等p等b应力路径下堆石料力学特性试验研究

doi:10.11988/ckyyb.20240259

raybet体育在线院报 ›› 2025, Vol. 42 ›› Issue (5): 147-154.DOI: 10.11988/ckyyb.20240259

等p等b应力路径下堆石料力学特性试验研究

潘家军¹(), 王俊鹏¹, 周跃峰¹(), 万航¹^,², 孙向军³, 韩冰¹

¹ raybet体育在线水利部岩土力学与工程重点实验室,武汉 430010
² 三峡大学土木与建筑学院,湖北宜昌 443002
³ 中国水利水电科学研究院流域水循环模拟与调控国家重点试验室,北京 100048

收稿日期:2024-03-18 修回日期:2024-05-29 出版日期:2025-05-01 发布日期:2025-05-01
通信作者:
周跃峰(1982-),男,山西侯马人,正高级工程师,博士,主要从事土的工程本征性与土石坝筑坝技术研究。E-mail: zhou.yuefeng@163.com
作者简介:
潘家军(1980-),男,湖北孝感人,正高级工程师,博士,主要从事粗粒土力学特性与土石坝工程研究。E-mail:pj62739663@126.com
基金资助:
国家自然科学基金面上项目(51979010); 中央公益性科研院所基本科研业务费项目(CKSF2023318/YT)

Experimental Study on Mechanical Properties of Rockfill Materials under Constant p and Constant b Stress Paths

PAN Jia-jun¹(), WANG Jun-peng¹, ZHOU Yue-feng¹(), WAN Hang¹^,², SUN Xiang-jun³, HAN Bing¹

¹ Key Laboratory of Geotechnical Mechanics and Engineering of Ministry of Water Resources, Changjiang River Scientific Research Institute,Wuhan 430010,China
² College of Civil Engineering and Architecture,China Three Gorges University,Yichang 443002, China
³ State Key Laboratory of Simulation and Regulation of Water Cycle in River Basins, China Institute of Water Resources and Hydropower Research, Beijing 100048, China

Received:2024-03-18 Revised:2024-05-29 Published:2025-05-01 Online:2025-05-01

摘要/Abstract

摘要： 针对某典型筑坝堆石料,开展了系列等p等b应力路径下的真三轴固结排水剪切试验,探讨了球应力p、中主应力系数b和初始干密度ρ₀对堆石料应力-应变规律、强度特性以及π平面上应力-应变增量方向非共轴特性的影响。在实测试验数据的基础上对比分析了考虑中主应力影响下常用强度准则对堆石料强度的适用性。结果表明:①随着球应力p与初始干密度ρ₀的增大,堆石料的初始剪切模量E_i与峰值强度q_max均随之增大。②球应力p增大会抑制剪胀特性;初始干密度高时试样更容易进入剪胀状态;随中主应力系数b的增大,峰值强度q_max减小,剪胀特性增强。③Lade-Duncan强度准则能够较好地描述堆石料的非线性强度特性。④试样初始剪切阶段,非共轴性最强,在试样接近失稳破坏时,应力应变增量方向逐渐趋于共轴。⑤非共轴性随着b的增大呈现先增大后减小的趋势;随着p的增大,非共轴性逐渐减弱;随着ρ₀的增大,非共轴性逐渐增强。

关键词: 堆石料, 真三轴试验, 应力-应变关系, 剪胀性, 非共轴性

Abstract:

[Objective] Under the actual filling conditions of high rockfill dams, rockfill materials are typically subjected to complex three-dimensional stress states. This study aims to investigate the effects of spherical stress (p), intermediate principal stress coefficient (b), and initial dry density ( ρ₀) on the stress-strain relationships, strength characteristics, and non-coaxiality of stress-strain increment directions on the π-plane of rockfill materials. [Methods] Consolidated-drained true triaxial shear tests were conducted on typical rockfill materials for dam construction with constant p and constant b stress paths under three-dimensional conditions involving different p, b, and ρ₀. Based on experimentally measured data, conventional strength criteria considering intermediate principal stress effects were comparatively analyzed for their applicability to rockfill material strength. [Results] The results showed that: (1) as p increased, the q- ε₁ relationship curves exhibited a progressively steeper strain-hardening trend. The initial shear modulus (E_i) increased correspondingly, and peak shear strength (q_max) significantly enhanced. Shear contraction grew while dilation development was suppressed, and the failure stress ratio (M_b) gradually decreased as p increased. (2) With increasing b, both E_i and q_max progressively declined. Reduced shear contraction made the rockfill materials transition more rapidly into dilation, with increasingly significant dilatancy. M_b demonstrated a downward trend. (3) As ρ₀ increased, both E_i and q_max increased markedly. Rockfill materials entered dilation earlier with progressively greater dilatancy, and M_b exhibited an upward trend. [Conclusion] The conclusions are as follows: (1) an increase in p significantly enhances the shear strength of rockfill materials, and the influence of b on its strength progressively diminishes. As ρ₀ rises, both the initial shear modulus and shear strength increase markedly, highlighting the necessity for strict quality control during dam construction. (2) The Lade-Duncan strength criterion effectively characterizes the nonlinear strength characteristics of rockfill materials, while the Mohr-Coulomb criterion yields conservative predictions due to its neglect of intermediate principal stress effects. (3) Non-coaxiality between stress and strain increment directions is observed on the π-plane during testing. This non-coaxial behavior is most pronounced during the initial shear stage, and it gradually transitions toward coaxiality as the specimen approaches instability failure. (4) The non-coaxiality of rockfill materials initially increases and then decreases with increasing b. It gradually weakens with increasing p, with the weakening rate diminishing, and it intensifies with higher ρ₀ with a progressively faster intensifying rate.

Key words: rockfill material, true triaxial test, stress-strain relationship, dilatancy, non-coaxiality

中图分类号:

TU43土力学

潘家军, 王俊鹏, 周跃峰, 万航, 孙向军, 韩冰. 等p等b应力路径下堆石料力学特性试验研究[J]. raybet体育在线院报, 2025, 42(5): 147-154.

PAN Jia-jun, WANG Jun-peng, ZHOU Yue-feng, WAN Hang, SUN Xiang-jun, HAN Bing. Experimental Study on Mechanical Properties of Rockfill Materials under Constant p and Constant b Stress Paths[J]. Journal of Changjiang River Scientific Research Institute, 2025, 42(5): 147-154.

图/表 13

图1 堆石料原始级配和试验级配曲线

Fig.1 Original and experimental particle size distribution curves of rockfill materials

图2 试验堆石料

Fig.2 Experimental rockfill materials

图3 raybet体育在线大型真三轴仪

Fig.3 Large-scale true triaxial apparatus at Changjiang River Scientific Research Institute

表1 试验方案

Table 1 Experimental schemes

试验编号	ρ₀/(g·cm^-3)	p/MPa	b	θ_σ/(°)
mb-1	2.0	0.2	0.25	-16.1°
mb-2		0.4
mb-3		0.6
mb-4		0.8
mp-1	2.0	0.6	0	-30.0°
mp-2			0.25	-16.1°
mp-3			0.5	0.0°
mp-4			0.75	16.1°
mp-5			1	30°
pb-1	1.96	0.6	0.25	-16.1°
pb-2	2.00
pb-3	2.04
pb-4	2.08
pb-5	2.12

图4 应力路径

Fig.4 Stress paths

表2 试验成果汇总

Table 2 Summary of experimental results

试验编号	q_max/MPa	M_b	E_i/MPa	θ_d
mb-1	0.53	2.35	43.7	15.6
mb-2	0.80	1.99	59.6	12.3
mb-3	1.09	1.82	71.1	10.2
mb-4	1.27	1.59	101.2	9.2
mp-1	1.39	2.32	74.3	3.5
mp-2	1.09	1.82	71.1	10.2
mp-3	0.97	1.62	69.3	14.2
mp-4	0.91	1.51	68.3	9.7
mp-5	0.85	1.42	68.0	5.4
pb-1	0.99	1.66	67.4	9.6
pb-2	1.09	1.82	71.1	10.2
pb-3	1.16	1.94	89.5	11.0
pb-4	1.26	2.10	98.5	12.6
pb-5	1.34	2.24	110.9	15.3

图5 不同条件下q-ε1关系曲线

Fig.5 Curves of q- ε1 relationship under different conditions

图6 不同条件下体变-应变关系曲线

Fig.6 Curves of volumetric strain versus strain under different conditions

表3 常见的岩土材料强度准则

Table 3 Common strength criteria for geomaterials

破坏准则	表达式	破坏准则	表达式
Mohr-Coulomb	$σ 1 = 1 + s i n φ 1 - s i n φ σ 3 + 2 c c o s φ 1 - c o s φ$	Lade-Duncan	$I 13 I 3 = k 1$
Mohr-Coulomb		SMP	$I 1 I 2 I 3 = k 2$

表3 常见的岩土材料强度准则

Table 3 Common strength criteria for geomaterials

破坏准则	表达式	破坏准则	表达式
Mohr-Coulomb	$σ 1 = 1 + s i n φ 1 - s i n φ σ 3 + 2 c c o s φ 1 - c o s φ$	Lade-Duncan	$I 13 I 3 = k 1$
Mohr-Coulomb		SMP	$I 1 I 2 I 3 = k 2$

图7 π平面上应力状态线和经典强度包络线

Fig.7 Stress state paths and classical strength envelopes on π-plane

图8 破坏应力比Mb随p、b变化规律

Fig.8 Variation pattern of failure stress ratio Mb with p and b

图9 θσ和θε随大主应变ε1的变化

Fig.9 Variations in θσ and θε with major principal strain ε1

图10 不同b值条件下的统计偏转量θd

Fig.10 Statistical deviation angle θd under different b values

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等p等b应力路径下堆石料力学特性试验研究

Experimental Study on Mechanical Properties of Rockfill Materials under Constant p and Constant b Stress Paths

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