Anufactured specimens were 0.2543 0.0128 0.0018 m3 (length width thickness). An isometric view of
Anufactured specimens have been 0.2543 0.0128 0.0018 m3 (length width thickness). An isometric view in the test coupon is shown in Figure 1. The specimen orientation chosen for this investigation was derived from [19]. The specimen orientation diagram as well as the schematic information of the 3D printed specimen fabrication are shown in Figures two and three, respectively. The 3D printed strong laminate composites test specimen made up of continuous carbon fiber and Onyx FR is shown in Figure 4. The test specimens had been 3D printed with tabs on each ends (see Figure 1).Figure 1. Dimensions of specimen (0.2543 m 0.0128 m 0.0018 m).Figure 2. Specimen orientation diagram (permission received from NIAR on 10/29/2021 [19]).Materials 2021, 14,5 ofFigure 3. Schematic illustration on the specimen fabrication applying an additive manufacturing method.Figure 4. 3D printed test specimen from additive manufacturing prior to instrumentation.two.two. Multifunctional Flexural-Electrical Characterization at Room GNF6702 site temperature Dry The multifunctional and coupled tensile and electrical properties of additively manufactured continuous carbon fiber composites were simultaneously investigated applying an MTS machine (Eden Prairie, MN, USA) [20] per ASTM D3039/D3039M7 [21] along with a Keysight B2987A Electrometer (Keysight Technologies, Santa Rosa, CA, USA ) [22]. The capacity in the load cell around the MTS machine utilized within this study was 20 kip. The National Institute for Aviation Research (NIAR, Wichita, KS, USA) [23]. AGATE-WP3.3-033051-102 was used as a reference [24] and a room temperature dry of 22.five four.two C and ambient relative humidity was selected to evaluate the multifunctional electro-tensile properties with the additively manufactured continuous carbon fiber test coupons. The AGATE stands for the Sophisticated General Aviation Transport Experiments that was created by the National Aeronautics and Space Administration (NASA) to revitalize the general aviation sector in 1994 [25]. A quasi-static rate of 1.27 mm/min was selected for this test. The typical distance in between the two electrical contacts was 50.five mm. Multifunctional testing, comprising of a concurrent tensile test and electrical tests, were performed at area temperature dry (RTD) on the test coupons utilizing a multifunctional electro-tensile setup (Figure 5). The goal of this test was to evaluate the coupled electrotensile properties from the 3D printed test coupons in the RTD. Resistance with the test coupons was measured following each 445 N till the specimen failure. The selection of 445 N because the interval for resistance measurement was based on the earlier dry run test around the test coupons that underwent only structural tensile testing. The results are discussed in detail inside the results and Benidipine Data Sheet discussion section.Materials 2021, 14,6 ofFigure 5. Coupled electro-tensile test set up at RTD.3. Outcomes and Discussion The test coupons had been additively manufactured making use of continuous carbon fiber composites and Onyx FR as raw supplies in addition to a Markforged additive manufacturing machine. Electro-tensile properties of additively manufactured continuous carbon fiber solid laminate composites in space temperature dry had been investigated employing load frame and Keysight B2987A Electrometer (Keysight Technologies). The coupling effects of tensile properties on the electrical properties have been assessed. The failure modes on the tested specimens from this multifunctional testing are shown in Figure six. The failure modes from the test specimens have shown that they are consis.
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