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Design and development of a novel lightweight long-reach composite robotic armWillis, Darrin 01 August 2009 (has links)
Metallic robotic arms, or manipulators, currently dominate automated industrial operations, but
due to their intrinsic weight, have limited usefulness for large-scale applications in terms of
precision, speed, and repeatability. This thesis focuses on exploring the feasibility of using
polymeric composite materials for the construction of long-reach robotic arms. Different
manipulator layouts were investigated and an ideal design was selected for a robotic arm that has
a 5 [m] reach, 50 [kg] payload, and is intended to operate on large objects with complex
curvature.
The cross-sectional geometry of the links of the arm were analyzed for optimal stiffness- and
strength-to-weight ratios that are capable of preserving high precision and repeatability under
time-dependent external excitations. The results lead to a novel multi-segment link design and
method of production.
A proof-of-concept prototype of a two degrees-of-freedom (2-DOF) robotic arm with a reach of
1.75 [m] was developed. Both static and repeatability testing were performed for verification.
The results indicated that the prototype robot main-arm constructed of carbon fiber-epoxy
composite material provides good stiffness-to-weight and strength-to-weight ratios. Finite
element analysis (FEA) was performed on a 3-D computer model of the arm. Successful
verification led to the use of the 3-D model to define the dimensions of an industrial-sized robotic
arm. The results obtained indicate high stiffness and minimal deflection while achieving a
significant weight reduction when compared to commercial arms of the same size and capability.
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