Abstract

Cricket is a popular and increasingly wealthy bat-and-ball sport. Cricket bats made from willow are the focus of increasing scientific research and innovat

+More

Keywords

Cricket willow focus bats research bat ball sport innovat

Cite this article

Mohammad Sadegh Mazloomi,Philip D. Evans,Mohammad Saadatfar,.Designing cricket bats using parametric modeling and genetic algorithms. (),1-14.

Mohammad Sadegh Mazloomi,Philip D. Evans,Mohammad Saadatfar,"Designing cricket bats using parametric modeling and genetic algorithms"

Mohammad Sadegh Mazloomi,Philip D. Evans,Mohammad Saadatfar,"Designing cricket bats using parametric modeling and genetic algorithms"

References

Bahree M (2018) Wicket thicket. Forbes Asia 14(1):12–14

Cross R (1998) The sweet spot of a baseball bat. Am J Phys 66(9):772–779

McKay M, Beckman R, Conover W (1979) A comparison of three methods for selecting values of input variables in the analysis of output from a computer code. Technometrics 21:239–245

Svanberg K (1987) The method of moving asymptotes—a new method for structural optimization. Int J Numer Methods Eng 24:359–373

Katiyar AK, Murtaza ST, Ali S (2018) Determining geometrical parameters for a referenced cricket bat handle. Eur J Phys Educ Sport Sci 4(3):158–164

Russel DA (2017) Acoustics and vibration of baseball and soft ball bats. Acoust Today 13(4):35–42

Allen T, Fauteux-Brault O, James D, Curtis D (2014) Finite element model of a cricket ball impacting a bat. Procedia Eng 72:521–526

Sutton AD (2008) Using modal analysis to investigate bat–ball performance of baseball bats. University of Massachusetts, Lowell, Lowell

Knowles S, Brooks F, Mather JSB (1996) Novel design of sports equipment through impact vibration analysis. In: Proceedings-SPIE the international society for optical engineering, pp 390–396

Singh H (2008) Experimental and computer modelling to characterize the performance of cricket bats. Washington State University, United States

Mazloomi MS, Ranjbar M, Boldrin L, Scarpa F, Patsias S, Ozada N (2018) Vibroacoustics of 2D gradient auxetic hexagonal honeycomb sandwich panels. Compos Struct 187:593–603

Svanberg K (2002) A class of globally convergent optimization methods based on conservative convex separable approximations. SIAM J Optim 12(2):555–573

Van Zandt LL (1992) The dynamical theory of the baseball bat. Am J Phys 60(2):172–181

Symes AW (2006) The effect of mass distribution on cricket bat playing properties. Ph.D. Thesis, Loughborough University, United Kingdom

Mazloomi MS, Ranjbar M, Boldrin L, Scarpa F, Ozada N (2017) Structural-acoustic optimization of 2-D gradient auxetic sandwich panels. In: Medyna proceedings, pp 194–199

Eftaxiopoulou T, Narayanan A, Dear JP, Bull AMJ (2012) A performance comparison between cricket bat designs. Proc Inst Mech Eng Part P J Sports Eng Technol 226(1):16–23

Noble L, Walker H (1994) Baseball bat inertial and vibrational characteristics and discomfort following ball–bat impacts. J Appl Biomech 10(2):132–144

Fu ZF, He J (2001) Modal analysis. Butterworth-Heinemann, Oxford

James D, Curtis D, Allen T, Rippin T (2012) The validity of a rigid body model of a cricket ball–bat impact. Procedia Eng 34:682–687

Smith LV, Singh H (2008) An examination of cricket bat performance. Eng Sport 7:474–482

Curtis D, Hurt G, Heller B (2014) The reliability of a tapping test as an indicator of cricket bat performance. Procedia Eng 72:666–671

Bower R (2012) The sweet spot of a cricket bat for low speed impacts. Sport Eng 15(2):53–60

Vedula G, Sherwood JA (2004) An experimental and finite element study of the relationship amongst the sweet spot, cop and vibration nodes in baseball bats. In: Proceedings of 5th conference on engineering of sport, vol 2, pp 626–632

John S, Li ZB (2002) Multi-directional analysis of cricket bats. Eng Sport 4(1):96–103

Marylebone Cricket Club (MCC) (2000) The laws of cricket. Marylebone Cricket Club, London

Brooks R, Mather JSB, Knowles S (2006) The influence of impact vibration modes and frequencies on cricket bat performance. Proc Inst Mech Eng Part L J Mater Des Appl 220(4):237–248

Weyrich AS, Messier SP, Ruhmann BS, Berry MJ (1989) Effects of bat composition, grip firmness, and impact location on postimpact ball velocity. Med Sci Sports Exerc 21(2):199–205

Swanson Analysis System Inc. (2014) ANSYS. Academia Research, Release 14

Garner AWB, Newbery JL (1980) Cricket bat. US Patent 4,186,923. filed February 5

Jane FW (1970) Structure of wood. A & C Black, London

Noble L, Eck J (1986) Effects of selected softball bat loading strategies on impact reaction impulse. Med Sci Sport Exerc 18(1):50–59

Turrin M, Von Buelow P, Stouffs R (2011) Design explorations of performance driven geometry in architectural design using parametric modeling and genetic algorithms. Adv Eng Informatics 25(4):656–675

Petelet M, Iooss B, Asserin O, Loredo A (2010) Latin hypercube sampling with inequality constraints. AStA Adv Stat Anal 94(4):325–339

Subic AJ, Cooke AJ (2003) Materials in cricket. Mater Sport Equip 1:342–375