Items where Kingston Author is "Al-Khazali, Hisham"

Up a level
Export as [feed] Atom [feed] RSS
Group by: Item Type | No Grouping
Number of items: 31.

Al-Khazali, H. and Askari, M. (2013) Gyroscopic effects on a cantilever rotor system – a comparative analysis. In: NWC2013, NAFEMS 14th World Congress; 9-12 June 2013, Salzburg, Austria. (Unpublished)

Al-Khazali, H.A.H. and Askari, M.R. (2013) Improvement of safety engineering design in rotating structures by detection of resonance frequency signals. In: SEM 2013 Annual Conference & Exposition on Experimental and Applied Mechanics; 3-5 June 2013, Lombard, USA. (Unpublished)

Al-Khazali, Hisham Ahmad Humadi (2012) Application of modal testing methods in rotating machinery. (PhD thesis), Kingston University, .

Al-Khazali, H.A.H. and Askari, M.R. (2012) Detect resonance frequency in rotor machines for improve safety engineering design. In: 7th International IET System Safety Conference, incorporating the Cyber Security Conference 2012; 15-18 October 2012, Edinburgh, UK. (Unpublished)

Al-Khazali, H.A. and Askari, M.R. (2012) Importance of using vibration signal characteristics for the diagnosis of rotor vibrations. In: ICAST 2012, 23rd International Conference on Adaptive Structures and Technologies; 11-13 October 2012, Nanjing, China. (Unpublished)

Al-Khazali, H.A.H. and Askari, M.R. (2012) Investigate balancing in rotating structures using modal testing and analysis results for structural health monitoring purpose and design. International Review of Modelling and Simulations (IREMOS), 5(5 A), pp. 2104-2118. ISSN (print) 1974-9821

Al-Khazali, H. and Askari, M. (2012) Significance of fault diagnosis and reduced shock module in rotating machinery by data collectors using trending software and modal analysis. International Review of Modelling and Simulations, 5(4), pp. 1867-1875. ISSN (online) 1974-983X

Al-Khazali, H. and Askari, M. (2012) Significance of fault diagnosis and reduced shock module in rotating machinery by data collectors using trending software and modal analysis. In: 3rd International Conference on Modelling and Simulations (ICOMOS 2012 - VF); 16-30 July 2012, Naples, Italy.

Al-Khazali, Hisham A.H. and Askari, Mohamad R. (2012) Analyzing rotating data for machines rotor with high speeds using the spectral map wizard. International Journal of Scientific and Engineering Research, 3(6), pp. 1-11. ISSN (print) 2229-5518

Al-Khazali, Hisham A.H. and Askari, Mohamad R. (2012) Determination and simulation of modal parameter on revolving machines using vibration analysis. In: EACS 2012 5th European Conference on Structural Control; 18-20 June 2012, Genoa, Italy.

Al-Khazali, H. and Askari, M. (2012) Dynamic investigational using the spectral chart wizard and modal testing data in rotors systems. International Review of Modelling and Simulations (IREMOS), 5(3), pp. 1360-1367. ISSN (print) 1974-9821

Al-Khazali, Hisham A.H. and Askari, Mohama R. (2012) Geometrical and graphical representations analysis of lissajous figures in rotor dynamic system. IOSR Journal of Engineering, 2(5), pp. 971-978. ISSN (online) 2250-3021

Al-Khazali, Hisham and Askari, Mohamad (2012) Thermal effects for shaft–pre-stress on rotor dynamic system. International Journal of Research and Reviews in Applied Sciences, 11(2), pp. 285-290. ISSN (print) 2076-734X

Al-Khazali, Hisham A.H. and Askari, Mohamad R. (2012) Improvement modal testing in dynamics revolves structures to investigate the gyroscope effect performance. International Journal of Science and Technology, 1(3), pp. 151-163. ISSN (online) 2049-7318

Al-Khazali, H.A.H. and Askari, M.R. (2012) System identification in rotating structures using vibration and modal analysis. In: IMAC XXX Conference and Exposition on Structural Dynamics, 30 years of Modal Analysis, From laboratory to real world.; 30 Jan - 02 Feb 2012, Florida, U.S.. (Unpublished)

Al-Khazali, Hisham A.H. and Askari, Mohamad R. (2012) The experimental analysis of vibration monitoring in system rotor dynamic with validate results using simulation data. ISRN Mechanical Engineering, 2012, ISSN (print) 2090-5122

Al-Khazali, Hisham A.H. and Askari, Mohamad R. (2012) Defect diagnosis in rotors systems by vibrations data collectors using trending software. International Journal of Advanced Computer Science and Applications, 3(5), pp. 33-43. ISSN (print) 2158-107X

Al-Khazali, H.A.H. and Askari, M.R. (2012) Investigational analysis using Lissajous figures in rotating machinery. International Journal of Mechanical Engineering and Materials Science, 5(2), pp. 77-82. ISSN (print) 0974-584x

Al-Khazali, H.A.H. and Askari, M.R. (2012) System Identification in Rotating Structures using Vibration and Modal Analysis. In: Allemang, R. , De Clerck, J. , Niezrecki, C. and Blough, J.R., (eds.) Topics in Modal Analysis I, Volume 5. New York, U.S. : Springer-Verlag. pp. 481-497. (Conference Proceedings of the Society for Experimental Mechanics, 30(30)) ISSN (print) 2191-5644 ISBN 9781461424246

Al-Khazali, Hisham and Askari, Mohamad R. (2011) Calculations of frequency response functions (FRF) using computer smart office software and Nyquist Plot under Gyroscopic effect rotation. International Journal of Computer Science, Information Technology & Security, 1(2), pp. 90-97. ISSN (print) 2250-1355

Al-Khazali, H.A.H. and Askari, M.R. (2011) Detection of gyroscopic effect in rotating machinery from the modal data. In: National Symposium on Rotordynamics (NSRD-2011); 19-21 Dec 2011, Madras, India. (Unpublished)

Al-Khazali, Hisham (2011) Establish a system identification methodology of modal testing using the analytical/computational techniques in rotating machinery. In: 2011 ANSYS UK User Conference; 09 Nov 2011, Gaydon, U.K.. (Unpublished)

Al-Khazali, H.A. and Askari, M.R. (2011) Accurate identification of performance for rotor-bearing systems using the modified modelling under gyroscopic effect. International Journal of Modern Engineering Research, 1(2), pp. 527-537. ISSN (online) 2249-6645

Al-Khazali, Hisham Ahmad Humadi (2011) Balancing in rotating machinery using system identification/modal analysis. In: Faculty of Science, Engineering and Computing Research Seminar; 30 Nov 2011, London, U.K.. (Unpublished)

Al-Khazali, H. and Askari, M. (2011) Condition monitoring and fault diagnosis in rotating machinery using modal test & finite element analysis. In: The 4th International Conference: Computational Mechanics and Virtual Engineering COMEC 2011; 20-22 Oct 2011, Brasov, Romania. (Unpublished)

Al-Khazali, H.A.H. and Askari, M.R. (2011) Validation of modal data in rotating machinery using finite element analysis. In: ICAST 2011, 22nd International conference on adaptive structures and technologies, University of Patras, Greece; 10-12 Oct 2011, Corfu, Greece. (Unpublished)

Al-Khazali, Hisham A. and Askari, Mohamad R. (2011) Computer simulation to investigate system identification and vibration monitoring in rotor dynamic analysis. International Journal of Advances in Science and Technology, 3(4), pp. 1-15. ISSN (print) 2229-5216

Al-Khazali, Hisham Ahmad Humadi (2011) Discover gyroscopic effect in rotating structures using experimental modal analysis and finite element data. In: Conference of Engineering Sciences; 01-02 Oct 2011, London, UK. (Unpublished)

Al-Khazali, H. A. H. and Askari, M. R. (2011) Experimental technique to investigate vibration monitoring in revolving structures using oscilloscopic/modal testing. International Journal of Engineering Science and Technology, 3(10), pp. 7799-7814. ISSN (online) 0975-5462

Al-Khazali, H.A. and Askari, M.R. (2011) Modal analysis design to exposure gyroscopic effect in rotating machinery using experimental and analytical/computational techniques. International Journal of Engineering Science and Technology, 3(9), pp. 7234-7243. ISSN (online) 0975-5462

Al-Khazali, H. A. H. and Askari, M. R. (2011) Application of modal testing and finite element modelling in rotating structures. In: 2nd International Conference on Modelling and Simulations (ICOMOS - VF) Virtual Forum 2011; 11-25 Jul 2011, Naples, Italy. (Unpublished)

This list was generated on Fri Dec 20 03:17:05 2024 GMT.