Sage Journals: Discover world-class research

Abstract

In order to master the impact of irregular wear clearances on the dynamic response of spatial parallel mechanisms, it is essential to conduct a detailed study on the dynamic characteristics of spatial parallel mechanisms with joints featuring irregular wear clearances. Currently, the majority of research concerning mechanisms with joints featuring irregular wear clearances is mainly centered around planar mechanisms. In contrast, studies on spatial parallel mechanisms involving multiple revolute joints with wear clearances are rather scarce. Moreover, the research on the dynamic responses of mechanisms with wear clearances primarily focuses on the theoretical level, but the experimental investigations are relatively rare. Consequently, considering irregular wear in revolute clearance joints, this study adopts a combined theoretical and experimental methodology to explore the dynamic characteristics of the 3-RRPaR (R denotes a revolute pair, P denotes a prismatic pair, Pa denotes a parallelogram mechanism) spatial parallel mechanisms. Additionally, a dynamic model for the irregular wear clearance of revolute joints has been deduced based on Archard wear theory. This study has successfully formulated a dynamic model for spatial parallel mechanisms featuring revolute joints with irregular wear clearances. Based on this model, this study conducted an in-depth analysis of the specific impacts of mechanism trajectory, clearance size, and operating speed on the dynamic responses of such mechanisms. To verify the accuracy of the theoretical model and the validity of the dynamic characteristic analysis, we specifically constructed an experimental prototype of the 3-RRPaR parallel mechanism. This series of research outcomes has established a robust theoretical foundation for predicting the operational lifespan of parallel mechanisms with wear clearances.

Keywords

Spatial parallel mechanisms revolute joints irregular wear clearances dynamic response analysis

Get full access to this article

View all access options for this article.

References

Erkaya

Doğan

A comparative analysis of joint clearance effects on articulated and partly compliant mechanisms. Nonlinear Dyn 2015; 81(1-2): 323–341.

Ambrósio

Pombo

A unified formulation for mechanical joints with and without clearances/bushings and/or stops in the framework of multibody systems. Multibody Syst Dyn 2018; 42(3): 317–345.

Tian

Flores

Lankarani

HM.

A comprehensive survey of the analytical, numerical and experimental methodologies for dynamics of multibody mechanical systems with clearance or imperfect joints. Mech Mach Theory 2018; 122: 1–57.

Huang

Sun

, et al. Mesh stiffness and nonlinear dynamic model for a gear drive with revolute pair clearance Processes 2023; 11(1): 230.

Guo

Liu

, et al. Investigation of an improved planar revolute clearance joint contact model with rough surface. Tribol Int 2019; 134: 385–393.

Flores

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

Zhao

Zhang

Dai

XD.

Prediction of wear at revolute clearance joints in flexible mechanical systems. Procedia Eng 2013; 68: 661–667.

Flores

Ambrósio

Revolute joints with clearance in multibody systems. Comput Struct 2004; 82(17-19): 1359–1369.

Jiang

Chen

Deng

Dynamic response analysis of planar multilink mechanism considering wear in clearances. Shock Vib 2019; 2019: 1–18.

10.

Zhang

Wang

Dynamic performance of over-constrained planar mechanisms with multiple revolute clearance joints. Proc IMechE, Part C: J Mechanical Engineering Science 2018; 232(19): 3524–3537.

11.

Xiang

Yan

, et al. Dynamic response and sensitivity analysis for mechanical systems with clearance joints and parameter uncertainties using Chebyshev polynomials method. Mech Syst Signal Process 2020; 138: 106596.

12.

Yang

, et al. Dynamics analysis and wear prediction of rigid-flexible coupling deployable solar array system with clearance joints considering solid lubrication. Mech Syst Signal Process 2022; 162: 108059.

13.

Bai

Ning

Zhou

Study on wear characteristics of revolute clearance joints in mechanical systems. Micromachines 2022; 13(7): 1018.

14.

Chen

Tang

Gao

Dynamic modeling and analysis of hybrid driven multi-link press mechanism considering non-uniform wear clearance of revolute joints. Meccanica 2022; 57(1): 229–250.

15.

Tan

A continuous analysis method of planar rigid-body mechanical systems with two revolute clearance joints. Multibody Syst Dyn 2017; 40(4): 347–373.

16.

Xiulong

Yonghao

Wear analysis of spatial parallel mechanisms with multiple three-dimensional spherical clearance joints. J Tribol 2019; 141(10): 101604.

17.

Zhuang

Liu

, et al. Kinematic reliability evaluation of high-precision planar mechanisms experiencing non-uniform wear in revolute joints. Mech Syst Signal Process 2022; 169: 108748.

18.

Ordiz

Cuadrado

Cabello

, et al. Prediction of fatigue life in multibody systems considering the increase of dynamic loads due to wear in clearances. Mech Mach Theory 2021; 160: 104293.

19.

Han

Dong

, et al. An approach for modelling a clearance revolute joint with a constantly updating wear profile in a multibody system: simulation and experiment. Multibody Syst Dyn 2019; 45(4): 457–478.

20.

Chen

, et al. Wear analysis of two revolute joints with clearance in multibody systems. J Comput Nonlinear Dyn 2016; 11(1): 011009.

21.

Yang

Cheng

JJR

Zhang

Vector form intrinsic finite element method for planar multibody systems with multiple clearance joints. Nonlinear Dyn 2016; 86(1): 421–440.

22.

Wang

Liu

. Dynamic modeling of five bar linkage with joint clearance. ASME J Tribol 2017; 139(5): 051606.

23.

Wang

Liu

Deng

, et al. Dynamic analysis of 4-SPS/CU parallel mechanism considering three-dimensional wear of spherical joint with clearance. J Tribol 2017; 139(2): 057003.

24.

Wang

Liu

Deng

Dynamics analysis of spatial multibody system with spherical joint wear. J Tribol 2015; 137(2): 021605.

25.

Jiang

Wang

Xiao

Experiment research and dynamic behavior analysis of multi-link mechanism with wearing clearance joint. Nonlinear Dyn 2022; 109(3): 1325–1340.

26.

Flores

Machado

Silva

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

27.

Wang

Liu

Further investigation on improved viscoelastic contact force model extended based on Hertz’s law in multibody system. Mech Mach Theory 2020; 153: 103986.

28.

Brown

McPhee

A continuous velocity-based friction model for dynamics and control with physically meaningful parameters. J Comput Nonlinear Dyn 2016; 11(5): 054502.

29.

Archard

JF.

Contact and rubbing of flat surfaces. J Appl Phys Am Inst Phys 1953; 24(8): 981–988.

Theoretical analysis and experimental verification of dynamic characteristics of spatial parallel mechanisms considering irregular wear clearance of revolute joints

Abstract

Keywords

Get full access to this article

References