A Static Load Test Study for One Continuous Beam bridge

A Static Load Test Study for One Continuous Beam bridge

Wei Liu Yanjie Xue 

Jilin University of College of Construction Engineering, Changchun 130010, China

Corresponding Author Email: 
xueyanjie2016@163.com
Page: 
87-92
|
DOI: 
10.18280/eesrj.040401
Received: 
| |
Accepted: 
| | Citation

OPEN ACCESS

Abstract: 

In the bridge construction process, the external environment changes and parameter errors might lead to the deviation of finished bridge state from the theoretical value, therefore a static load test should be conducted at the completion of construction. Static load test of bridge is one key part of new bridge completion acceptance and old bridge detection, and the related test results are the important basis to judge whether the bridge load carrying capacity and stiffness satisfy the specified requirements. With the continuous beam bridge (CBB) as one of the widely-used bridge structural forms, it is of great significance to study the static load test of CBB. This paper, by analysing the practical test of one CBB in Baiyun city, mainly elaborates on the content, principle and result analysis of structural static load test, and emphasizes on the study of the loading scheme design and working conditions plan in static load test of this bridge, which could provide experiences and references for the same type of bridge static tests.

Keywords: 

Continuous Beam Bridge (CBB), Load Distribution Plan, Static Load Test, Strain, Deflection

1. Bridge Introduction
2. Test Content
3. Test Onsite Organization
4. Test Results Analysis
5. Conclusion
  References

[1] Chen H., Li Z.P. (2008). Study on Load Test of Inclined Beam Bridge. Heilongjiang Transportation Technology Press, Vol. 31, No. 6, pp. 50-51. 

[2] Zhou L., Guan G.D., Xie Y.P. (2007). study on static load test of skew bridge, Journal of Highway and Transportation, No. 4, pp. 154-156.

[3] Wang D.N., Wang L., Li M., Sun Y.L. (2014). Study on the static and dynamic load test of Nicky Bridge, Applied Mechanics and Materials, Vol. 2974, No. 501, pp. 501-504, 1194-1198

[4] Peng J.J., Zhang H., Li X.J. (2014). Study on the loading scheme of bridge static load test, Chinese and foreign highways, Vol. 34, No. 06, pp. 188-190.

[5] Wang L.B., Jiang P.W., Ma Y.P., Zhao Y. (2015). Research on the calibration coefficient and optimization evaluation method of static load test, Highway traffic science and technology, Vol. 32, No. 06, pp. 62-68.

[6] Wu J.J., Chen and Zhang Q.W., Yuan W.C. (2004). Field static load test of bridge evaluation and analysis, Highway, No. 12), pp. 62-65.

[7] Huang J., Zhang Z. (2009). The static load test and analysis of the bridge, traffic in the North, No. 08, pp. 69-71.

[8] Ge J. (2015). Application of static load test in bridge detection, China Water Transport (the second half of the month), Vol. 15, No. 07, pp. 220-221.

[9] Liu Z.G., Zhang Y.H. (2007). Dynamic and static load analysis of bridge reinforcement effect, Western Communications Technology, No. 03, pp. 56-60.

[10] Wang B., Chen Zh.Zh. (2006). Tsai minimum static load test and analogue analysis of reinforced concrete arch bridge, Engineering and Construction, No. 03, pp. 181-182.

[11] Han H.B., Wang L., Li Z.X., Long H. (2014). Study on the static and dynamic load test of Skew Bridge, Advanced Materials Research, Vol. 2920, No. 859, pp. 127-130.

[12] Chen N., Cai Sh.H., Li N., Liu Sh.K. (2015). Research on static load tests of damaged bridge strengthened with pre-stressed HFRP, Advanced Materials Research, Vol. 3716, No. 1079, pp. 258-265.

[13] Fan L.X., Hong H. (2014). Study on the static load test of bridge inspection, Advanced Materials Research, Vol. 2920, No. 859, pp. 149-152.

[14] Zhang H., Wang S., Zhou T., An Q.P., Bao K.H. (2014). Study on bridge static test based on close-range photogrammetry, Advanced Materials Research, Vol. 2837, No. 838, pp. 838-841+1054-1057.

[15] Fang T., Guang M.X. (2014). Study on the static load test of bridge inspection, Advanced Materials Research, Vol. 3255, No. 971, pp. 149-152.

[16] Wang W., Wang L. (2014). Study on static and dynamic load test of Huaronggou Bridge, Applied Mechanics and Materials, Vol. 3308, No. 587, pp. 587-589+1500-1506.

[17] De C.F., Yu H.W., Wang L. (2014). Static and dynamic testing study on mechanical behavior of Longtan Bridge, Applied Mechanics and Materials, Vol. 3615, No. 684, pp. 100-104.

[18] Huang J., Zhang Z. (2009). Static load test and analysis of bridge, North Traffic, No. 08, pp. 69-71.

[19] Yu Z.F. (2013). Analysis of an example of a bridge static load test, Anhui Architecture, No. 05, pp. 127-129.

[20] Zhang W.H., Liu X.F., Hu T.B., Chen B. (2012). The bridge static load test case analysis, Journal of Wuhan Polytechnic University, Vol. 31, No. 01, pp. 80-82+92.

[21] Wang W.,Wang L. (2014). Study on static and dynamic load test of Huaronggou Bridge, Applied Mechanics & Materials, pp. 587-589+1500-1506.

[22] Yu S., Zhang T., Zhao Q. (2013). Study on the static and dynamic load test of continuous girder bridge, International Conference on Civil, pp. 405-408+1641-1644.