The development and design of a functionally-graded material (FGM) robotic arm for supporting and manipulating a vision system is discussed in this paper. The aim is to understand if using FGMs effectively reduce mass compared to single material parts. The evolution of ideas using topological optimisation (TO) and FGMs towards the design are shown and reviewed. The final design uses TO, and as such needs to be manufactured using additive manufacture (AM). Constraints have been put in place to ensure physical manufacturability is possible. The final design reduces the mass compared to the original arm by 61.4%
FGMs (Functionally Graded Materials) have gradients of mechanical properties depending on the positi...
Current packaging robots cannot achieve the required speed due to the use of heavy parts. Magnesium ...
The products in our day to day lives have different requirements in different regions of the product...
The development and design of a functionally-graded material (FGM) robotic arm for supporting and ma...
A methodology for the creation of functionally graded material (FGM) parts in harsh env...
Design optimization for Additive Manufacturing is demonstrated by the example of an industrial robot...
Context and Background - Lightweight design is important for many engineering fields due to the incr...
The growing potential of additive manufacturing technologies is currently being boosted by their int...
abstract: Multi-material fabrication allows for the creation of individual parts composed of several...
In pursuit of better accuracy, higher speed and larger scale, manufacturers of high-performance devi...
The use of present-day robots is growing in areas like food, buyer items, wood, plastics, and equipm...
In production engineering, use is made of robots in order to ensure that the product quality can be ...
This research furthers the practice of designing and manufacturing End of Arm Tooling (EOAT) by util...
This paper illustrates the importance of weight reduction in the mechanical design of robotic system...
In the last decade, additive manufacturing technologies (AMT) have spread widely in the industrial f...
FGMs (Functionally Graded Materials) have gradients of mechanical properties depending on the positi...
Current packaging robots cannot achieve the required speed due to the use of heavy parts. Magnesium ...
The products in our day to day lives have different requirements in different regions of the product...
The development and design of a functionally-graded material (FGM) robotic arm for supporting and ma...
A methodology for the creation of functionally graded material (FGM) parts in harsh env...
Design optimization for Additive Manufacturing is demonstrated by the example of an industrial robot...
Context and Background - Lightweight design is important for many engineering fields due to the incr...
The growing potential of additive manufacturing technologies is currently being boosted by their int...
abstract: Multi-material fabrication allows for the creation of individual parts composed of several...
In pursuit of better accuracy, higher speed and larger scale, manufacturers of high-performance devi...
The use of present-day robots is growing in areas like food, buyer items, wood, plastics, and equipm...
In production engineering, use is made of robots in order to ensure that the product quality can be ...
This research furthers the practice of designing and manufacturing End of Arm Tooling (EOAT) by util...
This paper illustrates the importance of weight reduction in the mechanical design of robotic system...
In the last decade, additive manufacturing technologies (AMT) have spread widely in the industrial f...
FGMs (Functionally Graded Materials) have gradients of mechanical properties depending on the positi...
Current packaging robots cannot achieve the required speed due to the use of heavy parts. Magnesium ...
The products in our day to day lives have different requirements in different regions of the product...