Clearance vs. tolerance for rigid overconstrained assemblies

Rameau, Jean-François; Serré, Philippe; Moinet, Mireille

doi:10.1016/j.cad.2017.12.001

Cited by 9 publications

(3 citation statements)

References 13 publications

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“…In a floating contact, the tangential and normal displacements are allowed, meaning that it has all the possible degrees of freedom (DoF) of a mechanical joint. There are works that study this contact configuration in over constraint systems using the virtual work principle or regularized closure functions G (Cammarata, 2017;Rameau et al, 2018). A fixed contact is represented in Fig.…”

Section: Types Of Contactmentioning

confidence: 99%

An Approach for the Inclusion of Loading Conditions in a Polyhedral-Based Method for Early Variation Management

et al. 2023

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The variation management and product quality processes are important tasks to guarantee the assemblability of the systems, the scrap reduction and to avoid delays on production and launching. The compound of activities in Geometric Dimensioning and Tolerancing (GD&T) are necessary, especially in the early design stages, to take into account variations of different nature and from different sources. In this paper, an approach for considering the loading conditions in a polyhedral-based approach in tolerancing design is presented. The load boundary conditions are represented as additional displacement restrictions in the deviation space. The restrictions imposed by the physical limits of a system, the ones coming from the loading conditions and the degrees of freedom (DoF) can be all described and represented with a single polyhedron operand. The approach is illustrated using a simplified 2-D model for both ideal and non-ideal geometry. A 3-D model describing an unilateral contact is presented as a case study using Skin Model Shapes. By taking into account geometrical form defects, external loads, and the kinematics of the system, its sensitivity to variations can be reduced even from early design stages.

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Section: Types Of Contactmentioning

confidence: 99%

An Approach for the Inclusion of Loading Conditions in a Polyhedral-Based Method for Early Variation Management

et al. 2023

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“…Some researchers have proposed numerical optimization approaches with several objective functions (convex hull volume, Euclidean distance, weighted unsigned distance, weighted signed distance) [23], experimental and theoretical investigations using the SDT and clearance domain (gap hull) models [24], the Fast Fourier Transform and the Conjugate Gradient Method in case of elastic contact of rough surfaces [25,26], development of an optimization algorithm and geometric interference relationships [27] and some other methods in [28][29][30]. Moreover, some others researchers proposed to study the floating contacts by means of a regularized closure function and a constrained optimization problem [31], Virtual Work Principle and a contact model of joints to determine the displacements at each node and relative displacements/rotations of the kinematic pairs [32], constrained registration techniques and difference surface in a sequential positioning problem [33], Tooth Contact Analysis algorithm [2,34], the Gap Hull estimation [35]. Among all the previous methods, the Signed Distance Approach [17,18,20,23] combined with an optimization technique is selected to characterize the fixed and sliding contacts assembly in the mechanical system.…”

Section: Mathematical Formulation Of the Assembly Feasibility Of The mentioning

confidence: 99%

Probabilistic-based approach using Kernel Density Estimation for gap modeling in a statistical tolerance analysis

Goka

Beaurepaire

Homri

et al. 2019

Mechanism and Machine Theory

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Probabilistic-based approach using Kernel Density Estimation for gap modeling in a statistical tolerance analysis. Mechanism and Machine Theory, Elsevier, 2019, 139, pp. AbstractThe statistical tolerance analysis has become a key element used in the design stage to reduce the manufacturing cost, the rejection rate and to have high quality products. One of the frequently used methods is the Monte Carlo simulation, employed to compute the non-conformity rate due to its efficiency in handling the tolerance analysis of over-constrained mechanical systems. However, this simulation technique requires excessive numerical efforts. The goal of this paper is to improve this method by proposing a probabilistic model of gaps in fixed and sliding contacts and involved in the tolerance analysis of an assembly. The probabilistic model is carried out on the clearance components of the sliding and fixed contacts for their assembly feasibility considering all the imperfections on the surfaces. The kernel density estimation method is used to deal with the probabilistic model. The proposed method is applied to an over-constrained mechanical system and compared to the classical method regarding their computation time. 1.

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“…Therefore, it is important to measure the assembly clearance. Franciosa et al [1] predicted the gap between the two connectors during welding with the assumption that the position of the welding torch is known. Mao et al [2] established an improved quasi dynamic model to study the effect of annular deformation on the assembly clearance between roller bearing and shell.…”

Section: Introductionmentioning

confidence: 99%

Research on assembly clearance of precision spherical coupling parts by point cloud analysis

Pan

Liu

Zhang

et al. 2022

J. Phys.: Conf. Ser.

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Assembly clearance has a great influence on the performance of precision parts. Improper assembly clearance affects the working state and induces failure of parts. A method to analyze the assembly clearance of the precision spherical coupling parts by analyzing the points cloud was proposed. The least square center was used to find a rough center. Accurate center was searched near the least square center by the particle swarm optimization (PSO) algorithm based on the minimum zone method. Radical clearance and Z clearance of precision spherical coupling parts were calculated. Furthermore, the dynamic change of assembly clearance was also calculated by rotating the parts. The sphericity error evaluation results were improved obviously compared with other results. The accuracy of the evaluation results improved 4.51%∼28.97%.

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Clearance vs. tolerance for rigid overconstrained assemblies

Cited by 9 publications

References 13 publications

An Approach for the Inclusion of Loading Conditions in a Polyhedral-Based Method for Early Variation Management

An Approach for the Inclusion of Loading Conditions in a Polyhedral-Based Method for Early Variation Management

Probabilistic-based approach using Kernel Density Estimation for gap modeling in a statistical tolerance analysis

Research on assembly clearance of precision spherical coupling parts by point cloud analysis

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