Research on Bearing Capacity Design Reliability of RC Crane Beams

 For the bearing capacity design of RC crane beams, the crane load action partial coefficients are determined by engineering experience for lacking the probability models of the crane load and combination actions. So the design reliability level of the beams is unknown. For the bending and shearing capacity design method of the RC crane beams, the probability model and the statistical results of crane load were introduced, and the design reliability indicators were calibrated with the basic variables non-dimension. The design reliability indicators were 5.79 and 5.87 respectively for the one and two-way bending design, and 5.31 for the oblique section shear design. The reliability index was high and conservative for the bearing capacity design of the crane beams. It quantitatively analyzed the different influence of each factors on the reliability of the crane beams, and gave some reasonable suggestions for the design and maintenance.

Keywords:  crane beam,  bearing capacity design,  reliability calibration,  design and maintenance suggestion

GB 50153—2008 Unified standard for reliability design of engineering structures [S]. Beijing：China Architecture and Building Press，2008：14—16(In Chinese)

GB 50009—2012 Load code for the design of building structures [S]. Beijing：China Architecture and Building Press，2012：9—12 (In Chinese)

SHAO Z M. Progress of the structural probability limit state design method—International Standard "General Principles of Structural Reliability"(1996)summary(four)[J]. Building Structures，1998 (10): 55—60(In Chinese)

GB 50068—2018 Unified standard for reliability design of building structures [S]. Beijing：China Architecture and Building Press，2018：25—26(In Chinese)

YAO J T，GU H，CHEN L Z. Probability analysis of crane load and load combination actions [J]. Mathematical Problems in Engineering，2018，11：1—13

ISO 239—2015 General principles on reliability for structures[S]. Geneva: International Organization for Standardization，2015：41— 47

EN 1990：2002 Euro code - basis of structural design[S]. Brussels： European Communities and European Committee for Standardisation 2002：38—47

GB 50010—2015 Code for design of concrete structures [S]. Beijing：China Architecture and Building Press，2015：7—10 (In Chinese)

GB 50906—2013 Code for design of machinery industry workshop structures[S]. Beijing：China Plan Press，2013：37(In Chinese)

YS 06—78 Design procedures for the reinforced concrete crane beams[S]. Beijing：Metallurgical Industry Press，1978：10—11(In Chinese)

ZHANG W X，LIU Y，CHENG C N. Peliability analysis of reinforced concrete frame structure considering the influence of construction error [J]. Journal of Hunan University(Natural Sciences)，2017，44(7)：69—77(In Chinese)

GB J68—84 Unified standard for design of building structures[S]. Beijing：China Architecture and Building Press，1984：42—45 (In Chinese)