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金属橡胶力学性能研究进展与展望

张大义 夏颖 张启成 马艳红 洪杰

张大义, 夏颖, 张启成, 马艳红, 洪杰. 金属橡胶力学性能研究进展与展望[J]. 航空动力学报, 2018, 33(6): 1432-1445. doi: 10.13224/j.cnki.jasp.2018.06.017
引用本文: 张大义, 夏颖, 张启成, 马艳红, 洪杰. 金属橡胶力学性能研究进展与展望[J]. 航空动力学报, 2018, 33(6): 1432-1445. doi: 10.13224/j.cnki.jasp.2018.06.017
Researches on metal rubber mechanics properties in retrospect and prospect[J]. Journal of Aerospace Power, 2018, 33(6): 1432-1445. doi: 10.13224/j.cnki.jasp.2018.06.017
Citation: Researches on metal rubber mechanics properties in retrospect and prospect[J]. Journal of Aerospace Power, 2018, 33(6): 1432-1445. doi: 10.13224/j.cnki.jasp.2018.06.017

金属橡胶力学性能研究进展与展望

doi: 10.13224/j.cnki.jasp.2018.06.017
基金项目: 国家自然科学基金(51475021、51475023、11672017)

Researches on metal rubber mechanics properties in retrospect and prospect

  • 摘要: 围绕金属橡胶力学性能,归纳和总结半个世纪的相关研究成果,对国内外技术研究现状和进展进行了详细阐述。重点对金属橡胶制备工艺、宏观力学特性及形成机理、力学模型、力学性能及影响参数、改进型金属橡胶及工程应用等方面的研究成果进行了系统而深入的讨论。研究表明:金属橡胶制备水平尚处于由实验室规模向工业化生产规模过渡阶段;金属橡胶在研究工作中需要关注的关键问题在于制定工艺流程、性能检测方法等统一的国家标准并建立金属橡胶力学性能数据库。

     

  • [1] 契戈达耶夫.金属橡胶构件的设计[M].李中郢,译.北京:国防工业出版社,2000.
    [2] ZARZOUR M,VANCE J.Experimental evaluation of a metal mesh bear-ing damper[J].Journal of Engineering for Gas Turbines and Power,1999,122(2):326-329.
    [3] ERTAS B H,LUO H.Nonlinear dynamic characterization of oil-free wire mesh dampers[J].Journal of Engineering for Gas Turbines and Power,2008,130(3):1225-1234.
    [4] LI Y,LI X,HUANG X.Research on factors influencing the mechanical properties of metallic rubber[J].Mechanics of Composite Materials,2011,47(5):571-580.
    [5] TAN Q,HE G.Stretching behaviors of entangled materials with spiral wire structure[J].Materials and Design,2013,46(4):61-65.
    [6] WESTERGAARD R H,YORK O H.Elastic metal mesh tubular bellows:US2755079[P].1956-07-17.
    [7] CREDE C E.Vibration isolator:US2610016[P].1952-09-09.
    [8] 王新,朱梓根.环形金属橡胶减振器[J].航空动力学报,1997,12(2):143-145.WANG Xin,ZHU Zigen.Ring metal rubber vibration damper[J].Journal of Aerospace Power,1997,12(2):143-145.(in Chinese)
    [9] CHOUDHRY V V,VANCE J M.Design equations for wire mesh bearing dampers in turbomachinery[R].ASME Paper GT2005-68641,2005.
    [10] AL-KHATEEB E M,VANCE J M.Experimental evaluation of a metal mesh bearing damper in parallel with a structural support[R].ASME Paper 2001-GT-0247,2001.
    [11] ANDRS L S,CHIRATHADAM T A,ANDRS L S,et al.Metal mesh foil bearing:effect of motion amplitude,rotor speed,static load,and excitation frequency on force coefficients[J].Journal of Engineering for Gas Turbines and Power,2011,133(12):1201-1228.
    [12] ERTAS B H.Compliant hybrid journal bearings using integral wire mesh dampers[J].Journal of Engineering for Gas Turbines and Power,2009,131(2):1215-1226.
    [13] LAZUTKIN G V,ULANOV A M,BOYAROV K V.Comparison of mechanical characteristics of vibration isolators made of wire pressed materials[J].International Journal of Engineering and Technology,2014,6(5):2201-2208.
    [14] ULANOV A M,LAZUTKIN G V.Description of an arbitrary multi-axial loading process for non-linear vibration isolators[J].Journal of sound and vibration.1997,203(5):903-907.
    [15] ПОНОМАРЕВ Ю.К,УЛАНОВ А.М.Сравнение российских и зарубежных виброизоляторов из проволочных демпфирующих материалов[R]. Самара:Известия Самарского Научного Центра Российской Академии Наук,2009.(in Russion)
    [16] ZHANG B,LANG Z Q,BILLINGS S A,et al.System identification methods for metal rubber devices[J].Mechanical Systems and Signal Processing,2013,39(1/2):207-226.
    [17] WANG H,RONGONG J A,TOMLINSON G R,et al.Nonlinear static and dynamic properties of metal rubber dampers[R].Leuven,Belgium:International Conference on Noise and Vibration Engineering (ISMA),2010.
    [18] COURTOIS L,MAIRE E,PEREZ M,et al.Mechanical properties of monofilament entangled materials[J].Advanced Engineering Materials,2012,14(12):1128-1133.
    [19] RODNEY D,GADOT B,MARTINEZ O R,et al.Reversible dilatancy in entangled single-wire materials[J].Nature Materials,2015,15(1):72-77.
    [20] GADOT B,MARTINEZ O R,ROSCOAT S R D,et al.Entangled single-wire NiTi material:A porous metal with tunable superelastic and shape memory properties[J].Acta Materialia,2015,96:311-323.
    [21] KAMIJO K,YOSHIDA M,TSUJIMOTO Y.Hydraulic and mechanical performance of LE-7 LOx pump inducer[J].Journal of Propulsion and Power,1993,1(6):819-826.
    [22] LEE Y B,CHANG H K,KIM T H,et al.Effects of mesh density on static load performance of metal mesh gas foil bearings[J].Journal of Engineering for Gas Turbines and Power,2011,134(1):675-683.
    [23] LEE M G,LEE K W,HUR H K,et al.Mechanical behavior of a wire-woven metal under compression[J].Composite Structures,2013,95(1):264-277.
    [24] 马艳红,郭宝亭,朱梓根.金属橡胶材料静态特性的研究[J].航空动力学报,2004,19(3):326-331.MA Yanhong,GUO Baoting,ZHU Zigen.Static characteristics of metal rubber[J].Journal of Aerospace Power,2004,19(3):326-331.(in Chinese)
    [25] ERTAS B,LUO H,HALLMAN D.Dynamic characteristics of shape memory alloy metal mesh dampers[R].AIAA-2009-2521,2009.
    [26] 郝慧荣,白鸿柏,张慧杰.非圆截面丝金属橡胶与普通金属橡胶阻尼性能比较[J].机械科学与技术,2009,28(2):210-213.HAO Huirong,BAI Hongbai,ZHANG Huijie.Comparison of damping capacities between non-circular section wire metal rubber and ordinary metal rubber[J].Mechanical Science and Technology for Aerospace Engineering,2009,28(2):210-213.(in Chinese)
    [27] 李宇燕,黄协清,王刚.一种金属橡胶绕丝机:CN201817156[P].2011-05-04.
    [28] 李拓,白鸿柏,路纯红,等.金属橡胶的研究进展及其应用[J].新技术新工艺,2013(3):85-90.LI Tuo,BAI Hongbai,LU Chunhong,et al.Recent advance and application of metal rubber technology[J].New Technology and New Process,2013(3):85-90.(in Chinese)
    [29] 夏宇宏,姜洪源,敖宏瑞,等.簧丝走向对金属橡胶构件性能的影响分析[J].中国机械工程,2002,13(10):880-883.XIA Hongyu,JIANG Hongyuan,AO Hongrui,et al.Research on the effect of wire distribution on the characteristics of metal rubber element[J].China Mechanical Engineering,2002,13(10):880-883.(in Chinese)
    [30] 黄凯,白鸿柏,路纯红,等.金属橡胶冲压成形数值模拟分析[J].稀有金属材料与工程,2016,45(3):681-687.HUANG Kai,BAI Hongbai,LU Chunhong,et al.Numerical simulation analysis of metal rubber stamping[J].Rare Metal Materials and Engineering,2016,45(3):681-687.(in Chinese)
    [31] 刘宝龙,马艳红,张大义,等.金属橡胶力学特性的热处理工艺影响[J].北京航空航天大学学报,2013,39(2):259-263.LIU Baolong,MA Yanhong,ZHANG Dayi,et al.Experiment investigation on the effect of heat treatment on metal rubber mechanical properties[J].Journal of Beijing University of Aeronautics and Astronautics.2013,39(2):259-263.(in Chinese)
    [32] 曹凤利,白鸿柏,李国璋,等.回火对金属橡胶力学性能及宏观结构尺寸的影响[J].热加工工艺,2014,43(8):189-191.CAO Fengli,BAI Hongbai,LI Guozhang,et al.Impact analysis of tempering on mechanical characteristic of metal-rubber material[J].Hot Working Technology,2014,43(8):189-191.(in Chinese)
    [33] ZHANG D,SCARPA F,MA Y,et al.Compression mechanics of nickel-based superalloy metal rubber[J].Materials Science and Engineering:A,2013,580(37):305-312.
    [34] 曹凤利,白鸿柏,王尤颜,等.振幅对金属橡胶材料疲劳寿命的影响分析[J].中国机械工程,2013,24(5):671-675.CAO Fengli,BAI Hongbai,WANG Youyan,et al.Research on effects of loading amplitude on fatigue life of metal rubber material[J].China Mechanical Engineering,2013,24(5):671-675.(in Chinese)
    [35] HE G,TAN Q,JIANG G,et al.A novel mechanism for auxetic behavior in entangled materials with a spiral wire structure[J].Smart Materials and Structures,2014,23(9):639-650.
    [36] ZHOU W,TANG Y,LIU B,et al.Compressive properties of porous metal fiber sintered sheet produced by solid-state sintering process[J].Materials and Design,2012,35:414-418.
    [37] LIU S F,XI Z P,TANG H P,et al.Sintering behavior of porous titanium fiber materials[J].Journal of Iron and Steel Research International,2014,21(9):849-854.
    [38] LIU P,ZHAO Q,HE G,et al.Fabrication of entangled tough titanium wires materials and influence on three-dimensional structure and properties[J].Journal of Materials Engineering and Performance,2014,23(3):954-966.
    [39] ZUO H,CHEN Y H,BAI H B,et al.The compression deformation mechanism of a metallic rubber[J].International Journal of Mechanics and Materials in Design,2005,2(3/4):269-277.
    [40] LIU P,TAN Q,WU L,et al.Compressive and pseudo-elastic hysteresis behavior of entangled titanium wire materials[J].Materials Science and Engineering :A,2010,527(15):3301-3309.
    [41] ZHU B,MA Y H,ZHANG D Y,et al.A constitutive model of metal rubber based on hysteresis property[J].Acta Physica Sinica,2012,61(7):191-191.
    [42] 白鸿柏,黄协清.三次非线性粘性阻尼双线性滞迟振动系统IHB分析方法[J].西安交通大学学报,1998,32(10):35-38.BAI Hongbai,HUANG Xieqing.An IHB method for the analysis of cubic nonlinear viscous damping and bilinear delayed vibration system[J].Journal of Xian Jiaotong University,1998,32(10):35-38.(in Chinese)
    [43] 李宇燕,黄协清,李福林.基于BP神经网络的金属橡胶本构关系的预估方法[J].航空动力学报,2011,26(5):1128-1134.LI Yuyan,HUANG Xieqing,LI Fulin. Prediction for constitutive relationship of metallic rubber based on BP neural net[J].Journal of Aerospace Power,2011,26(5):1128-1134.(in Chinese)
    [44] ULANOV A M,PONOMAREV Y K.Finite element analysis of elastic-hysteretic systems with regard to damping[J].Russian Aeronautics,2009,52(3):264-270.
    [45] 曹凤利,白鸿柏,任国全,等.基于变长度悬臂曲梁的金属橡胶材料本构模型[J].机械工程学报,2012,48(24):61-66.CAO Fengli,BAI Hongbai,REN Guoquan,et al.Constitutive model of metal rubber material based on curved cantilever beam of variable length[J].Journal of Mechanical Engineering,2012,48(24):61-66.(in Chinese)
    [46] CAO F,BAI H,LI D,et al.A constitutive model of metal rubber for hysteresis characteristics based on a meso-mechanical method[J].Rare Metal Materials and Engineering,2016,45(1):1-6.
    [47] 郭宝亭,朱梓根,崔荣繁,等.金属橡胶材料的理论模型研究[J].航空动力学报,2004,19(3):314-319.GUO Baoting,ZHU Zigen,CUI Rongfan,et al.Theoretical model of metal-rubber[J].Journal of Aerospace Power,2004,19(3):314-319.(in Chinese)
    [48] 彭威,白鸿柏,郑坚,等.金属橡胶材料基于微弹簧组合变形的细观本构模型[J].实验力学,2005,20(3):455-462.PENG Wei,BAI Hongbai,ZHENG Jian,et al.A micromechanics constitutive model of the metal rubber materials based on the radial and axial combined deformation of the micro-springs[J].Journal of Experimental Mechanics,2005,20(3):455-462.(in Chinese)
    [49] 李宇燕,黄协清,宋凯,等.金属橡胶非线性干摩擦副的接触作用机理及其仿真结果分析[J].振动与冲击,2011,30(7):77-81.LI Yuyan,HUANG Xieqing,SONG Kai,et al.Contacting mechanism of nonlinear friction pair for metallic rubber and its simulation results[J].Vibration and Shock,2011,30(7):77-81.(in Chinese)
    [50] LI Y,HUANG X,MAO W.A theoretical model and experimental investigation of a nonlinear constitutive equation for elastic porous metal rubbers[J].Mechanics of Composite Materials,2005,41(4):303-312.
    [51] MA Y,ZHANG Q,ZHANG D,et al.The mechanics of shape memory alloy metal rubber[J].Acta Materialia,2015,96:89-100.
    [52] LIU P,HE G,WU L.Uniaxial tensile stress-strain behavior of entangled steel wire material[J].Materials Science and Engineering :A,2009,509(1):69-75.
    [53] 洪杰,刘宝龙,张大义,等.具有形状记忆效应的新型智能阻尼材料及其热弹性力学性能研究[J].物理学报,2012,61(16):466-474.HONG Jie,LIU Baolong,ZHANG Dayi,et al.Research on the shape memory effect and thermalelasticity of a novel intellectual damping material[J].Acta Physica Sinica,2012,61(16):466-474.(in Chinese)
    [54] 朱彬.金属橡胶受压力学性能和热物理性能理论与试验研究[D].北京:北京航空航天大学,2012.ZHU Bin.Theoretical and experimental investigation on thermos-physical properties of metal rubber[D].Beijing:Beijing University of Aeronautics and Astronautics,2012.(in Chinese)
    [55] 敖宏瑞,孟庆鑫,姜洪源,等.安装预紧量对金属橡胶构件干摩擦阻尼的影响[J].材料科学与工艺,2005,13(3):225-227.AO Hongrui,MENG Qinxin,JIANG Hongyuan,et al.Effects of preloading of metal rubber elements on its dry friction damping characteristics[J].Materials Science and Technology,2005,13(3):225-227.(in Chinese)
    [56] MA Y,ZHANG Q,ZHANG D,et al.Size-dependent mechanical behavior and boundary layer effects in entangled metallic wire material systems[J].Journal of Materials Science,2017,52(7):3741-3756.
    [57] MA Y,GAO D,ZHANG D,et al.Compressive and dissipative behavior of metal rubber under constraints[J].Physica Status Solidi,2015,252(7):1675-1681.
    [58] 李宇燕,黄协清.形状因子变化时金属橡胶结构的静态力学性能分析[J].应用力学学报,2009,26(1):82-86.LI Yuyan,HUANG Xieqing.Static characteristics for metal-rubber structure with different shape factor[J].Chinese Journal of Applied Mechanics,2009,26(1):82-86.(in Chinese)
    [59] MA Y,GAO D,HONG J.Investigation on the effect of dimension on the compression mechanics of metal rubber[R].ASME Paper GT2014-25373,2014.
    [60] ERTAS B,ALKHATEEB E,VANCE J.Cryogenic Temperature effects on metal mesh dampers and liquid hydrogen turbopump rotordynamics[R].AIAA-2002-4164,2002.
    [61] 杨春香,周易,张虎.金属橡胶动态隔振性能的实验研究[J].航空学报,2006,27(3):536-539.YANG Chunxiang,ZHOU Yi,ZHANG Hu.Research on dynamic performance of metal rubber damper[J].Acta Aeronautica et Astronautica Sinica,2006,27(3):536-539.(in Chinese)
    [62] ZHANG D,SCARPA F,MA Y,et al.Dynamic mechanical behavior of nickel-based superalloy metal rubber[J].Materials and Design,2014,56(4):69-77.
    [63] HOU J F,BAI H B,LI D W.Damping capacity measurement of elastic porous wire-mesh material in wide temperature range[J].Journal of Materials Processing Technology,2008,206(1):412-418.
    [64] LIU P,HE G,WU L H.Impact behavior of entangled steel wire material[J].Materials Characterization,2009,60(8):900-906.
    [65] 魏浩东.金属橡胶构件抗冲击性能的理论及实验研究[D].哈尔滨:哈尔滨工业大学,2007.WEI Haodong.Theoretical and experimental research on metal rubber element anti-shock performance[D].Harbin:Harbin Institute of Technology,2007 (in Chinese)
    [66] JIANG H,XIA Y,AO H,et al.Lifetime of metal rubber isolator with different vibration amplitudes[J].Journal of Central South University of Technology,2005,12(2):181-185.
    [67] 陈亮.环形金属橡胶隔振器的疲劳寿命及其试验研究[D].哈尔滨:哈尔滨工业大学,2012.CHEN Liang.Fatigue life of annular metal rubber isolator and its experimental research[D].Harbin:Harbin Institute of Technology,2012.(in Chinese)
    [68] AO H R,JIANG H Y,ULANOV A M.Estimation of the fatigue lifetime of metal rubber isolator with dry friction damping[J].Key Engineering Materials,2006,326:949-952.
    [69] 李国富.随机振动下金属橡胶隔振器寿命影响因素分析及实验研究[D].哈尔滨:哈尔滨工业大学,2014.LI Guofu.Experimental study and analysis of influencing factors on lifetime of metal rubber isolator under random vibration[D].Harbin:Harbin Institute of Technology,2014.(in Chinese)
    [70] 侯军芳,白鸿柏,李冬伟,等.高低温环境下金属橡胶材料疲劳特性试验研究[J].宇航材料工艺,2007,37(2):77-80.HOU Junfang,BAI Hongbai,LI Dongwei,et al.Experimental investigation on fatigue characteristics of metal rubber material at high & low temperature[J].Aerospace Materials and Technology,2007,37(2):77-80.(in Chinese)
    [71] 董秀萍,刘国权,牛犁,等.金属橡胶隔振构件中不锈钢丝的微动摩擦磨损性能研究[J].摩擦学学报,2008,28(3):248-253.DONG Xiuping,LIU Guoquan,NIU Li,et al.Fretting wear of stainless steel wires in metal rubber damping component[J].Tribology,2008,28(3):248-253.(in Chinese)
    [72] 董秀萍,刘国权,杨建春,等.金属橡胶隔振构件中不锈钢丝疲劳断裂的原因[J].机械工程材料,2009,33(4):35-38.DONG Xiuping,LIU Guoquan,YANG Jianchun,et al.Fatigue fracture of stainless steel wires in metal rubber damper[J].Materials for Mechanical Engineering,2009,33(4):35-38.(in Chinese)
    [73] 王尤颜,白鸿柏,侯军芳.金属橡胶材料疲劳损伤性能研究[J].机械工程学报,2011,47(2):65-71.WANG Youyan,BAI Hongbai,HOU Junfang.Fatigue damage performance of metal rubber material[J].Materials for Mechanical Engineering,2011,47(2):65-71.(in Chinese)
    [74] HONG J,WANG H,MA Y,et al.Experimental investigation on durability of a combined rotor bearing support with metal rubber material under dynamic loadings[J].Advanced Materials Research,2011,287:573-576.
    [75] 马艳红,张启成,张大义,等.静载荷作用下金属橡胶失效判据及耐久性试验[J].北京航空航天大学学报,2016,42(2):227-235.MA Yanghong,ZHANG Qicheng,ZHANG Dayi,et al.Failure criterion and durability characteristics of metal rubber under static compression load[J].Journal of Beijing University of Aeronautics and Astronautics,2016,42(2):227-235.(in Chinese)
    [76] 武国启.金属橡胶吸声降噪性能分析及研究[D].哈尔滨:哈尔滨工业大学,2006.WU Guoqi.The analysis and research of metal rubbers performance in sound absorption and reduction[D].Harbin:Harbin Institute of Technology,2006.(in Chinese)
    [77] WU G,AO H,JIANG H,IZZHEUROV E A.Calculation of resonant sound absorption parameters for performance evaluation of metal rubber material[J].Science China Technological Sciences,2009,52(12):3587-3591.
    [78] ARENAS J P,CROCKER M J.Recent trends in porous sound-absorbing materials[J].Sound and Vibration,2010,44(7):12-17.
    [79] HONG J,CHEN L L,MA Y,et al.Hysteretic properties of metal rubber particles[J].Proceedings of the Institution of Mechanical Engineers : Part C Journal of Mechanical Engineering Science,2013,227(4):693-702.
    [80] MA Y,SCARPA F,ZHANG D,et al.A nonlinear auxetic structural vibration damper with metal rubber particles[J].Smart Materials and Structures,2013,22(8):275-284.
    [81] YAN X J,NIE J X.Study of a new application form of shape memory alloy superelasticity[J].Smart Materials and Structures,2003,12(6):14-23.
    [82] HONG J,LIU B,ZHANG D,et al.Shape memory effect and hysteresis behavior of shape memory alloy metal rubber[R].ASME Paper GT2012-69244,2012.
    [83] MA Y,ZHANG Q,ZHANG D,et al.A novel smart rotor support with shape memory alloy metal rubber for high temperatures and variable amplitude vibrations[J].Smart Materials and Structures,2014,23(12):125016.1-125016.8.
    [84] MA Y,ZHANG Q,ZHANG D,et al.Tuning the vibration of a rotor with shape memory alloy metal rubber supports[J].Journal of Sound and Vibration,2015,351:1-16.
    [85] MA Y,HU W,ZHANG D,et al.Tunable mechanical characteristics of a novel soft magnetic entangled metallic wire material[J].Smart Material Structures,2016,25(9):095015.1-095015.11.
    [86] JIANG G,LI Q,WANG C,et al.Fabrication of graded porous titanium-magnesium composite for load-bearing biomedical applications[J].Materials and Design,2015,67:354-359.
    [87] MA Y,WANG H,LI H,et al.Study on metal rubber material's characteristics of damping and sound absorption[R].ASME Paper GT2008-50961,2008.
    [88] CHILDS D W.The space shuttle main engine high pressure fuel turbopump rotordynamic instability problem[J].Journal of Engineering for Gas Turbines and Power,1977,100(1):48-57.
    [89] OKAYASU A,OHTA T,AZUMA T,et al.Vibration problem in the LE-7 LH2 turbopump[R].Orlando:The 26th Joint Propulsion Conference,1990.
    [90] ANDRS L S,CHIRATHADAM T A,KIM T H.Measurement of structural stiffness and damping coefficients in a metal mesh foil bearing[J].Journal of Engineering for Gas Turbines and Power,2010,132(3):763-771.
    [91] 柏传毅,卫文博,侯德门,等.新型钛合金金属橡胶颈椎间盘假体生物力学分析[J].中国脊柱脊髓杂志,2014,24(8):752-756.BO Chuanyi,WEI Wenbo,HOU Demen,et al.Biomechanical analysis of a new titanium rubber cervical disc prosthesis[J].Chinese Journal of Spine and Spinal Cord,2014,24(8):752-756.(in Chinese)
    [92] JIANG G,WANG C,LI Q,et al.Porous titanium with entangled structure filled with biodegradable magnesium for potential biomedical applications[J].Materials Science and Engineering:C,2015,47:142-149.
    [93] WANG Q,CHENG M,HE G,et al.Surface modification of porous titanium with microarc oxidation and its effects on osteogenesis activity in vitro[J].Journal of Nanomaterials,2015,16 (1):408634.1-408634.10.
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出版历程
  • 收稿日期:  2016-12-12
  • 刊出日期:  2018-06-28

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