventor in “Bio-based hydro-gel foaming technology and novel ultralow density composites”, International patent in processing.  

652973