Prediction of Mechanical Properties of Frozen Soils Using Response Surface Method: An Optimization Approach

M. Vahdani; M. Ghazavi; M. Roustaei

Prediction of Mechanical Properties of Frozen Soils Using Response Surface Method: An Optimization Approach

محل انتشار: ماهنامه بین المللی مهندسی، دوره: 33، شماره: 10

سال انتشار: 1399

نوع سند: مقاله ژورنالی

زبان: انگلیسی

مشاهده: 210

فایل این مقاله در 16 صفحه با فرمت PDF قابل دریافت می باشد

دریافت فایل کامل مقاله

صدور گواهی نمایه سازی
من نویسنده این مقاله هستم

استخراج به نرم افزارهای پژوهشی:

لینک ثابت به این مقاله:

https://civilica.com/doc/1185270

شناسه ملی سند علمی:

JR_IJE-33-10_002

تاریخ نمایه سازی: 6 اردیبهشت 1400

چکیده مقاله:

The present study was based on a promoting statistical method known as response surface method (RSM). RSM has been applied as an efficient method to optimize many physical applications in industry for more than two decades. In the current study, the RSM was utilized as a platform to develop models as a function of some prescribed input factors to predict mechanical properties (responses) of frozen soils (i.e. peak tensile/compressive strength, elasticity modulus). Besides, RSM makes it possible to find significant factors and probable interactions as well. A widespread literature review was conducted and three case studies were chosen to evaluate the performance of the RSM in developing precise models and finally an optimum experiment. For each case study, less than half of the available data (an average of ۴۰.۸%) was employed to develop models and the remaining part was employed to evaluate the validity of derived models. A comparison between predicted and measured data showed a good agreement with a significant level of ۰.۰۵. This indicates that upon using the model a hundred times to predict an specific property for different input factors, the maximum five predictions may diverge from the measured values with ± confidence interval. In addition, some contours were plotted to give a comprehensive presentation of any probable correlations between investigated properties and input factors. Based on the developed models with an average correlation coefficients (R۲) of ۹۳.۶۹, temperature was found to be the most significant factor affecting the mechanical properties of frozen fine soil, while the dry density was not as effective as the temperature.

کلیدواژه ها:

Frozen soil ، Mechanical properties ، Prediction models ، response surface method ، Statistical optimization

نویسندگان

M. Vahdani

Faculty of Civil Engineering, K. N. Toosi University of Technology, Tehran, Iran

M. Ghazavi

Faculty of Civil Engineering, K. N. Toosi University of Technology, Tehran, Iran

M. Roustaei

Civil Engineering Department, Islamic Azad University, Qazvin Branch, Qazvin, Iran

مراجع و منابع این مقاله:

لیست زیر مراجع و منابع استفاده شده در این مقاله را نمایش می دهد. این مراجع به صورت کاملا ماشینی و بر اساس هوش مصنوعی استخراج شده اند و لذا ممکن است دارای اشکالاتی باشند که به مرور زمان دقت استخراج این محتوا افزایش می یابد. مراجعی که مقالات مربوط به آنها در سیویلیکا نمایه شده و پیدا شده اند، به خود مقاله لینک شده اند :

1. Li, H., Zhu, Y., Zhang, J., and Lin, ...
2. Cui, Z., He, P., and Yang, W. “Mechanical ...
3. Qi, J., Ma, W., and Song, C. “Influence ...
4. Montgomery, D. C. Design and Analysis of Experiments ...
5. Jessbergger, H. L. “A state-of.the-art report. ground freezing: ...
6. Wang, D., Ma, W., Niu, Y., Chang, X., ...
7. Yang, Y., Lai, Y., and Chang, X. “Laboratory ...
8. Wang, S., Qi, J., and Yao, X. “Stress ...
9. Yu, F., Qi, J., Yao, X., and Liu, ...
10. Zhang, S., Lai, Y., Sun, Z., and Gao, ...
11. Xu, X., Lai, Y., Dong, Y., and Qi, ...
12. Dieter Eigenbrod, Sven Knutsson, D. S. “Pore-water pressure ...
13. Z. Yuanlin and D. L. Carbee. “Uniaxial compressive ...
14. Yao, X., Qi, J., Yu, F., and Ma, ...
15. Wang, D., Zhu, Y., Ma, W., and Niu, ...
16. Park, J., and Lee, J. “Characteristics of elastic ...
17. Akagawa, S., and Nishisato, K. “Tensile strength of ...
18. Yang, Y., Lai, Y., and Li, J. “Laboratory ...
19. Christ, M., and Kim, Y. “Experimental Study on ...
20. Xu, X., Wang, Y., Yin, Z., and Zhang, ...
21. Liu, X., Liu, E., Zhang, D., Zhang, G., ...
22. Liu, Z., Liu, J., Li, X., and Fang, ...
23. Fei, W., and Yang, Z. J. “Modeling unconfined ...
24. Zhang, D., Liu, E., Liu, X., Zhang, G., ...
25. Zhou, Z., Ma, W., Zhang, S., Mu, Y., ...
26. Vahdani, M., Ghazavi, M., and Roustaei, M. “Measured ...
27. Wang, T., and Su, L. “Experimental Study on ...
28. Konrad, J. “Influence of Cooling rate on the ...
29. Ahmed, A., and Ugai, K. “Environmental effects on ...
30. Altun, S., Sezer, A., and Erol, A. “The ...
31. Gullu, H., and Hazirbaba, K. “Unconfined compressive strength ...
32. Hazirbaba, K., and Gullu, H. “California Bearing Ratio ...
33. Kalkan, E. “Effects of silica fume on the ...
34. Kamei, T., Ahmed, A., and Shibi, T. “Effect ...
35. Liu, J., Wang, T., and Tian, Y. “Experimental ...
36. Olgun, M. “The effects and optimization of additives ...
37. Yarbasi, N., Kalkan, E., and Akbulut, S. “Modification ...
38. Aldaood, A., Bouasker, M., and Al-mukhtar, M. “Impact ...
39. Sadr Karimi, J. “Compressive strength freeze and thaw ...
40. Christ, M., and Park, J. “Laboratory determination of ...
41. Ghazavi, M., and Roustaei, M. “Thaw performance of ...
42. Ghazavi, M., and Roustaie, M. “The influence of ...
43. Jafari, M., and Esna-ashari, M. “Effect of waste ...
44. Zaimoglu, A. S. “Freezing – thawing behavior of ...
45. Shoop, S., Affleck, R., Haehnel, R., and Janoo, ...
46. Li, N., Chen, F., Su, B., and Cheng, ...
47. Li, N., Chen, F., Xu, B., and Swoboda, ...
48. Li, N., Chen, B., Chen, F., and Xu, ...
49. Qi, J., Yao, X., Yu, F., and Liu, ...
50. Wang, S., Qi, J., Yu, F., and Yao, ...
51. Zhiwu, Z., Jianguo, N., and Shuncheng, S. “Finite-element ...
52. Lai, Y., Jin, L., and Chang, X. “Yield ...
53. Liu, Z., and Yu, X. “Coupled thermo-hydro-mechanical model ...
54. Lackner, R., Pichler, C., and Kloiber, A. “Artificial ...
55. Yang, Y., Lai, Y., Dong, Y., and Li, ...
56. Yuanming, L., Yugui, Y., Xiaoxiao, C., and Shuangyang, ...
57. Lai, Y., Pei, W., Zhang, M., and Zhou, ...
58. Shoop, S. A., and Bigl, S. R. “Moisture ...
59. Tsypkin, G. G. “Effect of the Capillary Forces ...
60. Horiguchi, K. “An osmotic model for soil freezing.” ...
61. Nakano, Y. “Water expulsion during soil freezing described ...
62. Biermans, M. B. G. M., Dijkema, K. M., ...
63. Zhao, Y., Yu, B., Yu, G., and Li, ...
64. Song, W., Zhang, Y., Li, B., and Fan, ...
65. Wu, D., Lai, Y., and Zhang, M. “Heat ...
66. Nakano, Y., and Tice, A. R. “Transport of ...
67. Menot, L. M. “Equations of frost propagation in ...
68. Zhou, Y., and Zhou, G. “Numerical simulation of ...
69. Zhihua, G., Yuanming, L., Mingyi, Z., Jilin, Q., ...
70. Exadaktylos, G. E. “Freezing–Thawing Model for Soils and ...
71. Yang, W., Kong, L., and Chen, Y. “Numerical ...
72. Saeedmonir, H., Gheyretmand, C., and Sarlak, A. “Numerical ...
73. Akbari Garakani, A., Sadeghi, H., Saheb, S., and ...
74. Khanmohammadi, M., and Fakharian, K. “Evaluation of performance ...
75. Safarzadeh, Z., and Aminfar, M. H. “Experimental and ...
76. Iraji, A. “Reinforced soil wall analysis under working ...
77. Poorebrahim, G. R., and Malekpoor, M. R. “Behavior ...
78. Mehdipour, I., Vahdani, M., Amini, K., and Shekarchi, ...
79. Figueiras, H., Nunes, S., Sousa, J., and Andrade, ...
80. Hwang, S.-D., and Khayat, K. H. “Durability characteristics ...
81. Anderson, C., Borror, C. M., and Montgomery, D. ...
82. Box, G. E. P., and Draper, N. R. ...
83. Montgomery, D. C., Vining, G. G., and Borror, ...
84. Khuri, A. I., and Cornell, J. A. Response ...

نمایش کامل مراجع