MAESTRO project aims at improving the productivity while reducing the cost of high value parts. To this end, one solution is explored: hybrid manufacturing. It consists in combining at least two processes synergistically to build one part. In MAESTRO project, the goal is to build and test hybrid samples. The first part of this task has been well achieved recently. The different partners involved in this work were: CEA, OBE, UoB and IPC.
Several productions allowed to successfully produce around 100 hybrid specimens.
Hybrid specimens are made of:
The fastening of the MIM preforms during DMLS process runs, has been achieved via a custom workholding device which was developed and validated at the University of Birmingham.
It is composed of two units. The first unit, called main assembly as shown in Figure 1 which consists of standardised components:
The secondary assembly unit shown in Figure 1b integrates workholding extensions, i.e. interface plates and adapters/extensions, which provide the necessary flexibility and make it feasible to realise different processing setups for positioning and fixing workpieces with various dimensions and shapes.
As shown in Figure 1b, examples of workholding extensions than can be unified into the secondary assembly unit include:
The same components (receivers and pallets) are used to ensure the modularity of the proposed DMLS workholding device across all setups of the proposed hybrid manufacturing platform. In this way the same Workpiece Coordinate System (WCS) can be preserved in each step: scanning MIM preforms, hybrid production, and scanning after production.
In addition, it is worth highlighting that the positional repeatability of such workholding device is better than 1 µm.
The workholding device is screwed to the plate. It allows to fix up to 20 samples per job. In figure 2, the device is showed at the end of a job production, in the machine. The production lasted 90 minutes to build the 20 samples.At the end of the production, the clamp strip is removed from the device to visually inspect the alignment between MIM preforms and DMLS parts, see figure 3.
Furthermore, in order to precisely align and correlate the preforms and DMLS parts coordinate systems, an alignment methodology has been exclusively designed for the project. Whilst, the modularity of the custom workholding fixture through the different modules, is ensured by mounting of the device on the aforementioned commercially available, already proven, high precision universal tools supplied by System 3r (GF). Particularly, repetition accuracy and positioning are within the extremely tight tolerance of 4 μm. Thus, leading to high precision outputs.
As this task investigates the interface, specimen’s interfaces have a different surface preparation: sawn, laser textured and sand blasted. During DMLS production, 3 samples per job have a double exposition for 4 layers at the interface.
The characterisation of the interface will include hardness and tensile testing. It is also planned to have EBSD, microstructure and SEM analysis.
This work is realised in collaboration with IPC, OBE, UoB and CEA shows the good integration of different modules into the MAESTRO modular platform.