SABIC Explores Effects of Autoclave Tooling on Large Format Additive Manufacturing Parts https://ift.tt/2T4TP22 Headquartered in Riyadh, Saudi Arabi, SABIC is a dynamic company bringing forth innovation in materials and techniques to the additive manufacturing industry. Recently, they produced a case study regarding autoclave tooling, exploring its overall effect on the performance of a 3D printed tool. ‘Autoclave Tooling Using Large Format Additive Manufacturing (LFAM) Technology,’ authored by Walt Thompson, Scott R. Huelskamp, Tim Allessio, and Kim Ly of SABIC’s University of Dayton Research Institute, gives us insight into the use of autoclaves and progressive approaches in tooling. LFAM occurs via the melting of plastic pellets on a large scale and allows for the use of additional additives from glass to carbon fibers, minerals, and more, offering strength and performance that the SABIC team states cannot be achieved through the use of unfilled resins. In the creation of large parts, strength and cohesion are required to sustain comprehensive structure not only during the time of printing but afterward when the final result may be serving as an important prototype or functional piece. Large parts can be printed, with all the typical benefits of additive manufacturing and 3D printing, such as production of complex geometries that are made quickly, and affordably. For industries delving into progressive technology in manufacturing, the advantages of 3D printing on any scale are enticing due to the savings in time and money as compared to conventional processes like computer numerical control (CNC) machining; in fact, with LFAM technology, multiple designs and multiple iterations can be made just in the time that it would take to create one metal tool via CNC machining. Refinement within the autoclave environment has been a major issue, however. The SABIC team points out that a serious obstacle in replacing metal tools with those made by LFAM has been finding a suitable resin/filler system combination. Any material used must not only have good printability but also be able to hold up against temperatures, loads, and size requirements.
Application requirements for this study are as follows:
Using their expertise in materials, SABIC suggested the use of LNPTM THERMOCOMPTM AM EZ006EXAR1 compound, providing a combination of ULTEMTM resin, a high-temperature material used in aerospace applications. The team used several different tool sizes in experimenting during this study and ultimately, focused on one type of geometry that is often used in military aircraft designs. The tool was then printed at the SABIC Polymer Processing Development Center (PPDC) in Pittsfield, MA, on the BAAM machine, technology we have been following since they used it to develop reinforcements for automobiles previously, a yacht hull and also have used the technology in connection with the development of other new materials. Four different phases of testing followed. Phase 1 involved 3D scanning of the tool with a Creaform HandySCAN 3D® handheld scanner.
In Phase 2, the SABIC team tested the tool in autoclave cycling at PPDC.
Five testing cycles were completed in the autoclave, and then the tool was scanned again revealing that 99.7% of the tooling surface was within +/-0.004 inches of the baseline scan conducted after the Phase 1 testing was completed. In Phase 3, the tool endured further testing in five more autoclave cycles, using the same methods, although pressure was increased to 100 psig.
In Phase 4, the tool went through extreme measures with ten cycles in the autoclave using the same methods as Phase 3. Scanning was performed again afterward, and when compared to the baseline, the researchers saw that 99.7% of the tooling surface was still within +/-0.004 inches of the original baseline scan. In conclusion of this research, the SABIC team stated:
What do you think of this news? Let us know your thoughts! Join the discussion of this and other 3D printing topics at 3DPrintBoard.com. [Source / Images: SABIC case study shared with 3DPrint.com] Printing via 3DPrint.com | The Voice of 3D Printing / Additive Manufacturing https://3dprint.com February 28, 2019 at 01:09PM
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