Historical Origin and Recent Development on Normal Directional Impact Models for Rigid Body Contact Simulation: A Critical Review

Flores P et al (2008) Kinematics and dynamics of multibody systems with imperfect joints: models and case studies, vol 34. Springer, Berlin

Nikravesh PE (2008) Newtonian-based methodologies in multi-body dynamics. Proc Inst Mech Eng Part K J Multi-body Dyn 222(4):277–288

Nikravesh PE (1988) Computer-aided analysis of mechanical systems. Prentice-Hall, Inc, Upper Saddle River

Ambrósio J, Verissimo P (2009) Improved bushing models for general multibody systems and vehicle dynamics. Multibody Syst Dyn 22(4):341–365

Flores P (2009) Modeling and simulation of wear in revolute clearance joints in multibody systems. Mech Mach Theory 44(6):1211–1222

Machado M et al (2010) Development of a planar multibody model of the human knee joint. Nonlinear Dyn 60(3):459–478

Alves J et al (2015) A comparative study of the viscoelastic constitutive models for frictionless contact interfaces in solids. Mech Mach Theory 85:172–188

Bhalerao K, Anderson K (2010) Modeling intermittent contact for flexible multibody systems. Nonlinear Dyn 60(1–2):63–79

Choi J et al (2010) An efficient and robust contact algorithm for a compliant contact force model between bodies of complex geometry. Multibody Syst Dyn 23(1):99–120

Ebrahimi S, Hippmann G, Eberhard P (2005) Extension of the polygonal contact model for flexible multibody systems. Int J Appl Math and Mech 1(1):33–50

Flores P, Leine R, Glocker C (2012) Application of the nonsmooth dynamics approach to model and analysis of the contact-impact events in cam-follower systems. Nonlinear Dyn 69(4):2117–2133

Hirschkorn M, McPhee J, Birkett S (2005) Dynamic modeling and experimental testing of a piano action mechanism. J Comput Nonlinear Dyn 1(1):47–55

Minamoto H, Kawamura S (2011) Moderately high speed impact of two identical spheres. Int J Impact Eng 38(2–3):123–129

Dimitrakopoulos E (2010) Analysis of a frictional oblique impact observed in skew bridges. Nonlinear Dyn 60(4):575–595

Dimitrakopoulos E, Kappos AJ, Makris N (2009) Dimensional analysis of yielding and pounding structures for records without distinct pulses. Soil Dyn Earthq Eng 29(7):1170–1180

Dimitrakopoulos E, Makris N, Kappos A (2010) dimensional analysis of the earthquake response of a pounding oscillator. J Eng Mech 136(3):299–310

Dimitrakopoulos E, Makris N, Kappos AJ (2009) Dimensional analysis of the earthquake-induced pounding between adjacent structures. Earthq Eng Struct Dyn 38(7):867–886

Dimitrakopoulos EG (2013) Nonsmooth analysis of the impact between successive skew bridge-segments. Nonlinear Dyn 74(4):911–928

Julian FDR, Hayashikawa T, Obata T (2007) Seismic performance of isolated curved steel viaducts equipped with deck unseating prevention cable restrainers. J Constr Steel Res 63(2):237–253

Anagnostopoulos SA (1988) Pounding of buildings in series during earthquakes. Earthq Eng Struct Dyn 16(3):443–456

Anagnostopoulos SA, Spiliopoulos KV (1992) An investigation of earthquake induced pounding between adjacent buildings. Earthq Eng Struct Dyn 21(4):289–302

Cole G et al (2010) Interbuilding pounding damage observed in the 2010 Darfield earthquake. Bull N Z Soc Earthq Eng 43(4):382

Cole GL (2012) The effects of detailed analysis on the prediction of seismic building ounding performance in Civil Engineering. University of Canterbury, Canterbury

Cole GL, Dhakal RP, Turner FM (2012) Building pounding damage observed in the 2011 Christchurch earthquake. Earthq Eng Struct Dyn 41(5):893–913

Fleischmann J (2015) DEM-PM contact model with multi-step tangential contact displacement history. Simulation-Based Engineering Laboratory, University of Wisconsin-Madison, Madison

Mishra BK (2003) A review of computer simulation of tumbling mills by the discrete element method: part II—practical applications. Int J Miner Process 71(1–4):95–112

Williams JR, O’Connor R (1999) Discrete element simulation and the contact problem. Arch Comput Methods Eng 6(4):279–304

Beheshti HK, Lankarani HM (2006) A simplified test methodology for crashworthiness evaluation of aircraft seat cushions. Int J Crashworthiness 11(1):27–35

Carvalho M, Ambrosio J (2011) Development of generic road vehicle multibody models for crash analysis using an optimisation approach. Int J Crashworthiness 16(5):537–556

Sousa L, Veríssimo P, Ambrósio J (2008) Development of generic multibody road vehicle models for crashworthiness. Multibody Syst Dyn 19(1–2):133–158

Erkaya S, Uzmay İ (2008) A neural–genetic (NN–GA) approach for optimising mechanisms having joints with clearance. Multibody Syst Dyn 20(1):69–83

Flores P, Lankarani H (2010) Spatial rigid-multibody systems with lubricated spherical clearance joints: modeling and simulation. Nonlinear Dyn 60(1–2):99–114

Xu L-X et al (2012) Modeling and analysis of planar multibody systems containing deep groove ball bearing with clearance. Mech Mach Theory 56:69–88

Izadbakhsh A, McPhee J, Birkett S (2008) Dynamic modeling and experimental testing of a piano action mechanism with a flexible hammer shank. J Comput Nonlinear Dyn 3(3):031004

Hegazy S, Rahnejat H, Hussain K (2000) Multi-body dynamics in full-vehicle handling analysis under transient manoeuvre. Veh Syst Dyn 34(1):1–24

Iwnicki S (2006) Handbook of railway vehicle dynamics. CRC Press, Boca Raton

Jalili MM, Salehi H (2011) Wheel/rail contact model for rail vehicle dynamics. C R Mécanique 339(11):700–707

Mermertas V (1998) Dynamic interaction between the vehicle and simply supported curved bridge deck. Comput Methods Appl Mech Eng 162(1):125–131

Rubinstein D, Hitron R (2004) A detailed multi-body model for dynamic simulation of off-road tracked vehicles. J Terrramech 41(2–3):163–173

Shabana A, Sany J (2001) A survey of rail vehicle track simulations and flexible multibody dynamics. Nonlinear Dyn 26(2):179–212

Vollebregt E, Segal G (2014) Solving conformal wheel–rail rolling contact problems. Vehicle System Dynamics 52(sup1):455–468

Weidemann C (2010) State-of-the-art railway vehicle design with multi-body simulation. J Mech Syst Transp Logist 3(1):12–26

Yang YB, Yau J (1997) Vehicle-bridge interaction element for dynamic analysis. J Struct Eng 123(11):1512–1518

Yang YB, Lin CW (2005) Vehicle–bridge interaction dynamics and potential applications. J Sound Vib 284(1–2):205–226

Bi SS, Zhou XD, Marghitu DB (2012) Impact modelling and analysis of the compliant legged robots. Proc Inst Mech Eng Part K J Multi-body Dyn 226(2):85–94

Marhefka DW, Orin DE (1999) A compliant contact model with nonlinear damping for simulation of robotic systems. IEEE Trans Syst Man Cybern Part A Syst Hum 29(6):566–572

Verscheure D et al (2010) Identification of contact parameters from stiff multi-point contact robotic operations. Int J Robot Res 29(4):367–385

Argatov I (2012) Development of an asymptotic modeling methodology for tibio-femoral contact in multibody dynamic simulations of the human knee joint. Multibody Syst Dyn 28(1–2):3–20

Argatov I, Mishuris G (2015) Articular contact mechanics. In: Contact mechanics of articular cartilage layers. Springer: Berlin, pp 229–259

Askari E et al (2014) Study of the friction-induced vibration and contact mechanics of artificial hip joints. Tribol Int 70:1–10

Morales-Orcajo E, Bayod J, Barbosa de Las Casas E (2015) Computational foot modeling: scope and applications. Arch Comput Methods Eng. doi: 10.1007/s11831-015-9146-z

Silva P, Silva M, Martins J (2010) Evaluation of the contact forces developed in the lower limb/orthosis interface for comfort design. Multibody Syst Dyn 24(3):367–388

Das R, Cleary PW (2010) Effect of rock shapes on brittle fracture using Smoothed Particle Hydrodynamics. Theor Appl Fract Mech 53(1):47–60

Das R, Cleary PW (2008) Modelling 3D fracture and fragmentation in a thin plate under high velocity projectile impact using SPH. In: 3rd SPHERIC workshop. Lausanne, Switzerland

Liu M, Liu G (2010) Smoothed particle hydrodynamics (SPH): an overview and recent developments. Arch Comput Methods Eng 17(1):25–76

Das R, Cleary PW (2008) Modelling brittle fracture and fragmentation of a column during projectile impact using a mesh-free method. In: 6th International Conference on CFD in Oil & Gas, Metallurgical and Process Industries. Trondheim, Norway

Das R, Rao S, Lin RJT (2013) Impact behaviour of elastomer based fibre metal laminates. In: Proceedings of the 19th International Conference on Composite Materials (ICCM19). Montreal, Canada

Shaw MC, Das R, Chanda A (2016) 3.11 damage tolerance, reliability and fracture characteristics of multilayered engineering composites. In: Reference Module in Materials Science and Materials Engineering. Elsevier: New York

Dopico D et al (2011) Dealing with multiple contacts in a human-in-the-loop application. Multibody Syst Dyn 25(2):167–183

Gonzalez-Perez I, Iserte JL, Fuentes A (2011) Implementation of Hertz theory and validation of a finite element model for stress analysis of gear drives with localized bearing contact. Mech Mach Theory 46(6):765–783

Pham H-T, Wang D-A (2011) A constant-force bistable mechanism for force regulation and overload protection. Mech Mach Theory 46(7):899–909

Zhu S, Zwiebel S, Bernhardt G (1999) A theoretical formula for calculating damping in the impact of two bodies in a multibody system. Proc Inst Mech Eng Part C J Mech Eng Sci 213(3):211–216

Machado M et al (2012) Compliant contact force models in multibody dynamics: evolution of the Hertz contact theory. Mech Mach Theory 53:99–121

Dietl P, Wensing J, Van Nijen G (2000) Rolling bearing damping for dynamic analysis of multi-body systems—experimental and theoretical results. Proc Inst Mech Eng Part K J Multi-body Dyn 214(1):33–43

Hunt KH, Crossley FRE (1975) Coefficient of restitution interpreted as damping in vibroimpact. J Appl Mech 42(2):440–445

Moreira P, Flores , Silva M (2012) A biomechanical multibody foot model for forward dynamic analysis. In: Bioengineering (ENBENG), 2012 IEEE 2nd Portuguese Meeting, IEEE

Hertz H (1882) Über die Berührung fester elastischer Körper. Journal f¨ur die Reine und Angewandte Mathematik 29:156–171

Hertz H (1881) On the contact of elastic solids. J Reine Angew Math 92(156–171):110

Inc A (2007) ANSYS Theory Manual, Release 11

ABAQUS U (2001) User’s and Theory Manuals. HKS Inc.: Pawtuchet, US

Manual AUS (2007) Version 6.7. Hibbit, Karlsson & Sorensen

Wriggers P, Laursen TA (2006) Computational contact mechanics, vol 30167. Springer, Berlin

Flores P et al (2007) Dynamic behaviour of planar rigid multi-body systems including revolute joints with clearance. Proc Inst Mech Eng Part K J Multi-body Dyn 221(2):161–174

Pereira MS, Nikravesh P (1996) Impact dynamics of multibody systems with frictional contact using joint coordinates and canonical equations of motion. Nonlinear Dyn 9(1–2):53–71

Mahmoud S, Jankowski R (2011) Modified linear viscoelastic model of earthquake-induced structural pounding. Iran J Sci Technol 35:51–62

Shivaswamy S, Lankarani HM (1997) Impact analysis of plates using quasi-static approach. J Mech Des 119(3):376–381

Flores P, Ambrósio J (2010) On the contact detection for contact-impact analysis in multibody systems. Multibody Syst Dyn 24(1):103–122

Greenwood DT (1988) Principles of dynamics. Prentice-Hall, Englewood Cliffs

Lankarani H, Nikravesh P (1988) Application of the canonical equations of motion in problems of constrained multibody systems with intermittent motion. Adv Des Autom 1:417–423

Shabana AA (2013) Dynamics of multibody systems. Cambridge University Press, Cambridge

van Mier JG et al (1991) Load-time response of colliding concrete bodies. J Struct Eng 117(2):354–374

Goldsmith W (2001) Impact. Courier Corporation, North Chelmsford

Stronge WJ (2004) Impact mechanics. Cambridge University Press, Cambridge

Zhang X, Vu-Quoc L (2002) Modeling the dependence of the coefficient of restitution on the impact velocity in elasto-plastic collisions. Int J Impact Eng 27(3):317–341

Jackson RL, Green I, Marghitu DB (2010) Predicting the coefficient of restitution of impacting elastic-perfectly plastic spheres. Nonlinear Dyn 60(3):217–229

Lee TW, Wang AC (1983) On the dynamics of intermittent-motion mechanisms. Part 1: dynamic model and response. J Mech Transm Autom Des 105(3):534–540

Najafabadi SAM, Kövecses J, Angeles J (2008) Generalization of the energetic coefficient of restitution for contacts in multibody systems. J Comput Nonlinear Dyn 3(4):041008

Seifried R, Schiehlen W, Eberhard P (2010) The role of the coefficient of restitution on impact problems in multi-body dynamics. Proc Inst Mech Eng Part K J Multi-body Dyn 224(3):279–306

Zhang Y, Sharf I (2009) Validation of nonlinear viscoelastic contact force models for low speed impact. J Appl Mech 76(5):051002

Glocker C (2001) On frictionless impact models in rigid-body systems. Philos Trans R Soc Lond A Math Phys Eng Sci 359(1789):2385–2404

Glocker C (2001) Set-valued force laws: dynamics of non-smooth systems, vol 1. Springer, Berlin

Atkinson KE (2008) An introduction to numerical analysis. Wiley, New York

Gilardi G, Sharf I (2002) Literature survey of contact dynamics modelling. Mech Mach Theory 37(10):1213–1239

Glocker C (2004) Concepts for modeling impacts without friction. Acta Mech 168(1–2):1–19

Hippmann G (2004) An algorithm for compliant contact between complexly shaped bodies. Multibody Syst Dyn 12(4):345–362

Lopes DS et al (2010) A mathematical framework for rigid contact detection between quadric and superquadric surfaces. Multibody Syst Dyn 24(3):255–280

Flores P, Ambrósio J (2004) Revolute joints with clearance in multibody systems. Comput Struct 82(17–19):1359–1369

Flores P, Leine R, Glocker C (2011) Modeling and analysis of rigid multibody systems with translational clearance joints based on the nonsmooth dynamics approach. In: Arczewski K et al (eds) Multibody dynamics. Springer, Netherlands, pp 107–130

Johnson K (1982) One hundred years of Hertz contact. Proc Inst Mech Eng 196(1):363–378

Brogliato B (1999) Nonsmooth mechanics: models, dynamics and control. Springer, Berlin

Guess TM, Maletsky LP (2005) Computational modelling of a total knee prosthetic loaded in a dynamic knee simulator. Med Eng Phys 27(5):357–367

Yang D, Sun Z (1985) A rotary model for spur gear dynamics. J Mech Des 107(4):529–535

Dubowsky S, Freudenstein F (1971) Dynamic analysis of mechanical systems with clearances—part 1: formation of dynamic model. J Eng Ind 93(1):305–309

Cundall PA, Strack OD (1979) A discrete numerical model for granular assemblies. Geotechnique 29(1):47–65

Flores P et al (2008) Translational joints with clearance in rigid multibody systems. J Comput Nonlinear Dyn 3(1):011007

Pereira CM, Ramalho AL, Ambrósio JA (2011) A critical overview of internal and external cylinder contact force models. Nonlinear Dyn 63(4):681–697

Brändlein J (1995) Die Wälzlagerpraxis. Handbuch für die Berechnung und Gestaltung von Lagerungen. Mainz: Vereinigte Fachverlage,| c1995, 3., neu bearb. Aufl., edited by Braendlein, Johannes, 1

Van Nijen G (2001) On the overrolling of local imperfection in rolling bearings. Ph.D. Thesis, University of Twente, Enschede, the Netherlands

Johnson KL, Johnson KL (1987) Contact mechanics. Cambridge University Press, Cambridge

Goodman L, Keer L (1965) The contact stress problem for an elastic sphere indenting an elastic cavity. Int J Solids Struct 1(4):407–415

Liu C, Zhang K, Yang L (2005) The compliance contact model of cylindrical joints with clearances. Acta Mech Sin 21(5):451–458

Tian Q et al (2011) A new model for dry and lubricated cylindrical joints with clearance in spatial flexible multibody systems. Nonlinear Dyn 64(1–2):25–47

Liu C-S, Zhang K, Yang L (2005) Normal force-displacement relationship of spherical joints with clearances. J Comput Nonlinear Dyn 1(2):160–167

Luo L, Nahon M (2005) A compliant contact model including interference geometry for polyhedral objects. J Comput Nonlinear Dyn 1(2):150–159

Luo L, Nahon M (2010) Development and validation of geometry-based compliant contact models. J Comput Nonlinear Dyn 6(1):011004

Bei Y, Fregly BJ (2004) Multibody dynamic simulation of knee contact mechanics. Med Eng Phys 26(9):777–789

Pérez-González A et al (2008) A modified elastic foundation contact model for application in 3D models of the prosthetic knee. Med Eng Phys 30(3):387–398

Mukras SM et al. (2010) Evaluation of contact force and elastic foundation models for wear analysis of multibody systems. In: ASME 2010 International Design Engineering Technical Conferences and Computers and Information in Engineering Conference. American Society of Mechanical Engineers

Dubowsky S, Deck J, Costello H (1987) The dynamic modeling of flexible spatial machine systems with clearance connections. J Mech Des 109(1):87–94

Dubowsky S, Freudenstein F (1971) Dynamic analysis of mechanical systems with clearances—part 2: dynamic response. J Manuf Sci Eng 93(1):310–316

Dubowsky S, Gardner T (1977) Design and analysis of multilink flexible mechanisms with multiple clearance connections. J Manuf Sci Eng 99(1):88–96

Dubowsky S, Young S (1975) An experimental and analytical study of connection forces in high-speed mechanisms. J Manuf Sci Eng 97(4):1166–1174

Rogers R, Andrews G (1977) Dynamic simulation of planar mechanical systems with lubricated bearing clearances using vector-network methods. J Manuf Sci Eng 99(1):131–137

Khulief Y, Shabana A (1987) A continuous force model for the impact analysis of flexible multibody systems. Mech Mach Theory 22(3):213–224

Fox B, Jennings L, Zomaya A (2001) Numerical computation of differential-algebraic equations for non-linear dynamics of multibody systems involving contact forces. J Mech Des 123(2):272–281

Hegazy S, Rahnejat H, Hussain K (1999) Multi-body dynamics in full-vehicle handling analysis. Proc Inst Mech Eng Part K J Multi-body Dyn 213(1):19–31

Bibalan PT, Featherstone R (2009) A study of soft contact models in simulink. In: Australasian Conference on Robotics and Automation. Citeseer

Goyal S, Pinson E, Sinden F (1994) Simulation of dynamics of interacting rigid bodies including friction I: general problem and contact model. Eng Comput 10(3):162–174

Goyal S, Pinson EN, Sinden FW (1994) Simulation of dynamics of interacting rigid bodies including friction II: software system design and implementation. Eng Comput 10(3):175–195

Kuwabara G, Kono K (1987) Restitution coefficient in a collision between two spheres. Jpn J Appl Phys 26(8R):1230

Tsuji Y, Tanaka T, Ishida T (1992) Lagrangian numerical simulation of plug flow of cohesionless particles in a horizontal pipe. Powder Technol 71(3):239–250

Lee J, Herrmann HJ (1993) Angle of repose and angle of marginal stability: molecular dynamics of granular particles. J Phys A: Math Gen 26(2):373

Brilliantov NV et al (1996) Model for collisions in granular gases. Phys Rev E 53(5):5382–5392

Brilliantov NV et al (1996) The collision of particles in granular systems. Phys A 231(4):417–424

Schwager T, Pöschel T (1998) Coefficient of normal restitution of viscous particles and cooling rate of granular gases. Phys Rev E 57(1):650–654

Bordbar M, Hyppänen T (2007) Modeling of binary collision between multisize viscoelastic spheres. J Numer Anal Ind Appl Math 2(3–4):115–128

Guess TM et al (2010) A subject specific multibody model of the knee with menisci. Med Eng Phys 32(5):505–515

Gonthier Y et al (2004) A regularized contact model with asymmetric damping and dwell-time dependent friction. Multibody Syst Dyn 11(3):209–233

Papetti S, Avanzini F, Rocchesso D (2011) Numerical methods for a nonlinear impact model: a comparative study with closed-form corrections. IEEE Trans Audio Speech Lang Process 19(7):2146–2158

Herbert RG, McWhannell DC (1977) Shape and frequency composition of pulses from an impact pair. J Eng Ind 99(3):513–518

Sarkar N, Ellis RE, Moore TN (1997) Backlash detection in geared mechanisms: modeling, simulation, and experimentation. Mech Syst Signal Process 11(3):391–408

Yigit AS, Ulsoy AG, Scott RA (1990) Spring-dashpot models for the dynamics of a radially rotating beam with impact. J Sound Vib 142(3):515–525

Lankarani HM, Nikravesh PE (1990) A contact force model with hysteresis damping for impact analysis of multibody systems. J Mech Des 112(3):369–376

Shivaswamy S (1997) Modeling contact forces and energy dissipation during impact in mechanical systems. Wichita State University, Departemnt of Mechanical Engineering, Wichita

Ivanov AP (1996) Bifurcations in impact systems. Chaos, Solitons Fractals 7(10):1615–1634

Lee H-S, Yoon Y-S (1994) Impact analysis of flexible mechanical system using load-dependent Ritz vectors. Finite Elem Anal Des 15(3):201–217

Pereira CM, Ambrósio JA, Ramalho AL (2010) A methodology for the generation of planar models for multibody chain drives. Multibody Syst Dyn 24(3):303–324

Schwab A, Meijaard J, Meijers P (2002) A comparison of revolute joint clearance models in the dynamic analysis of rigid and elastic mechanical systems. Mech Mach Theory 37(9):895–913

Wasfy TM, Noor AK (2003) Computational strategies for flexible multibody systems. Appl Mech Rev 56(6):553–613

Muthukumar S, DesRoches R (2006) A Hertz contact model with non-linear damping for pounding simulation. Earthq Eng Struct Dyn 35(7):811–828

Lankarani HM, Nikravesh PE (1994) Continuous contact force models for impact analysis in multibody systems. Nonlinear Dyn 5(2):193–207

Zhang Y, Sharf I (2004) Compliant force modelling for impact analysis. In: ASME 2004 International Design Engineering Technical Conferences and Computers and Information in Engineering Conference. American Society of Mechanical Engineers

Zhiying Q, Qishao L (2006) Analysis of impact process based on restitution coefficient. J Dyn Control 4:294–298

Ye K, Li L, Zhu H (2009) A note on the Hertz contact model with nonlinear damping for pounding simulation. Earthq Eng Struct Dyn 38(9):1135–1142

Flores P et al (2011) On the continuous contact force models for soft materials in multibody dynamics. Multibody Syst Dyn 25(3):357–375

Gharib M, Hurmuzlu Y (2012) A new contact force model for low coefficient of restitution impact. J Appl Mech 79(6):064506

Khatiwada S, Chouw N, Butterworth JW (2014) A generic structural pounding model using numerically exact displacement proportional damping. Eng Struct 62–63:33–41

Burgin LV, Aspden RM (2008) Impact testing to determine the mechanical properties of articular cartilage in isolation and on bone. J Mater Sci Mater Med 19(2):703–711

Falcon E et al (1998) Behavior of one inelastic ball bouncing repeatedly off the ground. Eur Phys J B Condens Matter Complex Syst 3(1):45–57

Gugan D (2000) Inelastic collision and the Hertz theory of impact. Am J Phys 68(10):920–924

Kagami J, Yamada K, Hatazawa T (1983) Contact between a sphere and rough plates. Wear 87(1):93–105

Minamoto H, Kawamura S (2009) Effects of material strain rate sensitivity in low speed impact between two identical spheres. Int J Impact Eng 36(5):680–686

Půst L, Peterka F (2003) Impact oscillator with Hertz’s model of contact. Meccanica 38(1):99–116

Ramírez R et al (1999) Coefficient of restitution of colliding viscoelastic spheres. Phys Rev E 60(4):4465

Rigaud E, Perret-Liaudet J (2003) Experiments and numerical results on non-linear vibrations of an impacting Hertzian contact. Part 1: harmonic excitation. J Sound Vib 265(2):289–307

Tatara Y (1989) Extensive theory of force-approach relations of elastic spheres in compression and in impact. J Eng Mater Technol 111(2):163–168

Tatara Y, Moriwaki N (1982) Study on impact of equivalent two bodies: coefficients of restitution of spheres of brass, lead, glass, porcelain and agate, and the material properties. Bull JSME 25(202):631–637

Villaggio P (1996) The rebound of an elastic sphere against a rigid wall. J Appl Mech 63(2):259–263

Vu-Quoc L, Zhang X, Lesburg L (2001) Normal and tangential force–displacement relations for frictional elasto-plastic contact of spheres. Int J Solids Struct 38(36):6455–6489

Vu-Quoc L, Zhang X, Lesburg L (1999) A normal force-displacement model for contacting spheres accounting for plastic deformation: force-driven formulation. J Appl Mech 67(2):363–371

Wu C-Y, Li L-Y, Thornton C (2005) Energy dissipation during normal impact of elastic and elastic–plastic spheres. Int J Impact Eng 32(1):593–604

Wu C-Y, Li L-Y, Thornton C (2003) Rebound behaviour of spheres for plastic impacts. Int J Impact Eng 28(9):929–946

Yoshioka N (1997) A review of the micromechanical approach to the physics of contacting surfaces. Tectonophysics 277(1):29–40

Zhang X, Lesburg L (2000) A normal force-displacement model for contacting spheres accounting for plastic deformation: force-driven formulation. J Appl Mech 67:363–371

Valles RE, Reinhorn AM (1997) Evaluation, prevention and mitigation of pounding effects in building structures. National Center for Earthquake Engineering Research, University of Buffalo, Buffalo

Valles-Mattox R, Reinhorn A (1996) Evaluation, prevention and mitigation of pounding effects in building structures. In: Eleventh World Conference on Earthquake Engineering

Pfeiffer F, Glocker C (2000) Multibody dynamics with unilateral contacts, vol 421. Springer, Berlin

Brogliato B et al (2002) Numerical simulation of finite dimensional multibody nonsmooth mechanical systems. Appl Mech Rev 55(2):107–150

Pfeiffer F (2003) The idea of complementarity in multibody dynamics. Arch Appl Mech 72(11–12):807–816

Newton I (1999) The principia: mathematical principles of natural philosophy. University of California Press, Berkeley

Jankowski R (2005) Non-linear viscoelastic modelling of earthquake-induced structural pounding. Earthq Eng Struct Dyn 34(6):595–611