CONTENTS
1 General Principles .............................................................................. 错误!未定义书签。 2 Terms and Symbols ............................................................................ 错误!未定义书签。
2.1 Terms ·················································································· 错误!未定义书签。 2.2 Symbols ··············································································· 错误!未定义书签。
3 Basic Reqirements .............................................................................................. 错误!未定义书签。 4 Design Method and Conformation ................................................................. 错误!未定义书签。
4.1 General Requirements ······························································ 错误!未定义书签。 4.2 Design Method ······································································· 错误!未定义书签。 4.3 Conformation ········································································ 错误!未定义书签。
5 Construction ........................................................................................................ 错误!未定义书签。
5.1 General Requirements ······························································ 错误!未定义书签。 5.2 Construction Equipment ···························································· 错误!未定义书签。 5.3 Construction Requirements ························································ 错误!未定义书签。 5.4 Construction Technology ··························································· 错误!未定义书签。 5.5 Environment Protection ···························································· 错误!未定义书签。
6 Quality Inspection .............................................................................................. 错误!未定义书签。
6.1 General Requirements ······························································ 错误!未定义书签。 6.2 Quality ControlDuring the Period of Construction ····························· 错误!未定义书签。 6.3 Quality Acceptance ·································································· 错误!未定义书签。
Appendix A Quality Acceptance Record of Inspection Lot .......................... 错误!未定义书签。 Appendix B Construction Record ofOmnibearing High Pressure Jet Grouting错误!未定义书
签。
Appendix CThe Record of Concealed Work ....................................................... 错误!未定义书签。 AppendixD Drill Record ofOmnibearing High Pressure Jet Grouting ....... 错误!未定义书签。 Explanation of Wording in This Code .................................................................. 错误!未定义书签。 List of Quoted Standards ......................................................................................... 错误!未定义书签。
1
1 总则
1.0.1为了使全方位高压喷射注浆在工程应用中安全可靠、技术先进、经济合理、确保质量及保护环境,特制定本标准。
1.0.2本标准适用于本市轨道交通建设工程的全方位高压喷射注浆的设计、施工和质量检查与验收,其它工程可参照执行。
1.0.3全方位高压喷射注浆的设计、施工及质量检查与验收,除应符合本标准外,尚应符合国家、行业和本市现行有关标准的规定。
2
2术语和符号
2.1术语
2.1.1全方位高压喷射注浆metro jet system
全方位高压喷射注浆(简称MJS工法)是高压喷射注浆的一种。全方位高压喷射注浆钻杆采用多孔管的构造形式,具有强制排浆和地内压力监控功能,并通过调整强制排浆量达到控制地内压力的目的,从而减小喷射能量的损耗,降低施工对周边环境的影响,可以对排泥进行集中管理。全方位高压喷射注浆可进行水平、倾斜、垂直施工。 2.1.2喷射流jet
用于切割、搅拌土体的水泥浆高压射流。 2.1.3同轴高压空气concentric high pressure air
包裹在喷射流周围的高压空气,用于减少喷射流在泥浆中的能量损耗,增加成桩直径。
2.1.4前端总成装置monitor
位于钻杆最前端,集合了钻头、喷射流喷嘴、同轴高压空气喷嘴、回浆口、回流水喷嘴、压力感应器等部件的装置。 2.1.5回浆口 returning slurry entrance
施工中产生的废浆通过设置于前端总成的排泥口排放至泥浆回收设备,该排泥口称为回浆口。 2.1.6 回流水back jet
利用射流原理使回浆口周边形成真空,吸入泥浆并通过排泥管路集中排放到地面的高压水流。 2.1.7回流气 back air
在排泥管路中通过气举作用辅助排浆的高压空气。 2.1.8 地内压力 pile internal pressure(undergroud pressure)
施工期间桩体内的泥浆压力(MPa),通过设于前端总成的压力传感器量测。 2.1.9 地内压力控制系数 pile internal pressure coefficient(undergroud pressure coefficient)
3
地内压力控制数值与施工深度数值的比值。 2.1.10步进提升或回抽step lift
全方位高压喷射注浆采用步进提升(垂直、倾斜施工)或回抽钻杆(水平施工)的方式施工,即按照预设距离,分步提升或回抽钻杆,在每一步进的断面进行多次喷射,相邻两次步进提升或回抽的间隔时间称为步进间隔时间、距离称为步进间距。 2.1.11 定喷 directional jet grouting
在喷射和移动钻杆过程中,钻杆不转动,使喷嘴对着固定方向喷射,浆液凝固后在土体中形成壁状加固体的成桩型式。 2.1.12摆喷 pendulum jet grouting
在喷射和移动钻杆过程中使钻杆在一定角度内来回摆动,浆液凝固后在土体中形成类扇形或圆形截面加固体的成桩型式。
2.2符号
G——每延米水泥用量(kg); Q——高压泥浆泵流量(L/min); T——每延米喷射施工时间(min); g——每升水泥浆液中水泥含量(kg/L); E50——弹性模量; N——标准贯入击数; c——粘聚力(kPa); k——渗透系数(cm/s)。
4
3 基本规定
3.0.1全方位高压喷射注浆的设计与施工应综合分析工程特点、工程和水文地质条件、周边环境、施工条件、材料性能和工程造价等因素。
3.0.2全方位高压喷射注浆适用于软土地层地基处理施工,在地下水流速过大、砾石直径过大、含量过多及有大量纤维质的腐殖土等条件下应慎重使用。
3.0.3全方位高压喷射注浆可应用于地基加固、止水帷幕、挡土结构、重要建筑物和管线隔离保护等工程。
3.0.4对重要工程或在缺乏工程经验的地区施工前,应进行试桩或试验性施工,以确定施工工艺及参数。
3.0.5全方位高压喷射注浆施工效果,必须符合有关规范和设计的承载力、变形、稳定性、抗液化和防渗等要求。
3.0.6工程技术人员应掌握所承担工程的地基处理目的、全方位高压喷射注浆原理、技术要求和质量标准等。
3.0.7施工过程中,应有专人或专门机构负责工程监理,必须按照本标准规定和相关规范进行施工质量检查和验收。
3.0.8全方位高压喷射注浆施工期间,应对周边建筑物和地下管线进行监测。
5