Picture of a satellite in orbit.

Open Access research that solves space system engineering problems...

Strathprints makes available scholarly Open Access content by scholars in the Departments of Mechanical & Aerospace Engineering, Electronic & Electrical Engineering, and Design, Manufacturing & Engineering Management -- all active in the areas of space systems engineering, space mechatronics, aerospace and astronautical engineering. This spans a wide variety of topics such as nano-satellites, self-assembling spacecraft, robotics, flightpath mechanics, orbital dynamics, trajectory design and optimization, autonomous navigation and planning -- and with almost all research outputs openly available through Strathprints.

Explore the Open Access research of the Mechanical & Aerospace Engineering, Electronic & Electrical Engineering, and Design, Manufacturing & Engineering Management. Or explore all of Strathclyde's Open Access research...

Browse by Journal or other publication

Group by: Publication Date | Item type | No Grouping
Jump to: 2020 | 2013 | 2008 | 2004 | 2001
Number of items: 11.

2020

Kerr, Monica M. and Gourlay, Terence (2020) Design and numerical simulation for the development of an expandable paediatric heart valve. International Journal of Artificial Organs. ISSN 0391-3988

Davis, Paul and Robertson, Craig and Gourlay, Terry (2020) Development of a dual-pneumatic tourniquet for haemorrhage control in austere military environments. International Journal of Artificial Organs, 43 (8). pp. 548-549. ISSN 0391-3988

Robertson, Craig and Davis, Paul and Morton, Joanne and Simpson, Craig and Gourlay, Terry (2020) Ex vivo testing of a novel, tissue-preserving technology for battlefield deployment and limb perfusion support technology that provides long-term circulatory support to systemically-isolated injured limbs. International Journal of Artificial Organs, 43 (8). p. 548. ISSN 0391-3988

Gourlay, Terry and Kerr, Monica (2020) Design and numerical simulation for the development of an expandable paediatric heart valve. International Journal of Artificial Organs, 43 (8). p. 534. ISSN 0391-3988

Kerr, Monica Mary and Gourlay, Terry (2020) A feasibility study on 3D modelling of cardiac implants in children to improve outcomes in surgery. International Journal of Artificial Organs. ISSN 0391-3988 (In Press)

2013

Nelson, L. N. and Grant, H. G. and Henderson, C. H. and Navarro, M. N. and Plevris, J. P. and Treskes, P. T. (2013) Utility of dynamic testosterone profiling for assessing human hepatic culture systems for 3D tissue engineering/pharma applications. International Journal of Artificial Organs, 36 (8). p. 586. ISSN 0391-3988

Busby, Grahame and Riches, Philip and Grant, Mary and MacKay, Simon (2013) The effect of cell ingrowth on the mechanical behaviour of anchored collagen gels. International Journal of Artificial Organs, 36 (8). p. 567. O106. ISSN 0391-3988

2008

Alnaqbi, A.H. and Gaylor, J.D.S. (2008) Mathematical model of oxygen transfer rate in the fibre-in-fibre bioartificial liver (fif- bal). International Journal of Artificial Organs, 31 (7). p. 654. ISSN 0391-3988

2004

Giavaresi, G. and Tschon, M. and Daly, J.H. and Liggat, J.J. and Fini, M. and Torricelli, P. and Giardino, R. (2004) Natural and synthetic polyesters for musculoskeletal tissue repair: experimental in vitro and in vivo evaluations. International Journal of Artificial Organs, 27 (9). pp. 796-805. ISSN 0391-3988

2001

Catapano, G. and Euler, M. and Gaylor, J.D.S. and Gerlach, J. (2001) Characterization of the distribution of matter in hybird liver support devices where cells are cultured in a 3-D membrane network or on flat substrata. International Journal of Artificial Organs, 24 (2). pp. 102-109. ISSN 0391-3988

Grant, M.H. and Rogers, E.H. and Anderson, K.P. and Haydon, G.H. and Hayes, P.C. (2001) The effect of serum from liver cancer patients on the growth and function of primary and immortalised hepatocytes. International Journal of Artificial Organs, 24 (11). pp. 807-813. ISSN 0391-3988

This list was generated on Wed Apr 14 20:08:15 2021 BST.