Rupesh S. Bobade scite author profile

Rupesh S. Bobade

4Publications

5Citation Statements Received

39Citation Statements Given

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Affiliations

University of Mumbai, Indian Institute of Technology Bombay, IITB-Monash Research Academy

Publications

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On novel compliant mechanisms for remote center motion

Gandhi

Bobade

Chen

2018

Advances in Mechanical Engineering

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This article presents the synthesis, parametric analysis with a semi-empirical model, and experimental validation of novel compliant remote center motion mechanisms with high cross-axis stiffnesses. The literature backs up ample use of rigid links in the synthesis of remote center motion mechanism in various applications. Compliant remote center motion mechanisms reported earlier are cable-driven mechanisms for endoscopy manipulation. On the contrary, in this article we propose spatial, compliant-link (leaf flexure link) remote center motion mechanisms (patent pending). Synthesis of the proposed compliant mechanism poses the main challenge of achieving precise remote center motion with prominent cross-axis stiffnesses. The proposed design is conceived using angularly assembled compliant links (with fixed-fixed boundary) which upon application of force undergo simultaneous twisting and bending resulting in the proposed remote center motion. Higher width as compared to the thickness along with angular arrangement gives the desired cross-axis stiffness. Extensive nonlinear finite element analysis establishes the accuracy of the remote center motion, high cross-axis stiffnesses, and the accuracy of the proposed semi-empirical model based on parametric analysis. Furthermore, the proposed mechanism is fabricated and preliminary experiments validate remote center motion in an example case.

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Shape Memory Alloy Actuators: A Review

Bobade¹

2019

IJRASET

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Compliant Remote Center Motion Mechanism for Minimally Invasive Surgical Robots

Bobade¹,

Yadav²

2018

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Grain Size Regulation During LDH Test

Mashalkar¹,

Mishra

Nandedkar³

et al. 2020

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Rupesh S. Bobade

On novel compliant mechanisms for remote center motion

Shape Memory Alloy Actuators: A Review

Compliant Remote Center Motion Mechanism for Minimally Invasive Surgical Robots

Grain Size Regulation During LDH Test

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