故宫太和殿一层斗拱水平抗震性能试验

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摘要

故宫太和殿斗拱含溜金做法，是明清斗拱的最高形制。为更好地保护古建筑，以故宫太和殿一层平身科

、柱头科、角科斗拱为对象，采取静力试验方法，研究了明清溜金斗拱的水平抗震性能。基于上述斗拱的实际尺

寸，制作了1∶2缩尺比例模型，含不同类型斗拱各1座。分别考虑荷载从横向、纵向作用于各斗拱，开展了低周

反复加载试验。基于试验数据，获得了各斗拱的力-水平侧移(F-u)滞回曲线及骨架曲线，并在此基础上对比研究

了各斗拱的延性系数、耗能性能、刚度退化等抗震参数，提出了斗拱水平刚度简化计算模型。结果表明：太和殿

一层斗拱在水平荷载作用下具有较明显的滑移特性和较差的恢复力。斗拱在不同加载方向上的受力状态不同。随

着u值增大，F值表现为先增大、后减小，最后趋于稳定的过程。对于不同斗拱而言，各斗拱极限承载力Fm大小顺

序为：Fm(角科)>Fm(柱头科横向)>Fm(平身科横向)>Fm(平身科纵向)>Fm(柱头科纵向)；延性系数μ大小顺序为：

μ(柱头科纵向)>μ(平身科纵向)>μ(柱头科横向)>μ(角科)>μ(平身科横向)；耗能能力S大小顺序为：S(平身

科纵向)>S(柱头科横向)>S(角科)>S(平身科横向)>S(柱头科纵向)。与其他2种斗拱相比，角科斗拱的水平刚度退

化不明显。太和殿一层斗拱的水平刚度值简化计算模型可用3线段表示，各阶段的水平刚度值依次减小。

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	周乾杨娜闫维明淳庆

关键词 ：太和殿, 一层斗拱, 溜金做法, 抗震性能, 试验

Abstract：

Liujin Constitution for tou-kungs (bracket sets) of Taihe Palace in the Forbidden City

represented the highest level of tou-kungs in Ming and Qing dynasty. To effectively protect

Chinese ancient buildings, tou-kungs of 1st eave of Taihe Palace were statically tested for their

lateral seismic performance. Based on actual sizes of intermediate set, column set and corner set

of tou-kungs, the corresponding 1/2-scale models (one model for each type of tou-kung) were

fabricated. The tou-kungs were loaded in transverse or longitudinal direction, respectively, and

tested in low-cycle reversed loading conditions. Hysteretic curves of force-lateral displacement

(F-u) as well as the skeleton curves of the models were obtained. Furthermore, the seismic

parameters of tou-kungs, such as ductility, energy dissipation capability, stiffness degradation,

were studied and compared, and a simplified calculation model was proposed for the lateral

stiffness of tou-kungs. Results show that under lateral loads, tou-kungs of 1st eave of Taihe

Palace possess obvious slippage characteristic and poor restoring capability. Stress states of

tou-kungs may vary with the loading direction. With the increase of u, the value of F may firstly

increase, then decrease, and finally tend to be stable. For different types of tou-kungs, the

ultimate bearing capacity Fm may be ordered as Fm (corner set) > Fm (column set, transverse

loading) > Fm(intermediate set, transverse loading) > Fm (intermediate set, longitudinal loading)

> Fm (column set, longitudinal loading); the ductility coefficient μ may be ordered as μ (column

set, longitudinal loading) > μ (intermediate set, longitudinal loading) > μ (column set,

transverse loading) > μ (corner set) > μ (intermediate set, transverse loading); the energy

dissipation capability S may be ordered as S (intermediate set, longitudinal loading) > S (column

set, transverse loading) > S (corner set) > S (intermediate set, transverse loading) > S (column

set, longitudinal loading). Compared to the other 2 types of tou-kungs, degeneration of the

lateral stiffness of column set of tou-kungs may not be obvious. The simplified calculation model

for the lateral stiffness of tou-kungs can be represented by three line segments with the

sequential deceased lateral stiffness.

Key words： Taihe Palace tou-kungs of 1st eave Liujin Constitution seismic performance experiments

引用本文:

周乾杨娜闫维明淳庆 . 故宫太和殿一层斗拱水平抗震性能试验[J]. 土木工程学报, 2016, 49(10): 18-31.
Zhou Qian Yang Na Yan Weiming Chun Qing.

Experimental study on seismic performance of tou-kungs of 1st eave of Taihe Palace in the Forbidden City

. 土木工程学报, 2016, 49(10): 18-31.

链接本文:

http://manu36.magtech.com.cn/Jwk_tmgcxb/CN/ 或 http://manu36.magtech.com.cn/Jwk_tmgcxb/CN/Y2016/V49/I10/18