Abstract
Experiments and computer studies on metamaterial issues allow to improve designing of entire devices using 3D CAD technology and finite element methods. Research and their effects are aimed at replacing the mechanisms by the elements made with additive technology. The technology enables using the same metamaterial producing the device or part with various internal structures. While maintaining identical dimensions, the internal structure of the device affects the properties, particularly dynamic properties. For this purpose, apart an appropriate computer model, the particular test is required for rapid and effective prototyping. Therefore, in the paper, the test stand consisted on: The signal generator, the vibration generator and laser vibrometer are proposed. The following is the post for preliminary experimental research.
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References
Patent US 5 121 329 (1989)
Dziewit, P., Janiszewski, J.: Ocena jakościowa procesu deformacji regularnych struktur komórkowych wykonanych techniką druku 3D. Mechanik 3/2018s. 250–252 (2018)
Kinsler, P., McCall, W. The Futures of Transformations and Metamaterials. Blackett Laboratory, Imperial College London, London
Knitter, R., Królikowski, T.: Mechanical metamaterial manufactured by increasing technology. Mechanik 7 502–504 (2018). https://doi.org/10.17814/mechanik.2018.7.65
Krolikowski, T., Knitter, R., Blazejewski, A., Glowinski, S., Kaminski: Emission of particles and VOCs at 3D printing in automotive. In: Ball, P., Huaccho Huatuco, L., Howlett, R., Setchi, R. (eds.) Sustainable Design and Manufacturing 2019. KES-SDM 2019. Smart Innovation, Systems and Technologies, vol. 155 (2019). Springer, Singapore
Krolikowski, T., Knitter, R., Blazejewski, A.: Computer modeling and testing of structural metamaterials. 4–5 September 2019 “23rd International Conference on Knowledge-Based and Intelligent Information & Engineering Systems” Procedia Computer Science (2019). ISSN: 1877-0509 https://doi.org/10.1016/j.procs.2019.09.429 (poz. 841 konf. punkt. 70)
Qi, H.J., Joyce, K., Boyce, M.C.: Durometer hardness and the stress-strain behavior of elastomeric materials. Rubber Chem. Technol. 76(2), 419–435 (2003)
Schumacher, C., Bickel, B., Rys, J., Marschner, S., Daraio, C., Gross, M.: Microstructures to control elasticity in 3D printing. ACM Trans. Graph. 34, 4 (2015)
Yu, X., Zhou, J., Liang, H., Jiang, Z., Wu, L.: Mechanical metamaterials associated with stiffness, rigidity and compressibility: a brief review. JMPS 486, 12/2017 (2017). Progress in Material Science
Zhao, Y., Lei, C., Patterson, J.C.: PIV measurements of the K-type transition in natural convection boundary Layers. Exp. Thermal Fluid Sci. 101, 62–75 (2019). https://doi.org/10.1016/j.expthermflusci.2018.09.007
Dobrzyńska, R.: The impact of equipment materials on the fire safety of coaches. In: Ball, P., Huaccho Huatuco, L., Howlett, R., Setchi, R. (eds.) Sustainable Design and Manufacturing 2019. KES-SDM 2019. Smart Innovation, Systems and Technologies, vol. 155. Springer, Singapore (2019)
Afshar-Mohajer, N., Wu, C.-Y., Ladun, T., Rajon, D.A., Huang, Y.: Characterization of particulate matters and total VOC emissions from a binder jetting 3D printer. Build. Environ. 93, 293–301 (2015)
Dobrzyńska, R.: Selection of outfitting and decorative materials for ship living accommodations from the point of view of toxic hazard in the initial phase of fire progress. Polish Maritime Res 16(2), 72–74 (2009). https://doi.org/10.2478/v10012-008-0025-5
Nikończuk, P., Dobrzyńska, R.: Preliminary measurements of overspray sediment’s thermal conductivity. Ochrona przed korozją, 61(2), 40–42 (2018). https://doi.org/10.15199/40.2018.2.3
Nikończuk, P.: Preliminary modeling of overspray particles sedimentation at heat recovery unit in spray booth. Eksploatacja i Niezawodnosc—Maintenance and Reliability 20(3), 387–393 (2018). http://dx.doi.org/10.17531/ein.2018.3.6
Królikowski, T., Nikończuk, P.: Finding temperature distribution at heat recovery unit using genetic algorithms. Proc. Comput. Sci. 112(2017), 2382–2390 (2017). https://doi.org/10.1016/j.procs.2017.08.100
Krolikowski, T., Knitter, R., Stachnik, M.: Thermo-mechanic tests using 3d printed elements. 4–5 September 2019 “23rd International Conference on Knowledge-Based and Intelligent Information & Engineering Systems” Procedia Computer Science (2019). ISSN: 1877-0509 https://doi.org/10.1016/j.procs.2019.09.430 (poz. 841 konf. punkt. 70)
Novakova-Marcincinova, L., Novak-Marcincin, J.: Testing of materials for rapid prototyping fused deposition modelling technology. World Acad Sci Eng Technol 70, 2012 (2012)
Jakubowski, M., Stachnik, M., Sterczyńska, M., Matysko, R., Piepiórka-Stepuk, J., Dowgiałło, A., Ageev, V., Knitter, R.: CFD analysis of primary and secondary flows and PIV measurements in whirlpool and whirlpool kettle with pulsatile filling: Analysis of the flow in a swirl separator. J. Food Eng. 258, 27–33 (2019)
Kaminski, K., Krolikowski, T., Blazejewski, A., Knitter, R.: Significant parameters identification for optimal modelling of the harp type flat-plate solar collector. In: Ball P., Huaccho Huatuco L., Howlett R., Setchi R. (eds.) Sustainable Design and Manufacturing 2019. KES-SDM 2019. Smart Innovation, Systems and Technologies, vol. 155. Springer, Singapore (2019)
Kaminski, K., Znaczko, P., Lyczko, M., Krolikowski, T., Knitter, R.: Operational properties investigation of the flat-plate solar collector with poliuretane foam insulation. 4–5 September 2019 “23rd International Conference on Knowledge-Based and Intelligent Information & Engineering Systems” Procedia Computer Science (2019). ISSN: 1877-0509 https://doi.org/10.1016/j.procs.2019.09
Nikończuk, P.: Study of heat recovery in spray booths. Metal Finish 111(6), 37–39
Nikończuk, P.: Preliminary analysis of heat recovery efficiency decrease in paint spray booths. Trans. IMF 92(5), 235–237 (2014). https://doi.org/10.1179/0020296714Z.000000000200
Nikończuk, P., Rosochacki, W.: The concept of reliability measure of recuperator in spray booth. Eksploatacja i Niezawodnosc—Maintenance and Reliability 22(2), 265–271 (2020). http://dx.doi.org/10.17531/ein.2020.2.9
Adamkiewicz, A., Nikończuk, P.: Waste heat recovery from the air preparation room in a paint shop. Archiv Thermodyn 40(3), 229–241 (2019). https://doi.org/10.24425/ather.2019.130003
Ubowska, A., Olawa, M.: Selection of sorbents for removing operating fluids at the vehicle dismantling station. In: Ball, P., Huaccho Huatuco, L., Howlett, R., Setchi, R. (eds) Sustainable Design and Manufacturing 2019. KES-SDM 2019. Smart Innovation, Systems and Technologies, vol 155. Springer, Singapore (2019)
Krolikowski, T., Suslow, W.: Analityczny projekt informatyzacji przedsięwzięcia szkoleniowego. ZNWEiI: 5–23 PK Koszalin 2019 (2019)
Krolikowski, T., Suslow, W.: A concept of a training project IT management system. 4–5 September 2019 “23rd International Conference on Knowledge-Based and Intelligent Information & Engineering Systems” Procedia Computer Science (2019). https://doi.org/10.1016/j.procs.2019.09.317. ISSN: 1877-0509 (poz. 841 konf. punkt. 70)
Zając, W., Andrzejewski, G., Krzywicki, K., Królikowski, T.: Finite state machine based modelling of discrete control algorithm in LAD diagram language with use of new generation engineering software. In: 23rd International Conference on Knowledge-Based and Intelligent Information & Engineering Systems, 4–5 September 2019. Procedia Computer Science (2019). ISSN: 1877-0509. https://doi.org/10.1016/j.procs.2019.09.431
Glowinski, S., Andrzej, B., Krolikowski, T., Knitter, R.: Gait recognition: a challenging task for MEMS signals identification. Sustainable. In: Ball, P., Huaccho Huatuco, L., Howlett, R., Setchi, R. (eds.) Sustainable Design and Manufacturing 2019. KES-SDM 2019. Smart Innovation, Systems and Technologies, vol. 155. Springer, Singapore (2019)
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Remigiusz, K., Andrzej, B., Tomasz, K., Piotr, Z.T., Jerzy, Z. (2021). Test Stand for Metamaterials Dynamic Properties Examination. In: Scholz, S.G., Howlett, R.J., Setchi, R. (eds) Sustainable Design and Manufacturing 2020. Smart Innovation, Systems and Technologies, vol 200. Springer, Singapore. https://doi.org/10.1007/978-981-15-8131-1_5
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DOI: https://doi.org/10.1007/978-981-15-8131-1_5
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