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http://dx.doi.org/10.12989/cac.2021.28.5.465

Modal analysis and multi-objective optimization of lightweight analysis of the main beam of the concrete spreader  

Zhang, Shiying (School of Mechanical Engineering, Shenyang Jianzhu University)
Song, Bo (Ccteg Shenyang Engineering Company)
Zhang, Ke (School of Mechanical Engineering, Shenyang Jianzhu University)
Chen, Hongliang (Ccteg Shenyang Engineering Company)
Zou, Defang (School of Mechanical Engineering, Shenyang Jianzhu University)
Liu, Chang (Ccteg Shenyang Engineering Company)
Zhu, Chunxia (School of Mechanical Engineering, Shenyang Jianzhu University)
Li, Dong (Northern Heavy Industries Group Co., Ltd.)
Yu, Wenda (School of Mechanical Engineering, Shenyang Jianzhu University)
Publication Information
Computers and Concrete / v.28, no.5, 2021 , pp. 465-478 More about this Journal
Abstract
On the premise of ensuring that the static performance of the concrete spreader is met, the first-order natural frequency of the concrete spreader is increased, and the weight of the main beam is reduced. ANSYS is used as an analysis tool to perform modal analysis on the concrete spreader. The natural frequency, mode shape and modal test verification will be obtained to ensure the accuracy of finite element model analysis. Using the ANSYS designxplorer module, the size of the main beam is set, and the response surface model between the parameter variables and the optimization objective is established according to the experimental design points. Screening algorithm and MOGA algorithm are used to multi-optimize the stress, first-order natural frequency and girder weight, and the optimal solution is obtained by comparison. The results of modal analysis are consistent with those of the experiment, and a set of optimal solutions is obtained through the optimization algorithm. The optimal solution obtained can meet the purpose of increasing the first-order natural frequency of the concrete spreader and reducing the weight of the main beam under the premise of ensuring the overall dynamic and static performance of the concrete spreader.
Keywords
ANSYS; concrete spreader; dynamic and static performance; modal analysis; response surface optimization;
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81 Ghazanfari, A., Soleimani, S.S., Keshavarzzadeh, M., Habibi, M., Assempuor, A. and Hashemi, R. (2020), "Prediction of FLD for sheet metal by considering through-thickness shear stresses", Mech. Base. Des. Struct. Mach., 48(6), 755-772. https://doi.org/10.1080/15397734.2019.1662310.   DOI
82 Al-Furjan, M.S.H., Moghadam, S.A., Dehini, R., Shan, L., Habibi, M. and Safarpour, H. (2021), "Vibration control of a smart shell reinforced by graphene nanoplatelets under external load: Semi-numerical and finite element modeling", Thin. Wall. Struct., 159, 107242. https://doi.org/10.1016/j.tws.2020.107242.   DOI
83 Fazaeli, A., Habibi, M. and Ekrami, A.A. (2016), "Experimental and finite element comparison of mechanical properties and formability of dual phase steel and ferrite-pearlite steel with the same chemical composition", Metallurgical Eng., 19(2), 84-93. https://doi.org/10.22076/ME.2017.41458.1064.   DOI
84 Gao, J., Koopialipoor, M., Armaghani, D.J., Ghabussi, A., Baharom, S., Morasaei, A. and Zhou, J. (2020), "Evaluating the bond strength of FRP in concrete samples using machine learning methods", Smart Struct. Syst., 26(4), 403-418. https://doi.org/10.12989/sss.2020.26.4.403.   DOI
85 Ghabussi, A., Ashrafi, N., Shavalipour, A., Hosseinpour, A., Habibi, M., Moayedi, H. and Safarpour, H. (2019), "Free vibration analysis of an electro-elastic GPLRC cylindrical shell surrounded by viscoelastic foundation using modified length-couple stress parameter", Mech. Base. Des. Struct. Mach., 1-25. https://doi.org/10.1080/15397734.2019.1705166.   DOI
86 Ghabussi, A., Marnani, J.A. and Rohanimanesh, M.S. (2020), "Improving seismic performance of portal frame structures with steel curved dampers", Struct. 24, 27-40. https://doi.org/10.1016/j.istruc.2019.12.025.   DOI
87 Ghabussi, A., Marnani, J.A. and Rohanimanesh, M.S. (2021), "Seismic performance assessment of a novel ductile steel braced frame equipped with steel curved damper", Struct. 31, 87-97. https://doi.org/10.1016/j.istruc.2021.01.073.   DOI
88 Ghazanfari, A., Assempour, A., Habibi, M. and Hashemi, R. (2016), "Investigation on the effective range of the through thickness shear stress on forming limit diagram using a modified Marciniak-Kuczynski model", Modares Mech. Eng., 16(1), 137-143. https://doi.org/10.12989/sss.2020.26.4.403.   DOI
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90 Shariati, M., Sulong, N.R., Shariati, A. and Khanouki, M.A. (2016), "Behavior of V-shaped angle shear connectors: Experimental and parametric study", Mater. Struct., 49(9), 3909-3926. https://doi.org/10.1617/s11527-015-0762-8.   DOI
91 Shariati, M., Faegh, S.S., Mehrabi, P., Bahavarnia, S., Zandi, Y., Masoom, D.R. and Salih, M.N. (2019), "Numerical study on the structural performance of corrugated low yield point steel plate shear walls with circular openings", Steel Compos. Struct., 33(4), 569-581. https://doi.org/10.12989/scs.2019.33.4.569.   DOI
92 Shariati, M., Ghorbani, M., Naghipour, M., Alinejad, N. and Toghroli, A. (2020), "The effect of RBS connection on energy absorption in tall buildings with braced tube frame system", Steel Compos. Struct., 34(3), 393-407. https://doi.org/10.12989/scs.2020.34.3.393.   DOI
93 Shariati, M., Lagzian, M., Maleki, S., Shariati, A. and Trung, N.T. (2020), "Evaluation of seismic performance factors for tension-only braced frames", Steel Compos. Struct., 35(4), 599-609. https://doi.org/10.12989/scs.2020.35.4.599.   DOI
94 Shariati, M., Mafipour, M.S., Ghahremani, B., Azarhomayun, F., Ahmadi, M., Trung, N.T. and Shariati, A. (2020), "A novel hybrid extreme learning machine-grey wolf optimizer (ELM-GWO) model to predict compressive strength of concrete with partial replacements for cement", Eng. Comput., 1-23. https://doi.org/10.1007/s00366-020-01081-0.   DOI
95 Ebrahimi, F., Hajilak, Z.E., Habibi, M. and Safarpour, H. (2019), "Buckling and vibration characteristics of a carbon nanotube-reinforced spinning cantilever cylindrical 3D shell conveying viscous fluid flow and carrying spring-mass systems under various temperature distributions", Proc. Inst. Mech. Eng. Part C J. Mech. Eng. Sci., 233(13), 4590-4605. https://doi.org/10.1177/0954406219832323.   DOI
96 Ebrahimi, F., Mohammadi, K., Barouti, M.M. and Habibi, M. (2019), "Wave propagation analysis of a spinning porous graphene nanoplatelet-reinforced nanoshell", Wave. Random Complex Media, 1-27. https://doi.org/10.1080/17455030.2019.1694729.   DOI
97 Safarpour, M., Ghabussi, A., Ebrahimi, F., Habibi, M. and Safarpour, H. (2020), "Frequency characteristics of FG-GPLRC viscoelastic thick annular plate with the aid of GDQM", Thin Wall. Struct., 150, 106683. https://doi.org/10.1016/j.tws.2020.106683.   DOI
98 Shariati, A., Habibi, M., Tounsi, A., Safarpour, H. and Safa, M. (2021), "Application of exact continuum size-dependent theory for stability and frequency analysis of a curved cantilevered microtubule by considering viscoelastic properties", Eng. Comput., 37(4), 3629-3648. https://doi.org/10.1007/s00366-020-01024-9.   DOI
99 Habibi, M., Hashemi, R., Tafti, M.F. and Assempour, A. (2018), "Experimental investigation of mechanical properties, formability and forming limit diagrams for tailor-welded blanks produced by friction stir welding", J. Manu. Proc., 31, 310-323. https://doi.org/10.1016/j.jmapro.2017.11.009.   DOI
100 Habibi, M., Mohammadgholiha, M. and Safarpour, H. (2019), "Wave propagation characteristics of the electrically GNP-reinforced nanocomposite cylindrical shell", J. Brazil. Soc. Mech. Sci. Eng., 41(5), 1-15. https://doi.org/10.1007/s40430-019-1715-x.   DOI
101 Habibi, M., Mohammadi, A., Safarpour, H. and Ghadiri, M. (2019), "Effect of porosity on buckling and vibrational characteristics of the imperfect GPLRC composite nanoshell", Mech. Base. Des. Struct. Mach., 1-30. https://doi.org/10.1080/15397734.2019.1701490.   DOI
102 Xu, W., Pan, G., Moradi, Z. and Shafiei, N. (2021), "Nonlinear forced vibration analysis of functionally graded non-uniform cylindrical microbeams applying the semi-analytical solution", Compos. Struct., 275, 114395. https://doi.org/10.1016/j.compstruct.2021.114395.   DOI
103 Li, X., Yang, H., Zhang, J., Qian, G., Yu, H. and Cai, J. (2021), "Time-domain analysis of tamper displacement during dynamic compaction based on automatic control", Coat., 11(9), 1092. https://doi.org/10.3390/coatings11091092.   DOI
104 Li, Y., Li, S., Guo, K., Fang, X. and Habibi, M. (2020), "On the modeling of bending responses of graphene-reinforced higher order annular plate via two-dimensional continuum mechanics approach", Eng. Comput., 1-22. https://doi.org/10.1007/s00366-020-01166-w.   DOI
105 Wenbin, H., Zengfei, W. and Zhang, W. (2014), "Optimization design for auto-body beam section based on complex engineering constraints", J. Mech. Eng., 50(18), 127-133. https://doi.org/10.13140/2.1.3776.3524.   DOI
106 Xu, J., Wu, Z., Chen, H., Shao, L., Zhou, X. and Wang, S. (2021), "Study on strength behavior of basalt fiber-reinforced loess by Digital Image Technology (DIT) and Scanning Electron Microscope (SEM)", Arab. J. Sci. Eng., 1-20. https://doi.org/10.1007/s13369-021-05787-1.   DOI
107 Yu, X., Maalla, A. and Moradi, Z. (2022), "Electroelastic high-order computational continuum strategy for critical voltage and frequency of piezoelectric NEMS via modified multi-physical couple stress theory", Mech. Syst. Sign. Proc., 165, 108373. https://doi.org/10.1016/j.ymssp.2021.108373.   DOI
108 Zare, R., Najaafi, N., Habibi, M., Ebrahimi, F. and Safarpour, H. (2020), "Influence of imperfection on the smart control frequency characteristics of a cylindrical sensor-actuator GPLRC cylindrical shell using a proportional-derivative smart controller", Smart Struct. Syst., 26(4), 469-480. https://doi.org/10.12989/sss.2020.26.4.469.   DOI
109 Habibi, M., Taghdir, A. and Safarpour, H. (2019), "Stability analysis of an electrically cylindrical nanoshell reinforced with graphene nanoplatelets", Compos. Part B Eng., 175, 107125. https://doi.org/10.1016/j.compositesb.2019.107125.   DOI
110 Hashemi, H.R., Alizadeh, A.A., Oyarhossein, M.A., Shavalipour, A., Makkiabadi, M. and Habibi, M. (2019), "Influence of imperfection on amplitude and resonance frequency of a reinforcement compositionally graded nanostructure", Wave. Random Complex Media, 1-27. https://doi.org/10.1080/17455030.2019.1662968.   DOI
111 Hou, F., Wu, S., Moradi, Z. and Shafiei, N. (2021), "The computational modeling for the static analysis of axially functionally graded micro-cylindrical imperfect beam applying the computer simulation", Eng. Comput., 1-19. https://doi.org/10.1007/s00366-021-01456-x.   DOI