土木工程毕业设计外文翻译------土方工程的地基勘察与施工.doc
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土木工程毕业设计外文翻译------土方工程的地基勘察与施工,abstractthe design and execution of ground investigation works for earthwork projects has become increasingly important as the availability of suitable disposal...
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ABSTRACT
The design and execution of ground investigation works for earthwork projects has become increasingly important as the availability of suitable disposal areas becomes limited and costs of importing engineering fill increase. An outline of ground investigation methods which can augment ‘traditional investigation methods’ particularly for glacial till / boulder clay soils is presented. The issue of ‘geotechnical certification’ is raised and recommendations outlined on its merits for incorporation with ground investigations and earthworks.
1. INTRODUCTION
The investigation and re-use eva luation of many Irish boulder clay soils presents difficulties for both the geotechnical engineer and the road design engineer. These glacial till or boulder clay soils are mainly of low plasticity and have particle sizes ranging from clay to boulders. Most of our boulder clay soils contain varying proportions of sand, gravel, cobbles and boulders in a clay or silt matrix. The amount of fines governs their behaviour and the silt content makes it very weather susceptible.
Moisture contents can be highly variable ranging from as low as 7% for the hard grey black Dublin boulder clay up to 20-25% for Midland, South-West and North-West light grey boulder clay deposits. The ability of boulder clay soils to take-in free water is well established and poor planning of earthworks often amplifies this.
The fine soil constituents are generally sensitive to small increases in moisture content which often lead to loss in strength and render the soils unsuitable for re-use as engineering fill. Many of our boulder clay soils (especially those with intermediate ty
摘 要:
当工程场地的处理面积有限且填方工程费用大量增加时,土方工程的地基勘察设计与施工已逐渐地变得重要。由于冰渍土以及含砾粘土的提出使土方工程地基勘察方法的纲要比传统的勘察方法更详细。 本文提出“岩土认证”观点以及对地基勘察与土方工程相结合的优点加以概要说明。
1、引 言
许多爱尔兰含砾粘土的勘察与再利用评价使岩土工程师与道路工程师感到为难。这些冰渍土或含砾粘土主要表现为低可塑性而且还含有从粘土到漂石的不同粒径颗粒。大部分本地粘土与淤泥质土中包含不同比例的砂、砾石、卵石、漂石。颗粒级配控制着土体的行为,而且淤泥使土体性质易受天气变化影响。
土体含水量随着地区不同而不同,从都柏林硬灰黑含砾粘土的7%到中部、西南部或西北部浅灰色含砾粘土沉积物的20%-25%。含砾粘土吸附水的能力建立的较好但土方工程中计划的不恰当常导致其扩大。
一般来说,良好级配的土体对于含水量的轻微变大相当敏感,将导致强度下降或不适合用作工程回填土。许多含砾粘土(尤其中等淤泥质土或良好级配的砂)在选择阶段已经被筛除,但事实上它们能对压缩或强度起到特定的作用。
筛选过程应尽量使用本地土体或者回填区或路堤边性质相对较差的土体,通过仔细评价应加以应用。回填材料必须保持一定的含水量,既不能太湿导致土体不稳定也不能太干以致不能被充分压缩。
高含水量、低强度含砾粘土适用于低路堤回填(相当于2到2.5米的
The design and execution of ground investigation works for earthwork projects has become increasingly important as the availability of suitable disposal areas becomes limited and costs of importing engineering fill increase. An outline of ground investigation methods which can augment ‘traditional investigation methods’ particularly for glacial till / boulder clay soils is presented. The issue of ‘geotechnical certification’ is raised and recommendations outlined on its merits for incorporation with ground investigations and earthworks.
1. INTRODUCTION
The investigation and re-use eva luation of many Irish boulder clay soils presents difficulties for both the geotechnical engineer and the road design engineer. These glacial till or boulder clay soils are mainly of low plasticity and have particle sizes ranging from clay to boulders. Most of our boulder clay soils contain varying proportions of sand, gravel, cobbles and boulders in a clay or silt matrix. The amount of fines governs their behaviour and the silt content makes it very weather susceptible.
Moisture contents can be highly variable ranging from as low as 7% for the hard grey black Dublin boulder clay up to 20-25% for Midland, South-West and North-West light grey boulder clay deposits. The ability of boulder clay soils to take-in free water is well established and poor planning of earthworks often amplifies this.
The fine soil constituents are generally sensitive to small increases in moisture content which often lead to loss in strength and render the soils unsuitable for re-use as engineering fill. Many of our boulder clay soils (especially those with intermediate ty
摘 要:
当工程场地的处理面积有限且填方工程费用大量增加时,土方工程的地基勘察设计与施工已逐渐地变得重要。由于冰渍土以及含砾粘土的提出使土方工程地基勘察方法的纲要比传统的勘察方法更详细。 本文提出“岩土认证”观点以及对地基勘察与土方工程相结合的优点加以概要说明。
1、引 言
许多爱尔兰含砾粘土的勘察与再利用评价使岩土工程师与道路工程师感到为难。这些冰渍土或含砾粘土主要表现为低可塑性而且还含有从粘土到漂石的不同粒径颗粒。大部分本地粘土与淤泥质土中包含不同比例的砂、砾石、卵石、漂石。颗粒级配控制着土体的行为,而且淤泥使土体性质易受天气变化影响。
土体含水量随着地区不同而不同,从都柏林硬灰黑含砾粘土的7%到中部、西南部或西北部浅灰色含砾粘土沉积物的20%-25%。含砾粘土吸附水的能力建立的较好但土方工程中计划的不恰当常导致其扩大。
一般来说,良好级配的土体对于含水量的轻微变大相当敏感,将导致强度下降或不适合用作工程回填土。许多含砾粘土(尤其中等淤泥质土或良好级配的砂)在选择阶段已经被筛除,但事实上它们能对压缩或强度起到特定的作用。
筛选过程应尽量使用本地土体或者回填区或路堤边性质相对较差的土体,通过仔细评价应加以应用。回填材料必须保持一定的含水量,既不能太湿导致土体不稳定也不能太干以致不能被充分压缩。
高含水量、低强度含砾粘土适用于低路堤回填(相当于2到2.5米的