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1.
为了探讨废旧轮胎和建筑垃圾用于加筋地基的可行性,通过不同工况下的地基模型试验,研究压实度、填料、筋材对地基荷载-沉降特性的影响,并从土表变形和土压力方面简要探讨了加筋地基的工作机理.试验结果表明:提高压实度,地基的承载力和初始刚度均增大,沉降减小,建筑垃圾土的荷载-沉降特性优于砂土;同等条件下,废旧轮胎的加筋效果比土工...  相似文献   

2.
对新建兴泉铁路黄塘车站挤密螺纹桩复合地基的桩、土沉降及应力进行监测,分析了路堤荷载下桩、土沉降及差异沉降变化规律,桩土应力比与差异沉降关系。结果表明:桩、土沉降及差异沉降均随路堤填土高度的增加而呈线性增大;桩顶和桩间土应力随路堤填土高度的增加均不断增大,且桩顶应力大于桩间土应力;桩土应力比随着桩土差异沉降的增加先增加后减小,最终趋于稳定。结合修正的Terzaghi土拱理论提出了简化桩土应力比随桩土差异沉降变化曲线。现场试验分析结果有助于完善挤密螺纹桩复合地基设计理论,为工程实践提供一定的参考。  相似文献   

3.
在建筑物基底附加压力的作用下,地基内各点除了承受起土体自重应力外,还受到了附加应力的荷载。因此,在附加应力作用下地基土就会产生附加的变形,这就是引发地基不均匀沉降的"导火线"。本文通过引入Heaviside函数及有限元法建立起地基土与地基梁的内力微分方程模型。  相似文献   

4.
研究目的:研究混凝土芯水泥土搅拌桩在路堤荷载下的荷载传递规律和变形控制机理。创新要点:评价路堤荷载下混凝土芯水泥土搅拌桩的地基处理效果,测量混凝土芯的竖向应力变化规律和复合地基桩土荷载分担特点,并分析填土过程中混凝土芯水泥土搅拌桩复合地基的固结规律。研究方法:通过埋设沉降板、分层沉降管、测斜管、土压力盒、孔隙水压力计以及钢筋应力计,在路堤填筑过程中对混凝土芯水泥土搅拌桩复合地基进行了长期现场试验。重要结论:1.混凝土芯水泥土搅拌桩复合地基的总沉降、工后沉降以及深层水平位移控制效果均较好,优于普通水泥土搅拌桩复合地基;2.混凝土芯水泥土搅拌桩复合地基的桩土应力比以及荷载分担比均大于普通水泥土搅拌桩复合地基,能有效减小土体表面的荷载量,对于控制沉降有一定的效果。3.在路堤这种柔性荷载作用下,混凝土芯水泥土搅拌桩上部会出现一定的负摩擦阻力,存在一个"中性点"。4.混凝土芯水泥土搅拌桩复合地基的固结速率较快,能有效控制由于主固结引起的长期沉降。  相似文献   

5.
路堤荷载下混凝土芯水泥土搅拌桩工作特性研究   总被引:1,自引:0,他引:1  
研究目的:研究混凝土芯水泥土搅拌桩在路堤荷载下的荷载传递规律和变形控制机理。创新要点:评价路堤荷载下混凝土芯水泥土搅拌桩的地基处理效果,测量混凝土芯的竖向应力变化规律和复合地基桩士荷载分担特点,并分析填土过程中混凝土芯水泥土搅拌桩复合地基的固结规律。研究方法:通过埋设沉降板、分层沉降管、测斜管、土压力盒、孔隙水压力计以及钢筋应力计,在路堤填筑过程中对混凝土芯水泥土搅拌桩复合地基进行了长期现场试验。重要结论:1.混凝土芯水泥土搅拌桩复合地基的总沉降、工后沉降以及深层水平位移控制效果均较好,优于普通水泥土搅拌桩复合地基:2.混凝土芯水泥土搅拌桩复合地基的桩土应力比以及荷载分担比均大于普通水泥土搅拌桩复合地基,能有效减小土体表面的荷载量,对于控制沉降有一定的效果。3.在路堤这种柔性荷载作用下,混凝土芯水泥土搅拌桩上部会出现一定的负摩擦阻力,存在一个“中性点”。4.混凝土芯水泥土搅拌桩复合地基的固结速率较快,能有效控制由于丰崮结引起的长期沉降。  相似文献   

6.
本文分析了几种常见的计算地基沉降的方法,着重介绍了考虑应力历史、侧向变形和有效应力对分层总和法的改进。提出影响地基沉降计算准确度的是:方法本身能否反映地基的成层性和非均质性;能否考虑到土的非线性特点。  相似文献   

7.
世界文化遗产敦煌莫高窟以精美的壁画闻名于世。泥质地仗中添加植物纤维有助于提高地仗强度,但对于改善干缩方面的认识不足。本文利用液体石蜡法测试草泥层地仗和麻泥层地仗的收缩曲线,探讨了不同含量的加筋材料对地仗层收缩性质的影响。收缩曲线表明,当地仗层中加入一种加筋材料时,随着加筋材料含量的增加,地仗层不再发生收缩变形并且含水率(即缩限)不断增大,体缩率不断减小。分析认为,加筋材料增大了土颗粒之间的摩擦阻力,部分抵消了毛细压力,从而限制了土体的干缩变形。这意味着,古人在澄板土中加入加筋材料不仅提高了地仗的强度,而且改善了澄板土的收缩特性,解决了湿地仗的失水收缩问题。  相似文献   

8.
柔性浅基础不具备调整地基变形的能力,针对这一缺点,可在基底应力较大的部位设置强度较大的垫层,而在应力较小的部位设置强度较小的垫层,即通过在基底设置中心刚度大、边缘刚度小的变刚度垫层,以有效调整地基土的应力分布,改善地基土工作性状。采用PLAXIS2D有限元软件,分析比较了柔性浅基础下设置不同工况的变刚度垫层对地基土中应力分布及基础差异沉降的影响.发现在基底中部0.5~0.6倍基宽范围内设置变刚度垫层时,差异沉降控制效果最好。  相似文献   

9.
借助大型路基差异沉降平台,对沥青混凝土路面层与水泥稳定碎石半刚性基层的应变响应和沉降变形特征足尺模型进行了试验研究,并结合足尺模型试验研究成果,建立了路面结构层对路基不协调变形力学响应的有限元模型,研究了路面结构层的应力变化特征.研究结果表明:在地基差异沉降作用下,半刚性基层整体呈现受压状态,沥青混凝土面层整体呈现受拉状态,最大附加拉应力和最大附加压应力都在距离路面接缝位置1m的位置出现.在地基差异沉降达到14cm时,路面结构层开始出现塑性变形;当路面结构层底部差异沉降量超过约1cm时,基层的上部最大附加拉应力为0.28MPa,超过了现行规格规定的基层材料水泥稳定级配碎石的劈裂抗拉强度.  相似文献   

10.
本以水泥搅拌桩复合地基为例,应用有限元软件Plaxis对轴对称荷载作用下复合地基沉降计算模型进行计算分析,研究了沉降发展规律以及加固深度,土体渗透系数对下卧层固结沉降的影响等问题,得出了一些有益的结论。  相似文献   

11.
为分析基坑内侧土体加固对支护结构水平位移的影响规律,将加固体及未加固土体视为复合土体,以弹性地基梁法为基础建立支挡结构的杆系有限元模型,结合工程实例计算分析土体加固参数对支护结构水平位移的影响。结果表明,支护结构水平位移随加固深度的增加而减小,且存在临界深度。当加固体的水泥掺量在0~15%范围内增加或置换率在0~0.5范围内增加,支护结构水平位移显著减小,加固效果显著;当水泥掺量大于15%或置换率大于0.5,支护结构水平位移变化较小,加固效能降低。  相似文献   

12.
The interaction between geogrid and soil is crucial for the stability of geogrid-reinforced earth structure. In finite element (FE) analysis, geogrids are usually assumed as beam or truss elements, and the interaction between geogrid and soil is considered as Coulomb friction resistance, which cannot reflect the true stress and displacement developed in the reinforcement. And the traditional Lagrangian elements used to simulate soil always become highly distorted and lose accuracy in high-stress blocks. An improved geogrid model that can produce shear resistance and passive resistance and a soil model using the Eulerian technique, in combination with the coupled Eulerian-Lagrangian (CEL) method, are used to analyze the interaction between geogrid and soil of reinforced foundation test in ABAQUS. The stress in the backfill, resistance of geogrid, and settlement of foundation were computed and the results of analysis agree well with the experimental results. This simulation method is of referential value for FE analysis of reinforced earth structure.  相似文献   

13.
Cover-bearing-type bucket foundation for offshore wind turbines has been paid more and more attention due to its low cost and great bearing capacity. In order to ensure the cover-bearing mode, the muddy soil inside the bucket foundation should be reinforced by some soil consolidation methods, such as negative pressure and electro-osmosis. Firstly, tests were conducted to obtain the reasonable current density. Meanwhile, to improve the electro-osmotic speed and effectiveness, other factors such as intermittent power and layout of electrode, were also studied in the tests. Then, the soil reinforcing tests by negative pressure combined with electro-osmosis were performed for the muddy soil consolidation inside the bucket foundation. The results showed that soil reinforcement by negative pressure was quicker and more obvious during the early phase, and electro-osmotic method can affect more range of soil by rational arrangement of electrodes. Compared with negative pressure, the electro-osmotic method was a continuous and relatively slow process of reinforcement, which was complementary to the negative pressure method. The voltage value of electro-osmosis had little effect on the muddy soil reinforcement inside the bucket foundation, and 1.5 A was chosen as the most reasonable current value for scale model testing in the electro-osmotic method.  相似文献   

14.
水泥土搅拌桩是利用水泥(或石灰)等材料作为固化剂,通过特制的搅拌机械在地基中将软士和固化剂强制搅拌,使软士硬结成具有整体性、水稳性和一定强度的水泥加固士,从而提高地基士强度,增大变形模量。此方法适用于软基处理,效果显著。使用水泥士搅拌法加固地基也有其局限性,这点更应该引起设计单位的重视。当采用水泥士搅拌法用于处理无类似工程经验的地区或工程时,必须有针对性的进行地质勘探补探工作,按规范通过设计前期的现场试验确定其适用性。  相似文献   

15.
结合某市健康园三期工程18#楼软土地基处理工程实例,研究了粉喷桩复合地基处理河漫滩相软土的加固机理和常见检测方法,分析了粉喷桩复合地基设计与施工中常见问题及其解决措施。实际加固效果检测资料表明,18#楼地基经处理后其承载力有了明显的提高,加固效果明显。  相似文献   

16.
利用数值分析方法建立了软土地基模型,采用比奥固结理论,计算分析了真空预压下的软土地基流固耦合作用;并进一步分析了真空度损耗率、密封墙、塑料排水板打设深度等因素对软基加固效果的影响。分析结果表明:在抽真空早期,地表沉降增长很快,达到一定天数后,沉降值逐渐趋于稳定;真空负压沿深度、水平方向上损耗,在加固软土外围形成一个零孔隙水压力面;真空度损耗率、塑料排水板打设深度对真空预压加固软土的效果影响很大;侧向密封墙对加固区内土体影响不大,但其限制了真空负压的侧向传递,使影响区的地基沉降大幅减小。  相似文献   

17.
The use of high strength geosynthetic in the base ofembankments constructed over soft soil layers is a commonpractice.Those embankments are called geosynthetic-rein-forced embankments (GRE) . Geosynthetic reinforcementcanimprove stability,decrease lateral and vertical soil de-formations under working conditions , and allow embank-ments to be constructedto greater height[1].However ,the effectiveness of geosynthetic reinforce-mentin GREvaries greatlyin different cases .Despitethereare many s…  相似文献   

18.
Based on finite element (FE) method, an analysis program of geosynthetic-reinforcement embankments (GRE) is proposed. The improvement of stress field of surface layer of GRE after reinforcement can be indicated by this program. The comparison of failure area ratio of foundation soil before and after reinforcement is made, so that the efficiency of geosynthetic reinforcement under different soft soil properties can be shown. The embankment soil is simulated with Duncan-Chang model in this program, while reinforcement is modeled with linear elastic model and interface of reinforcement-soil by Goodman elements. Parameters about foundation soil, such as cohesion, inner friction angle and unit weight are considered, as well as three Duncan-Chang model parameters: modulus coefficient, bulk modulus coefficient and break ratio. The relationship between those soil parameters and failure area ratio indicate the reinforcement efficiency of GRE. The results show the cohesion and inner friction angle are the most important parameters for reducing the failure area,while modulus coefficient and bulk modulus coefficient, have little effect on the calculation results; the reinforcement efficiency is low if the cohesion and inner friction angle of foundation soil are too small or too big; different foundation soil will get different conclusions. The selection of model parameter is an important procedure for accurate modeling of GRE by numerical method.  相似文献   

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