曼家寨排土场散体岩石物料力学特性研究
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摘要
影响排土场稳定性的因素很多,包括:散体岩石物料的物理力学性质、基底岩层的承载能力、排土工艺、水文地质条件等。本文依托导师课题,着重研究某露天矿排土场散体岩石物料的力学特性。分别从压实特性、渗透特性、压缩变形特性、抗剪强度特性四个方面出发,开展大量的室内试验研究,并结合分形几何理论、松散介质力学、土力学等相关理论知识,探讨散体岩石物料力学特性在不同工况下的变化规律,为排土场边坡的安全稳定性分析提供可靠的物理力学参数和理论指导。
本文主要从以下几个方面进行分析研究:
1、击实试验主要测定散体岩石物料在相同的击实方法和击实功能下的最大干密度和最优含水率,本文进行不同级配的击实试验,分析最大干密度和最优含水率随粗颗粒含量变化的相关性;采用分形几何理论对击实过程中颗粒破碎进行分析,探讨颗粒破碎在不同粗颗粒含量以及不同含水率条件下的变化规律。
2、采用自制垂直渗透仪进行室内散体岩石物料渗透试验,测定其在不同密实程度下的渗透系数,分析渗透系数与密实程度、孔隙比的相关性,探讨影响渗透系数的重要因素,并对散体岩石物料的渗透破坏形式进行了判断。
3、通过室内压缩变形试验,测定天然状态和饱水状态散体岩石物料的各项压缩变形指标,分析散体岩石物料的变形特性。
4、利用室内中型直剪试验仪,开展不同级配散体岩石物料在最大干密度下的直剪试验和现场级配在饱水不同固结状态下的直剪试验,研究散体岩石物料在这两种条件下的抗剪强度变化规律。采用分形几何理论探讨分维数与抗剪强度参数的相关性。
There are many factors are affect the safety of waste pile,such as physical mechanics of loose rock materials, bearing capacity of foundation, pile technology,hydrogeologic condition and so on.And this paper is base on the research subject of tutor, emphasised to study the mechanics property of loose rock materials from seepage deformation property, compression deformation property, compaction property and shear strength.And research the regularity for change of physical mechanics of loose rock materials by uesed fractal geometry theory and soil mechanics.That to provide strongly guidance for waste pile slope safety analyzed.
And the studies are mainly from following aspects:
1. Compaction test is mainly to work out the maximum dry density and optimum water content of the loose rock material in the same bulk of compaction method and compaction function, the paper carried a different gradation compaction test, analysis the correlation of the maximum dry density and optimum water content content in different gradation; and particle breakage during compaction is analysised by used fractal geometry theory.
2.To measure the permeability coefficient at different compaction rate by used self-made permeability testing machine.and analyze the correlation between permeability coefficient, compaction rate and void ratio. Research important factors that affect the permeability coefficient. And based on previous person research methods, to determine the seepage failure form of granular material.
3.Through the compression deformation indoor test, to get the compression deformation indexes at natural state and saturated state, analyze the property of compression deformation.
4. Using medium-sized direct shear tests device, to carry out different gradation in the maximum dry density of the loose rock material under the direct shear tests and field-level distribution in the saturated state of the direct shear tests,to study the rule of shear strength in different gradations and the degree of water-saturated state under different consolidation.
本文主要从以下几个方面进行分析研究:
1、击实试验主要测定散体岩石物料在相同的击实方法和击实功能下的最大干密度和最优含水率,本文进行不同级配的击实试验,分析最大干密度和最优含水率随粗颗粒含量变化的相关性;采用分形几何理论对击实过程中颗粒破碎进行分析,探讨颗粒破碎在不同粗颗粒含量以及不同含水率条件下的变化规律。
2、采用自制垂直渗透仪进行室内散体岩石物料渗透试验,测定其在不同密实程度下的渗透系数,分析渗透系数与密实程度、孔隙比的相关性,探讨影响渗透系数的重要因素,并对散体岩石物料的渗透破坏形式进行了判断。
3、通过室内压缩变形试验,测定天然状态和饱水状态散体岩石物料的各项压缩变形指标,分析散体岩石物料的变形特性。
4、利用室内中型直剪试验仪,开展不同级配散体岩石物料在最大干密度下的直剪试验和现场级配在饱水不同固结状态下的直剪试验,研究散体岩石物料在这两种条件下的抗剪强度变化规律。采用分形几何理论探讨分维数与抗剪强度参数的相关性。
There are many factors are affect the safety of waste pile,such as physical mechanics of loose rock materials, bearing capacity of foundation, pile technology,hydrogeologic condition and so on.And this paper is base on the research subject of tutor, emphasised to study the mechanics property of loose rock materials from seepage deformation property, compression deformation property, compaction property and shear strength.And research the regularity for change of physical mechanics of loose rock materials by uesed fractal geometry theory and soil mechanics.That to provide strongly guidance for waste pile slope safety analyzed.
And the studies are mainly from following aspects:
1. Compaction test is mainly to work out the maximum dry density and optimum water content of the loose rock material in the same bulk of compaction method and compaction function, the paper carried a different gradation compaction test, analysis the correlation of the maximum dry density and optimum water content content in different gradation; and particle breakage during compaction is analysised by used fractal geometry theory.
2.To measure the permeability coefficient at different compaction rate by used self-made permeability testing machine.and analyze the correlation between permeability coefficient, compaction rate and void ratio. Research important factors that affect the permeability coefficient. And based on previous person research methods, to determine the seepage failure form of granular material.
3.Through the compression deformation indoor test, to get the compression deformation indexes at natural state and saturated state, analyze the property of compression deformation.
4. Using medium-sized direct shear tests device, to carry out different gradation in the maximum dry density of the loose rock material under the direct shear tests and field-level distribution in the saturated state of the direct shear tests,to study the rule of shear strength in different gradations and the degree of water-saturated state under different consolidation.
引文
[1]Proctor R.R. Fundamental Principal of Soil Compaction. Engineering News-Record, VoL.111 Nos.9,10,12 and 13,1933.
[2]A.E.Kelso.The Construction of Silvan Dam, Melbourne Water Supply.Proceedings of the Institution of Civil Engineerings. Vol.239,1934:35-40.
[3]刘丽萍,折学森.土石混合料压实特性试验研究[J].岩石力学与工程学报,2006,25(1):206-210.
[4]陈志波,朱俊高,王强.宽级配砾质土压实特性试验研究[J].岩土工程学报,2008,30(3):446-449.
[5]袁海清.土石混和料大型击实试验研究[J].中南公路工程,2005,30(4):200-203.
[6]郭庆国.粗粒土的工程特性及应用[M].黄河水利出版社,1999.255-268.
[7]王勇.堆石料渗透特性试验研究[D].河海大学,2006.
[8]陈希哲.土力学[M].北京:清华大学出版社.1998.3.
[9]冯国栋.土力学[M].水利电力出版社,1986,5.
[10]张季如,祝杰,黄文竞.侧限压缩下石英砂砾的颗粒破碎特性及其分形描述[J].岩土工程学报,2008,30(6):783-789.
[11]朱文君,张宗亮,袁友仁,朱俊高.粗粒料单向压缩湿化变形试验研究[J].水利水云学报,NO.3,2009.
[12]张兵,高玉峰,刘伟,艾艳梅.坝体填筑料压缩特性及影响因素分析[J].岩土力学报,2009,30(3):741-745.
[13]孙国亮,张兵印,张其光,孙逊.不同环境条件下堆石料变形特性的试验研究[J].岩土力学报,2010,31(5):1413-1419.
[14]廖国华.边坡稳定[M].冶金工业出版社,1995,5.
[15]董云.土石混合料强度特性的试验研究[J].岩石力学.2007,28(6):1269-1274.
[16]马鞍山矿山研究院.排土场散体的力学特性[J].矿山技术,N0.1,1989.
[17]陈希哲.粗粒土的强度与咬合力的试验研究[J].工程力学,994,11(4):56-63.
[18]甘霖,袁光国.粗粒土的三轴测试及其强度特性[J].水电工程研究,1996,1:29-35.
[19]郭熙灵,胡辉,包承纲.堆石料颗粒破碎对剪胀性及抗剪强度的影响[J].岩土工程学报,No3.1997.
[20]武明.土石混合非均质填料力学特性试验研究[J].公路,1997,1.
[21]Xiao Li,Qiulin Liao,Jianming He.In-situ Tests and Stochastic Structural Model of Rock and Soil Aggregate in the Three Gorges Reservoir Area [J].International Journal of Rock Mechanics and Mining Sciences,2004.41(3):494.
[22]黄广龙,周建,龚晓南.矿山排土场散体岩土的强度变形特性[J].浙江大学学报,2000,34(1):54-58.
[23]金以文.分形几何原理及其应用[M].杭州:浙江大学出版社,1998.11.
[24]谢和平.分形几何及其在岩土力学中的应用[J].岩土工程学报,1992,14(1):14-24.
[25]高秀坤,李兴照.分形几何理论在散体物料中的应用[J].河南大学学报,2010,40(2):213-216.
[26]徐永福,刘斯宏,董平.粒状土体的结构模型[J].岩士力学.2001,22(4):366-372.
[27]夏春,刘浩吾.混凝土细骨料级配的分形特征研究[J].西南交通大学学报,2002,37(2):186-189.
[28]Huang Guan-hua,Zhan Wei-hua. Fractal Property of Soil Particle Size Distribution and Its Application[J].Acta Pedologica Sinica,2002,39(4):490-497.
[29]李德成,张桃林.中国土壤颗粒组成的分形特征研究[J].土壤与环境,2000,9(4):263-265.
[30]徐永福,黄寅春.分形理论在研究非饱和土力学性质中的应用[J].岩土工程学报,2006,28(5):635-638.
[31]李长洪.松散岩土分维的统计方法及应用[J].北京科技大学学报,2001,23(4):296-298.
[32]刘大鹏,尤晓日韦.土力学[M].北京:清华大学出版社,2005.10.
[33]Jaroslav Feda.Notes on the effect of grain crushing on the granular soil behaviour[J]. Engineering geology,2002,(63):93-98.
[34]司洪洋.粗颗粒土混合料的命名和粗度系数[J].水利水运科学研究,1981(1).
[35]李飞,高向阳.土力学[M].北京:中国水利水电出版社,2006.7.
[36]黄松元.散体力学[M].北京:科学出版社,1992.
[37]J.Bear.多孔介质流体动力学[M].中国建筑工业出版社,1983.
[38]孔祥臣.土石混合料压实特性的试验研究[D].重庆交通学院,2004.
[39]Guyon E,Troadec J-P Du Sac de billes au tas de sable[J].Editious Odile JACOB Suences.1994.
[40]王步云.软质岩屑地基土的工程性质及其改良[J].西部探矿工程,1996,8(1):1-4.
[41]王龙,等,土石混合料的结构分类[J].哈尔滨建筑大学学报,2000,33(6).
[42]周志军,南浩林,孟梅.土石混合料大型击实试验研究[J].路基工程,2007,5:95-96.
[43]曾凡稳.土的室内击实试验结果影响因素及分析[J].中外公路,2009,29(6):250-253.
[44]龚文慧.土力学[M].华中科技大学出版社,2007,3.
[45]阎宗岭.堆石体物理力学特性及其工程应用研究[D].重庆大学,2003.
[46]丁海峰,逢成万,土石混合料渗透性特征试验研究[J].广西水利水电,2010.
[47]《水利水电工程地质勘察规范》(GB50487—-2008).中国计划出版社.2009.8.
[48]《土工试验方法标准》(GB/T 50123-1999).
[49]屈智炯.对粗粒土渗透变形研究的进展[J].水电站设计,2008,24(1):48-55.
[50]柴贺军,阎宗岭,贾学明.土石混填路基修筑技术[M].北京:人民交通出版社,2009.5.
[51]赵明阶,冯忠居.土质学与土力学[M].杭州:北京:人民交通出版社,2006.12.
[52]屈智炯.新型石渣坝—粗粒土筑坝的理论与实践[M].中国水利水电出版社,2002.
[53]杜俊.松散岩土体物理力学性质及其工程应用研究[D].昆明理工大学,2010.
[2]A.E.Kelso.The Construction of Silvan Dam, Melbourne Water Supply.Proceedings of the Institution of Civil Engineerings. Vol.239,1934:35-40.
[3]刘丽萍,折学森.土石混合料压实特性试验研究[J].岩石力学与工程学报,2006,25(1):206-210.
[4]陈志波,朱俊高,王强.宽级配砾质土压实特性试验研究[J].岩土工程学报,2008,30(3):446-449.
[5]袁海清.土石混和料大型击实试验研究[J].中南公路工程,2005,30(4):200-203.
[6]郭庆国.粗粒土的工程特性及应用[M].黄河水利出版社,1999.255-268.
[7]王勇.堆石料渗透特性试验研究[D].河海大学,2006.
[8]陈希哲.土力学[M].北京:清华大学出版社.1998.3.
[9]冯国栋.土力学[M].水利电力出版社,1986,5.
[10]张季如,祝杰,黄文竞.侧限压缩下石英砂砾的颗粒破碎特性及其分形描述[J].岩土工程学报,2008,30(6):783-789.
[11]朱文君,张宗亮,袁友仁,朱俊高.粗粒料单向压缩湿化变形试验研究[J].水利水云学报,NO.3,2009.
[12]张兵,高玉峰,刘伟,艾艳梅.坝体填筑料压缩特性及影响因素分析[J].岩土力学报,2009,30(3):741-745.
[13]孙国亮,张兵印,张其光,孙逊.不同环境条件下堆石料变形特性的试验研究[J].岩土力学报,2010,31(5):1413-1419.
[14]廖国华.边坡稳定[M].冶金工业出版社,1995,5.
[15]董云.土石混合料强度特性的试验研究[J].岩石力学.2007,28(6):1269-1274.
[16]马鞍山矿山研究院.排土场散体的力学特性[J].矿山技术,N0.1,1989.
[17]陈希哲.粗粒土的强度与咬合力的试验研究[J].工程力学,994,11(4):56-63.
[18]甘霖,袁光国.粗粒土的三轴测试及其强度特性[J].水电工程研究,1996,1:29-35.
[19]郭熙灵,胡辉,包承纲.堆石料颗粒破碎对剪胀性及抗剪强度的影响[J].岩土工程学报,No3.1997.
[20]武明.土石混合非均质填料力学特性试验研究[J].公路,1997,1.
[21]Xiao Li,Qiulin Liao,Jianming He.In-situ Tests and Stochastic Structural Model of Rock and Soil Aggregate in the Three Gorges Reservoir Area [J].International Journal of Rock Mechanics and Mining Sciences,2004.41(3):494.
[22]黄广龙,周建,龚晓南.矿山排土场散体岩土的强度变形特性[J].浙江大学学报,2000,34(1):54-58.
[23]金以文.分形几何原理及其应用[M].杭州:浙江大学出版社,1998.11.
[24]谢和平.分形几何及其在岩土力学中的应用[J].岩土工程学报,1992,14(1):14-24.
[25]高秀坤,李兴照.分形几何理论在散体物料中的应用[J].河南大学学报,2010,40(2):213-216.
[26]徐永福,刘斯宏,董平.粒状土体的结构模型[J].岩士力学.2001,22(4):366-372.
[27]夏春,刘浩吾.混凝土细骨料级配的分形特征研究[J].西南交通大学学报,2002,37(2):186-189.
[28]Huang Guan-hua,Zhan Wei-hua. Fractal Property of Soil Particle Size Distribution and Its Application[J].Acta Pedologica Sinica,2002,39(4):490-497.
[29]李德成,张桃林.中国土壤颗粒组成的分形特征研究[J].土壤与环境,2000,9(4):263-265.
[30]徐永福,黄寅春.分形理论在研究非饱和土力学性质中的应用[J].岩土工程学报,2006,28(5):635-638.
[31]李长洪.松散岩土分维的统计方法及应用[J].北京科技大学学报,2001,23(4):296-298.
[32]刘大鹏,尤晓日韦.土力学[M].北京:清华大学出版社,2005.10.
[33]Jaroslav Feda.Notes on the effect of grain crushing on the granular soil behaviour[J]. Engineering geology,2002,(63):93-98.
[34]司洪洋.粗颗粒土混合料的命名和粗度系数[J].水利水运科学研究,1981(1).
[35]李飞,高向阳.土力学[M].北京:中国水利水电出版社,2006.7.
[36]黄松元.散体力学[M].北京:科学出版社,1992.
[37]J.Bear.多孔介质流体动力学[M].中国建筑工业出版社,1983.
[38]孔祥臣.土石混合料压实特性的试验研究[D].重庆交通学院,2004.
[39]Guyon E,Troadec J-P Du Sac de billes au tas de sable[J].Editious Odile JACOB Suences.1994.
[40]王步云.软质岩屑地基土的工程性质及其改良[J].西部探矿工程,1996,8(1):1-4.
[41]王龙,等,土石混合料的结构分类[J].哈尔滨建筑大学学报,2000,33(6).
[42]周志军,南浩林,孟梅.土石混合料大型击实试验研究[J].路基工程,2007,5:95-96.
[43]曾凡稳.土的室内击实试验结果影响因素及分析[J].中外公路,2009,29(6):250-253.
[44]龚文慧.土力学[M].华中科技大学出版社,2007,3.
[45]阎宗岭.堆石体物理力学特性及其工程应用研究[D].重庆大学,2003.
[46]丁海峰,逢成万,土石混合料渗透性特征试验研究[J].广西水利水电,2010.
[47]《水利水电工程地质勘察规范》(GB50487—-2008).中国计划出版社.2009.8.
[48]《土工试验方法标准》(GB/T 50123-1999).
[49]屈智炯.对粗粒土渗透变形研究的进展[J].水电站设计,2008,24(1):48-55.
[50]柴贺军,阎宗岭,贾学明.土石混填路基修筑技术[M].北京:人民交通出版社,2009.5.
[51]赵明阶,冯忠居.土质学与土力学[M].杭州:北京:人民交通出版社,2006.12.
[52]屈智炯.新型石渣坝—粗粒土筑坝的理论与实践[M].中国水利水电出版社,2002.
[53]杜俊.松散岩土体物理力学性质及其工程应用研究[D].昆明理工大学,2010.