水垫带式输送机关键技术研究
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摘要
水垫带式输送机具有结构简单、运行平稳、安全可靠等特点,特别适合煤矿等应用。本文论述了水垫带式输送机的工作原理及润滑理论,为水垫带式输送机的设计提供理论基础。接下来对水垫带式输送机的关键技术(盘槽结构设计、生产率计算、驱动装置及水泵选择和计算、水循环系统设计、输送带选型、压力测试系统)进行了系统研究,并研制了水垫带式输送机动态实验台,通过实验分析了水垫形成机理以及速度、加载量、供水压力和盘槽布置方式对水垫压力分布的影响。最后提出了水垫带式输送机在现场使用的基本设计思路、存在的问题及改进措施,为水垫带式输送机的实际应用提供了理论和实验依据。
The water cushion belt conveyor has some characteristics, such as simple structure, smoothoperation, safe and reliable, etc, especially suitable for coal mine application. This thesis provide atheoretical basis for the design of water cushion belt conveyor through discusses the workingprinciple and the lubrication theory. Then the Test-bed of water cushion belt conveyor wasdeveloped after research the key technology of water cushion conveyor(such as the structuredesign of disc flute, calculate the productivity, select and calculate of the driving device andpumps, water circulation system design, selection of conveyor belt, pressure test system),experimental analysis of the forming mechanism of water cushion and speed, load, pressure ofwater supply and arrangement of the disc flute of water. Finally apply the results to the scene, putsforward the basic design ideas, problems and improvement measures. Then for the practicalapplication of water cushion belt conveyor provides theoretical and experimental basis.
The water cushion belt conveyor has some characteristics, such as simple structure, smoothoperation, safe and reliable, etc, especially suitable for coal mine application. This thesis provide atheoretical basis for the design of water cushion belt conveyor through discusses the workingprinciple and the lubrication theory. Then the Test-bed of water cushion belt conveyor wasdeveloped after research the key technology of water cushion conveyor(such as the structuredesign of disc flute, calculate the productivity, select and calculate of the driving device andpumps, water circulation system design, selection of conveyor belt, pressure test system),experimental analysis of the forming mechanism of water cushion and speed, load, pressure ofwater supply and arrangement of the disc flute of water. Finally apply the results to the scene, putsforward the basic design ideas, problems and improvement measures. Then for the practicalapplication of water cushion belt conveyor provides theoretical and experimental basis.
引文
1.戴学余,苗旭升,彦丽,等.几种低粘度润滑介质下动静压轴承的性能分析.润滑与密封,2004,163(3):10~13.
2.王家序,陈战,秦大同.以水为润滑介质的摩擦副关键问题研究.润滑与密封,2001,(2):34~36.
3.王家序,李太福.用水为介质的摩擦副研究现状与发展趋势.99全国流体动力与机电一体化技术学术年会论文专辑:9~10.
4.欧风,李晓.应用摩擦化学的节能润滑技术.北京:中国标准出版社,1991:192~193.
5.龚国芳.高分子材料的摩擦学特性及其在纯水液压泵关键摩擦副中的应用.浙江大学博士后研究工作报告,2003:1~80.
6.余江波.基于资源节约与环境友好的高性能水润滑轴承关键技术研究.重庆大学博士学位论文,2006:1~30.
7.Xiaolei Wang,Koji Kato,Koshi Adachi,et al.Loads carrying capacity map for the surfacetexture design of SiC thrust bearing sliding in water.Tribology International,2003,(36):189~197.
8.陈战,王家序,秦大同.以水作润滑介质的摩擦副的研究.农业机械学报.2001,32(3):124~125.
9.粟木弘嗣.水下滑动轴承的材料和设计技术.机械设计,1988,32(11):47~52.
10.Frik Trostmab et al.Hydraulic components using wap water as pressure medium.Proceedingsof4th Scand,Int.Conf.on Fluid Power,Finland,1995.
11.Li ZY,Yang SD. Development of hydraulic pump to operate with raw water,Proceedingsof1998ASME International Fluids Engineering Division Summer Meeting.USA,1998:21~25.
12.陈战,王家序,秦大同.以水作介质的机械传动的研究.润滑与密封.2001,(3):14~15.
13.郭力.水润滑轴承研究的进展.精密制造与自动化.2007,(1):14~15.
14.刘维民,薛群集.润滑材料的研究进展与挑战.第八届全国摩擦学大会论文集,2007:8.20.
15.段芳莉.橡胶轴承的水润滑机理研究.重庆大学博士学位论文,2002:1~61.
16.Champ D H,Southern E,Thomas A C.Fracture mechanics applied to rubber abrasion,Advances in polymer friction and wear, Lee L H(ed.), New York and London: Plenum Press,1974:133~138.
17.Southern E,Thomas A G.Strides of rubber abrasion.Rubber Chem.Technol,1979:52~88.
18.Hamrock B.J,Jacobson B.O.Elastohydirodynamic lubrication of line contacts.Trans. ASLE,1984,27(4).
19.温诗铸,朱东.等温弹流润滑问题的直接迭代解.润滑与密封,1985,(4).
20.温诗铸,杨沛然.弹性流体动力润滑.北京:清华大学出版社,1992:20~263.
21.Houpert L.G,Hamrock B.J.Fast approach for calculating film thicknesses and pressures inelastohydrodynamically lubricated contacts at high loads.NASA technical Memorandum87032,1985.
22.王家序,余江波,田凡.水润滑塑料合金轴承数控值分析的多重网格法.润滑与密封.2005(5):62~6523. Xiaohua Y. A new and effective analysis of elastohydrodynamic elliptic contactproblem.Texas A&M University, Dissertation,2002.
24.杨沛然.流体润滑数值分析.国防工业出版社,1998.
25.王优强.水润滑橡胶轴承润滑机理的研究.青岛建筑工程学院硕士学位论文,1995:1~61.
26.陈战.水润滑轴承的摩擦磨损性能及润滑机理的研究.重庆大学博士学位论文,2003.
27.彭晋民.水润滑轴承的润滑机理及设计研究.重庆大学博士学位论文,2003:13~44.
28.Hooke C J.The elastohydrodynamic lubrication of a cylinder on an elastomeric layer.Wear,1986,1986(111):83~99.
29.Hooke C J.The calculation of film thicknesses in soft, highly deformed contacts underdynamic conditions.Proc Instn Mech Engrs,1987,201(c3):171~179.
30.Salant R F,Flaherty A L.Elastohydrodynamic analysis of reverse pumping in rotary lip sealswith micro undulations.ASME Journal of Tribology,1994,116.
31.Strozzi A.An assessment of the numerical solution of the elastohydrodynamic problem forsoft contacts.Wear,1987,(115):53~61.
32.Laurent Jordi,Christo Iliev,Traugott E.Fischer.Lubrication of silicon nitride and siliconcarbide by water:running in,wear and operation of sliding bearings.Tribology Letters,2004,17(3):367~376.
33.S Hollinger,J M.Georges,D.Mazuyer,et al.High-pressure lubrication with lamellarstructures in aqueous lubricant.Tribology Letters.2000.9(3~4):75~83.
34.Ming Chen,Koji Kato,Koshi Adachi.The difference in running-in period and frictioncoefficient between Self-Mated Si3N4and SiC Under Water Lubrication. TribologyLetters.2001,11(1):23~28.
35.Ming Chen,Koji Kato,Koshi Adachi.The comparisons of sliding speed and normal loadeffect on friction coefficients of self-mated Si3N4and SiC under water lubrication.TribologyInternational.2002,(35):129~135.
36.《运输机械设计选用手册》编辑委员会.运输机械设计选用手册(上册).北京:化学工业出版社,2005.
34.孙可文.带式输送机的传动理论与设计计算.北京:煤炭工业出版社,1991.
38.李光布.带式输送机动力学及设计.北京:机械工业出版社,1998.6.
39.杨复兴,蔡学熙.胶带输送机结构原理与计算(上册).北京:煤炭工业出版社,1983.
40.陈乃祥,吴玉林.离心泵.北京:机械工业出版社,2003.3.
41.马恩,李素敏.液压与气压传动.北京:高等教育出版社,2010.6.
42.梁炳煌.运输机械手册(第一册).北京:化学工业出版社,1983.
43.柯葵,朱立明.流体力学与流体机械.上海:同济大学出版社,2009.9.
44.宋伟钢.通用带式输送机设计.北京:机械工业出版社,2006.5.
45.宋瑞宏,倪新跃等.我国气垫带式输送机的现状与发展[J].江苏工业学院学报,2006(2):61~64.
46.吴瑞清.胶带输送机的国内外发展趋势[J].机械工程师,2001(8):8~10.
47.丁明洋.气垫带式输送机结构和参数设计[J].起重运输机械,2005(9):26~27.
48.范迅,谢晋,孟繁瑜.水垫带式输送机的研究[J].中国矿业大学学报,1999,28(5):465~467.
49.刘宪伟,范迅.水垫带式输送机水垫压力场数值模拟[J].煤炭学报,2007,32(3):317~320.
50.范迅,刘宪伟等.水垫带式输送机设计原理及基本参数的研究[J].中国矿业大学学报,2006,35(5)581~585.
51.武欣.带式输送机关键部件的设计[J].煤矿机械,2010,31(8):59~60.
52.范迅,刘宪伟等.水垫带式输送机的润滑机制研究[J].润滑与密封,2006,(11):1~8.
53.黄平.摩擦学教程.北京:高等教育出版社,2008.
54.孟繁瑜.液垫带式输送机润滑机理及承载能力研究[D].中国矿业大学(北京),1995.
55.张立仁,刘宪伟.基于Fluent对水垫带式输送机流体场的仿真研究[J].太原理工大学学报,2007,38(6):483~485.
56.张钺.国内外带式输送机的应用概况[J].矿山机械,2001(5):55~67.
57.池长青.流体力学润滑[M].北京:国防工业出版社,1998.
58.余建山.气垫带式输送机的发展与应用[J].中国铸造装备与技术,1996(6):9~13.
59.宋伟钢,李森林.气垫带式输送机气体参数的分析[J].矿山机械,1994(1):23~26.
60.刘宪伟.面向绿色开采的低粘度介质润滑理论及应用研究[D].中国矿业大学(北京),2008,73~93.
61.郑侠.液垫带式输送机液垫润滑方程求解方法研究[D].中国矿业大学(北京),2007.
62.谢晋.水垫带式输送机的设计及试验研究[D].中国矿业大学(北京),1998,8~15.
63.宋伟钢,彭兆行.气垫带式输送机的设计与计算(Ⅲ)[J].矿山机械,1994(8):42~44.
64.张亮有.气垫带式输送机设计理论[J].起重运输机械,1990(02):9~15.
65.孟繁瑜.无托辊带式输送机的研究进展[J].煤炭科学技术,1999,27(8):36~39.
66.孟繁瑜.液垫带式输送机的润滑机理研究[J].矿山机械,2000(3):45~48.
67.柳铭,倪新跃.气垫带式输送机气室盘槽气孔的分布形式[J].江苏工业学院学报,2008,20(1):26~28.
68.戴学余,苗旭升.几种低粘度润滑介质下动静压轴承的性能分析[J].润滑与密封,2004(3):10~17.
69.毛君,解本铭等.气垫带式输送机盘槽设计计算及理论分析[J].辽宁工程技术大学学报,1992,11(1):68~76.
70.韩会军.固体颗粒对低粘度介质润滑特性的影响[D].中国矿业大学(北京),2010,4~7.
71.段诚.水垫带式输送机实验台设计及实验研究[D].中国矿业大学(北京),2011,14~16.
72.周华,杨华勇,龚国芳.水液压技术的研究现状与发展趋势[J].中国机械工程,2000,11(12):1430~1435.
73.Huber,Bill.Conveyor Upkeep and Performance[J].Rock Products,2006,109(6):14.
74.Girad,Laurent,Masse,Serge. Belt Conveyor Safety. Professional safety[J],2004,11:20~26.
75.S.S.Tsalidis,A.J.Dentsoras.Application of design parameters space search for belt conveyordesign.Engineering[J]. Application of Artificial Intelligence,1997,10(6):617~629.
76.A.J.G.Nuttall,G.Lodewijks,A.J.Klein Breteler,Modelling rolling contact phenomena in apouch belt conveyor system[J],Science direct,2006,260(9-10):1081~1089.
77.HOU You-fu,MENG Qing-rui,Dynamic characteristics of conveyor belts[J],Journal of ChinaUniversity of Mining&Technology,2008,18(4):629~633.
78.R.Prehn,F.Haupert,K.Friedrich.Sliding wear performance of polymer composites underabrasive and water lubricated conditions for pump applications[J].Wear,2005,259(1-6):693~696.
79.Van Ostayen RAJ.The hydro-support:an elasto-hydrostatic thrust bearing with mixedlubrication[D].Delft University of Technology,PhD thesis,2002:272~281.
80. Van Ostayen RAJ,Van Beek, Anton Ros Mink. A parametric study of thehydro-support[J].Tribology International,2004,37(8):617~625.
81.C.Zhu,O.Jacobs,R.Jaskulka.Effect of counterpart material and water lubrication onthe sliding wear performance of crosslinked and non-crosslinked ultra high molecularweight polyethylene[J].Polymer Testing.2004,23(6):665~673.
82.杨曙东.基于海水润滑的中高压海水液压泵研究.华中科技大学博士学位论文[D],2005:1~17.
83.张仁江,武中德,张宏.核电主泵电机水润滑硅化石墨径向轴承试验研究[J].节能技术,2003.21(3):22~24.
84.彭晋民,王家序等.水润滑塑料合金轴承润滑机理研究[J].润滑与密封,2002,(3):5~8.
85.段芬莉,韦云隆,海鹏洲.水润滑橡胶轴承的弹流润滑分析[J].润滑与密封,2001,(3):5~8.
86.王优强,杨成仁.八纵向沟水润滑橡胶轴承润滑性能研究[J].润滑与密封,2001,(4):23~28.
87.王优强,杨成仁.水润滑动压橡胶轴承的结构与润滑性能研究[J].润滑与密封,2001,(6):20~23.
88.周华,杨华勇,龚国芳.水液压技术的研究现状与发展趋势[J].中国机械工程,2000,11(12):1430~1435.
89.贺小峰,杨明国,李壮云.水压柱塞泵赔流阀的设计与试验研究[J].中国机械工程,2004,15(10):862~864.
90.孟繁瑜.液垫带式输送机液垫场参数求解程序设计[J].矿山机械.2000,(3):45~48.
91.孟繁瑜.无托辊带式输送机的研究进展[J].煤炭科学技术.1998,(27):36~39.
92.吴瑞清.胶带输送机的国内外发展趋势[J].煤炭技术.2000,19(6):4~6.
93.周卫国.无托辊带式输送机[P].专利号:CN2087196U.
94.蔡友梅,宋坚.气液垫胶带输送机[P].专利号:CN2041680U.
95.颜云辉,陶诣,于含冰.液垫带式输送机液垫参数计算[J].机械设计与制造,1996,(6):30~32.
96.范迅,谢晋,孟繁瑜.水垫带式输送机的研究[J].中国矿业大学学报,1999,28(5):45~48.
97.孟繁瑜.液垫式输送机润滑机理及承载能力研究[J].中国矿业大学(北京)硕士学位论文,1995.
98.Tritton D J.草务民,张志新,李汝庆译.物理流体力学[M].北京:科学出版社,1986.2~78.
99.温诗铸,黄平.摩擦学原理[M].北京:清华大学出版社,2002:1~78.
100.黄平,雒建斌,温诗铸.粘塑性流体的界面滑移对润滑性能的影响研究[J].力学学报,1999,31(6):745-752.
101.张国贤,王小静,张直明.液压流体力学中的一个新发现—界面滑移[J].液压气动与密封,1996,4:2~3,8.
102.Kaneta N,et al.Observation of wall slip in elastohydrodynamic lubrication[J].ASME:Journal of Tribology,1990,112:447-584.
103.Hatzikiriakos S G,Dealy J M.Wall slip of molten high density polyethylene I-Sliding platerheometer studies[J].Journal of Rheology,1991,3:497-523.
2.王家序,陈战,秦大同.以水为润滑介质的摩擦副关键问题研究.润滑与密封,2001,(2):34~36.
3.王家序,李太福.用水为介质的摩擦副研究现状与发展趋势.99全国流体动力与机电一体化技术学术年会论文专辑:9~10.
4.欧风,李晓.应用摩擦化学的节能润滑技术.北京:中国标准出版社,1991:192~193.
5.龚国芳.高分子材料的摩擦学特性及其在纯水液压泵关键摩擦副中的应用.浙江大学博士后研究工作报告,2003:1~80.
6.余江波.基于资源节约与环境友好的高性能水润滑轴承关键技术研究.重庆大学博士学位论文,2006:1~30.
7.Xiaolei Wang,Koji Kato,Koshi Adachi,et al.Loads carrying capacity map for the surfacetexture design of SiC thrust bearing sliding in water.Tribology International,2003,(36):189~197.
8.陈战,王家序,秦大同.以水作润滑介质的摩擦副的研究.农业机械学报.2001,32(3):124~125.
9.粟木弘嗣.水下滑动轴承的材料和设计技术.机械设计,1988,32(11):47~52.
10.Frik Trostmab et al.Hydraulic components using wap water as pressure medium.Proceedingsof4th Scand,Int.Conf.on Fluid Power,Finland,1995.
11.Li ZY,Yang SD. Development of hydraulic pump to operate with raw water,Proceedingsof1998ASME International Fluids Engineering Division Summer Meeting.USA,1998:21~25.
12.陈战,王家序,秦大同.以水作介质的机械传动的研究.润滑与密封.2001,(3):14~15.
13.郭力.水润滑轴承研究的进展.精密制造与自动化.2007,(1):14~15.
14.刘维民,薛群集.润滑材料的研究进展与挑战.第八届全国摩擦学大会论文集,2007:8.20.
15.段芳莉.橡胶轴承的水润滑机理研究.重庆大学博士学位论文,2002:1~61.
16.Champ D H,Southern E,Thomas A C.Fracture mechanics applied to rubber abrasion,Advances in polymer friction and wear, Lee L H(ed.), New York and London: Plenum Press,1974:133~138.
17.Southern E,Thomas A G.Strides of rubber abrasion.Rubber Chem.Technol,1979:52~88.
18.Hamrock B.J,Jacobson B.O.Elastohydirodynamic lubrication of line contacts.Trans. ASLE,1984,27(4).
19.温诗铸,朱东.等温弹流润滑问题的直接迭代解.润滑与密封,1985,(4).
20.温诗铸,杨沛然.弹性流体动力润滑.北京:清华大学出版社,1992:20~263.
21.Houpert L.G,Hamrock B.J.Fast approach for calculating film thicknesses and pressures inelastohydrodynamically lubricated contacts at high loads.NASA technical Memorandum87032,1985.
22.王家序,余江波,田凡.水润滑塑料合金轴承数控值分析的多重网格法.润滑与密封.2005(5):62~6523. Xiaohua Y. A new and effective analysis of elastohydrodynamic elliptic contactproblem.Texas A&M University, Dissertation,2002.
24.杨沛然.流体润滑数值分析.国防工业出版社,1998.
25.王优强.水润滑橡胶轴承润滑机理的研究.青岛建筑工程学院硕士学位论文,1995:1~61.
26.陈战.水润滑轴承的摩擦磨损性能及润滑机理的研究.重庆大学博士学位论文,2003.
27.彭晋民.水润滑轴承的润滑机理及设计研究.重庆大学博士学位论文,2003:13~44.
28.Hooke C J.The elastohydrodynamic lubrication of a cylinder on an elastomeric layer.Wear,1986,1986(111):83~99.
29.Hooke C J.The calculation of film thicknesses in soft, highly deformed contacts underdynamic conditions.Proc Instn Mech Engrs,1987,201(c3):171~179.
30.Salant R F,Flaherty A L.Elastohydrodynamic analysis of reverse pumping in rotary lip sealswith micro undulations.ASME Journal of Tribology,1994,116.
31.Strozzi A.An assessment of the numerical solution of the elastohydrodynamic problem forsoft contacts.Wear,1987,(115):53~61.
32.Laurent Jordi,Christo Iliev,Traugott E.Fischer.Lubrication of silicon nitride and siliconcarbide by water:running in,wear and operation of sliding bearings.Tribology Letters,2004,17(3):367~376.
33.S Hollinger,J M.Georges,D.Mazuyer,et al.High-pressure lubrication with lamellarstructures in aqueous lubricant.Tribology Letters.2000.9(3~4):75~83.
34.Ming Chen,Koji Kato,Koshi Adachi.The difference in running-in period and frictioncoefficient between Self-Mated Si3N4and SiC Under Water Lubrication. TribologyLetters.2001,11(1):23~28.
35.Ming Chen,Koji Kato,Koshi Adachi.The comparisons of sliding speed and normal loadeffect on friction coefficients of self-mated Si3N4and SiC under water lubrication.TribologyInternational.2002,(35):129~135.
36.《运输机械设计选用手册》编辑委员会.运输机械设计选用手册(上册).北京:化学工业出版社,2005.
34.孙可文.带式输送机的传动理论与设计计算.北京:煤炭工业出版社,1991.
38.李光布.带式输送机动力学及设计.北京:机械工业出版社,1998.6.
39.杨复兴,蔡学熙.胶带输送机结构原理与计算(上册).北京:煤炭工业出版社,1983.
40.陈乃祥,吴玉林.离心泵.北京:机械工业出版社,2003.3.
41.马恩,李素敏.液压与气压传动.北京:高等教育出版社,2010.6.
42.梁炳煌.运输机械手册(第一册).北京:化学工业出版社,1983.
43.柯葵,朱立明.流体力学与流体机械.上海:同济大学出版社,2009.9.
44.宋伟钢.通用带式输送机设计.北京:机械工业出版社,2006.5.
45.宋瑞宏,倪新跃等.我国气垫带式输送机的现状与发展[J].江苏工业学院学报,2006(2):61~64.
46.吴瑞清.胶带输送机的国内外发展趋势[J].机械工程师,2001(8):8~10.
47.丁明洋.气垫带式输送机结构和参数设计[J].起重运输机械,2005(9):26~27.
48.范迅,谢晋,孟繁瑜.水垫带式输送机的研究[J].中国矿业大学学报,1999,28(5):465~467.
49.刘宪伟,范迅.水垫带式输送机水垫压力场数值模拟[J].煤炭学报,2007,32(3):317~320.
50.范迅,刘宪伟等.水垫带式输送机设计原理及基本参数的研究[J].中国矿业大学学报,2006,35(5)581~585.
51.武欣.带式输送机关键部件的设计[J].煤矿机械,2010,31(8):59~60.
52.范迅,刘宪伟等.水垫带式输送机的润滑机制研究[J].润滑与密封,2006,(11):1~8.
53.黄平.摩擦学教程.北京:高等教育出版社,2008.
54.孟繁瑜.液垫带式输送机润滑机理及承载能力研究[D].中国矿业大学(北京),1995.
55.张立仁,刘宪伟.基于Fluent对水垫带式输送机流体场的仿真研究[J].太原理工大学学报,2007,38(6):483~485.
56.张钺.国内外带式输送机的应用概况[J].矿山机械,2001(5):55~67.
57.池长青.流体力学润滑[M].北京:国防工业出版社,1998.
58.余建山.气垫带式输送机的发展与应用[J].中国铸造装备与技术,1996(6):9~13.
59.宋伟钢,李森林.气垫带式输送机气体参数的分析[J].矿山机械,1994(1):23~26.
60.刘宪伟.面向绿色开采的低粘度介质润滑理论及应用研究[D].中国矿业大学(北京),2008,73~93.
61.郑侠.液垫带式输送机液垫润滑方程求解方法研究[D].中国矿业大学(北京),2007.
62.谢晋.水垫带式输送机的设计及试验研究[D].中国矿业大学(北京),1998,8~15.
63.宋伟钢,彭兆行.气垫带式输送机的设计与计算(Ⅲ)[J].矿山机械,1994(8):42~44.
64.张亮有.气垫带式输送机设计理论[J].起重运输机械,1990(02):9~15.
65.孟繁瑜.无托辊带式输送机的研究进展[J].煤炭科学技术,1999,27(8):36~39.
66.孟繁瑜.液垫带式输送机的润滑机理研究[J].矿山机械,2000(3):45~48.
67.柳铭,倪新跃.气垫带式输送机气室盘槽气孔的分布形式[J].江苏工业学院学报,2008,20(1):26~28.
68.戴学余,苗旭升.几种低粘度润滑介质下动静压轴承的性能分析[J].润滑与密封,2004(3):10~17.
69.毛君,解本铭等.气垫带式输送机盘槽设计计算及理论分析[J].辽宁工程技术大学学报,1992,11(1):68~76.
70.韩会军.固体颗粒对低粘度介质润滑特性的影响[D].中国矿业大学(北京),2010,4~7.
71.段诚.水垫带式输送机实验台设计及实验研究[D].中国矿业大学(北京),2011,14~16.
72.周华,杨华勇,龚国芳.水液压技术的研究现状与发展趋势[J].中国机械工程,2000,11(12):1430~1435.
73.Huber,Bill.Conveyor Upkeep and Performance[J].Rock Products,2006,109(6):14.
74.Girad,Laurent,Masse,Serge. Belt Conveyor Safety. Professional safety[J],2004,11:20~26.
75.S.S.Tsalidis,A.J.Dentsoras.Application of design parameters space search for belt conveyordesign.Engineering[J]. Application of Artificial Intelligence,1997,10(6):617~629.
76.A.J.G.Nuttall,G.Lodewijks,A.J.Klein Breteler,Modelling rolling contact phenomena in apouch belt conveyor system[J],Science direct,2006,260(9-10):1081~1089.
77.HOU You-fu,MENG Qing-rui,Dynamic characteristics of conveyor belts[J],Journal of ChinaUniversity of Mining&Technology,2008,18(4):629~633.
78.R.Prehn,F.Haupert,K.Friedrich.Sliding wear performance of polymer composites underabrasive and water lubricated conditions for pump applications[J].Wear,2005,259(1-6):693~696.
79.Van Ostayen RAJ.The hydro-support:an elasto-hydrostatic thrust bearing with mixedlubrication[D].Delft University of Technology,PhD thesis,2002:272~281.
80. Van Ostayen RAJ,Van Beek, Anton Ros Mink. A parametric study of thehydro-support[J].Tribology International,2004,37(8):617~625.
81.C.Zhu,O.Jacobs,R.Jaskulka.Effect of counterpart material and water lubrication onthe sliding wear performance of crosslinked and non-crosslinked ultra high molecularweight polyethylene[J].Polymer Testing.2004,23(6):665~673.
82.杨曙东.基于海水润滑的中高压海水液压泵研究.华中科技大学博士学位论文[D],2005:1~17.
83.张仁江,武中德,张宏.核电主泵电机水润滑硅化石墨径向轴承试验研究[J].节能技术,2003.21(3):22~24.
84.彭晋民,王家序等.水润滑塑料合金轴承润滑机理研究[J].润滑与密封,2002,(3):5~8.
85.段芬莉,韦云隆,海鹏洲.水润滑橡胶轴承的弹流润滑分析[J].润滑与密封,2001,(3):5~8.
86.王优强,杨成仁.八纵向沟水润滑橡胶轴承润滑性能研究[J].润滑与密封,2001,(4):23~28.
87.王优强,杨成仁.水润滑动压橡胶轴承的结构与润滑性能研究[J].润滑与密封,2001,(6):20~23.
88.周华,杨华勇,龚国芳.水液压技术的研究现状与发展趋势[J].中国机械工程,2000,11(12):1430~1435.
89.贺小峰,杨明国,李壮云.水压柱塞泵赔流阀的设计与试验研究[J].中国机械工程,2004,15(10):862~864.
90.孟繁瑜.液垫带式输送机液垫场参数求解程序设计[J].矿山机械.2000,(3):45~48.
91.孟繁瑜.无托辊带式输送机的研究进展[J].煤炭科学技术.1998,(27):36~39.
92.吴瑞清.胶带输送机的国内外发展趋势[J].煤炭技术.2000,19(6):4~6.
93.周卫国.无托辊带式输送机[P].专利号:CN2087196U.
94.蔡友梅,宋坚.气液垫胶带输送机[P].专利号:CN2041680U.
95.颜云辉,陶诣,于含冰.液垫带式输送机液垫参数计算[J].机械设计与制造,1996,(6):30~32.
96.范迅,谢晋,孟繁瑜.水垫带式输送机的研究[J].中国矿业大学学报,1999,28(5):45~48.
97.孟繁瑜.液垫式输送机润滑机理及承载能力研究[J].中国矿业大学(北京)硕士学位论文,1995.
98.Tritton D J.草务民,张志新,李汝庆译.物理流体力学[M].北京:科学出版社,1986.2~78.
99.温诗铸,黄平.摩擦学原理[M].北京:清华大学出版社,2002:1~78.
100.黄平,雒建斌,温诗铸.粘塑性流体的界面滑移对润滑性能的影响研究[J].力学学报,1999,31(6):745-752.
101.张国贤,王小静,张直明.液压流体力学中的一个新发现—界面滑移[J].液压气动与密封,1996,4:2~3,8.
102.Kaneta N,et al.Observation of wall slip in elastohydrodynamic lubrication[J].ASME:Journal of Tribology,1990,112:447-584.
103.Hatzikiriakos S G,Dealy J M.Wall slip of molten high density polyethylene I-Sliding platerheometer studies[J].Journal of Rheology,1991,3:497-523.
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