«ÉÏһƪ/Previous Article|±¾ÆÚĿ¼/Table of Contents|ÏÂһƪ/Next Article»

¡¶½¨Öþ¿ÆѧÓ빤³Ìѧ±¨¡·[ISSN:1673-2049/CN:61-1442/TU]

¾í:

26¾í

ÆÚÊý:

2009Äê04ÆÚ

Ò³Âë:

59-65

À¸Ä¿:

³ö°æÈÕÆÚ:

2009-12-20

ÎÄÕÂÐÅÏ¢/Info

Title:

Generating Method of Random Polygon Aggregate in Mesoscopic Simulation of Concrete

×÷Õß:

ºîÓîÐÇ£¬ÍõÁ¢³É

´óÁ¬Àí¹¤´óѧÍÁľˮÀûѧԺ,ÁÉÄþ´óÁ¬116024

Author(s):

HOU Yu-xing, WANG Li-cheng

School of Civil and Hydraulic Engineering, Dalian University of Technology, Dalian 116024, Liaoning, China

¹Ø¼ü´Ê:

»ìÄýÍÁ;  Ëæ»ú¶à±ßÐιÇÁÏ;  ¶þάģÐÍ;  ÊýֵģÄâ;  ϸ¹Û·ÖÎö;  ÆÆ»µÐÎ̬

Keywords:

concrete;  random polygon aggregate;  2-D model;  numerical simulation;  mesoscopic analysis;  failure mode

·ÖÀàºÅ:

TU528

DOI:

-

ÎÄÏ×±êÖ¾Âë:

A

ÕªÒª:

Ìá³öÁËÒ»ÖÖÒԸĽøÃæ»ýÅбð×¼ÔòºÍ͹¶à±ßÐÎÉú³É·½Ê½Îª»ù´¡µÄ¶þά»ìÄýÍÁ¹ÇÁÏËæ»úÉú³ÉËã·¨¡£Í¨¹ý¶Ô¹ÇÁÏÑÓÉìÌõ¼þµÄ¸Ä½øºÍ¶¨µãλÖÃÌõ¼þµÄÏÞ¶¨,¸Ä½øÁ˳ÌÐòµÄ¿ÉÖ´ÐÐÐÔ,Ìá¸ßÁËËæ»ú¶à±ßÐιÇÁϵÄÉú³ÉЧÂÊ; ͨ¹ýÖáÏòÀ­Ñ¹¼ÆËãʵÀý¶Ô±È·ÖÎöÁËÔ²ÐκͶà±ßÐιÇÁ϶ÔÓÚ»ìÄýÍÁÊÔ¼þµ¥ÖΌÀ­¡¢¿¹Ñ¹Á¦Ñ§ÐÔÄܵÄÓ°Ïì¡£½á¹û±íÃ÷:Ô²ÐιÇÁÏÊÔ¼þ¿¹À­¡¢¿¹Ñ¹ÄÜÁ¦ÂÔ¸ßÓÚ¶à±ßÐιÇÁÏÊÔ¼þ,¹ÇÁÏÐÎ×´¶Ô»ìÄýÍÁÊÔ¼þÀ­Ñ¹Á¦Ñ§ÐÔÄÜÊýֵģÄâ½á¹ûµÄÓ°ÏìºÜС¡£

Abstract:

An improved generating method of random concrete aggregates in 2-D area based on area criteria and generating pattern was proposed. Through improving aggregate extension condition and limiting the condition of special point's location, the generation efficiency of random polygon aggregates was raised, and the computational program was subsequently improved. Finally, through comparing the calculation examples under axial tension and compression, the influences of mechanical properties on concrete specimens under uniaxial tension and compression were analyzed by comparing the different shapes of aggregates, such as circular aggregate and polygon aggregate. The result shows that the concrete specimens with circular aggregates have slightly higher strength than that of polygon aggregates, which also indicates that shape of aggregate has little effect on the tensile and compressive mechanical properties of concrete specimens in terms of the numerical simulation results.

²Î¿¼ÎÄÏ×/References:

[1] Âí»³·¢,³ÂºñȺ,Àè±£çû.»ìÄýÍÁϸ¹ÛÁ¦Ñ§Ñо¿½øÕ¹¼°ÆÀÊö[J]. ÖйúË®ÀûË®µç¿ÆѧÑо¿ÔºÑ§±¨,2004,2(2): 124-130. MA Huai-fa,CHEN Hou-qun,LI Bao-kun.Review on Micro-mechanics Studies of Concrete[J].Journal of China Institute of Water Resources and Hydropower Research,2004,2(2):124-130.
[2]WITTMANN F H,ROELFSTRA P E,SADOUKI H.Simulation and Analysis of Composite Structures[J].Material Science and Engineering,1984,68(2):239-248.
[3]BEDDOW J K,MELOY T P.Testing and Characterization of Powders and Fine Particles[M].London:Heyden,1980:59-64.
[4]DE SCHUTTER G,TAERWE L.Random Particle Model for Concrete Based on Delaunay Triangulation[J].Materials and Structures,1993,26(2):67-73.
[5]Íõ×ÚÃô.²»¾ùÖʲÄÁÏ(»ìÄýÍÁ)ÁÑ϶À©Õ¹¼°ºê¹Û¼ÆËãÇ¿¶ÈÓë±äÐÎ[D].±±¾©:Ç廪´óѧ,1996. WANG Zong-min.Mesoscopic Study of Crack Growth and Composite Behavior of Concrete[D].Beijing:Tsinghua University,1996.
[6]WANG Z M,KWAN A K H,CHAN H C.Mesoscopic of Study of Concrete¢ñ:Generation of Random Aggregate Structure and Finite Element Mesh[J].Computers and Structures,1999,70(5):533-544.
[7]¸ßÕþ¹ú,Áõ¹âÍ¢.¶þά»ìÄýÍÁËæ»ú¹ÇÁÏÄ£ÐÍÑо¿[J].Ç廪´óѧѧ±¨:×ÔÈ»¿Æѧ°æ,2003,43(5):710-714. GAO Zheng-guo,LIU Guang-ting.Two-dimensional Random Aggregate Structure for Concrete[J].Journal of Tsinghua University:Science and Technology,2003,43(5):710-714.
[8]¶Å³É±ó,ËïÁ¢¹ú.ÈÎÒâÐÎ×´»ìÄýÍÁ¹ÇÁϵÄÊýֵģÄâ¼°ÆäÓ¦ÓÃ[J].Ë®Àûѧ±¨,2006,37(6):662-667. DU Cheng-bin,SUN Li-guo.Numerical Simulation of Concrete Aggregates with Arbitrary Shapes and Its Application[J].Journal of Hydraulic Engineering,2006,37(6):662-667.
[9]ËïÁ¢¹ú,¶Å³É±ó,´÷´ºÏ¼.´óÌå»ý»ìÄýÍÁËæ»ú¹ÇÁÏÊýֵģÄâ[J].ºÓº£´óѧѧ±¨:×ÔÈ»¿Æѧ°æ,2005,33(3):291-295. SUN Li-guo,DU Cheng-bin,DAI Chun-xia.Numer-ical Simulation of Random Aggregate Model for Mass Concrete[J].Journal of Hohai University:Natural Sciences,2005,33(3):291-295.
[10]KAWAI T.New Element Models in Discrete Structural Analysis[J].Journal of the Society of Naval Architects of Japan,1977,141:187-193.
[11]NAGAI K,SATO Y,UEDA T.Mesoscopic Simulation of Failure of Mortar and Concrete by 2D RBSM[J].Journal of Advanced Concrete Technology,2004,2(3):359-374.
[12]Íõ»³ÁÁ,ËÎÓñÆÕ,Íõ±¦Í¥.ÓøÕÌ嵯»ÉÔª·¨Ñо¿È«¼¶Åä»ìÄýÍÁÁ¦Ñ§ÐÔÄÜ[J].´óÁ¬Àí¹¤´óѧѧ±¨,2006,46(Ôö):105-117. WANG Huai-liang,SONG Yu-pu,WANG Bao-ting.Numerical Simulation of Mechanical Behavior of Fully-graded Concrete Based on Rigid Body Spring Model[J].Journal of Dalian University of Technology,2006,46(S):105-117.
[13]Íõ±¦Í¥,ËÎÓñÆÕ,ÕÅÑàÀ¤.»ùÓÚ¸ÕÌå-µ¯»ÉÄ£Ð͵ĻìÄýÍÁ΢ÁÑÎÆÐÐΪģÄâ[J].¹¤³ÌÁ¦Ñ§,1999,16(2):140-144. WANG Bao-ting,SONG Yu-pu,ZHANG Yan-kun.Simulation of Concrete Microcrack Behavior on RBSM[J].Engineering Mechanics,1999,16(2):140-144.
[14]Íõ±¦Í¥,ÐìµÀÔ¶.»ùÓÚ¸ÕÌå-µ¯»ÉÔª·¨µÄÈ«¼¶Åä»ìÄýÍÁ±¾¹¹ÌØÐÔÄ£Äâ[J].ºÓº£´óѧѧ±¨:×ÔÈ»¿Æѧ°æ,2000,28(1):22-25. WANG Bao-ting,XU Dao-yuan.Simulation of Fully-graded Aggregate Concrete Constitutive Behavior Based on Rigid Body Spring Model[J].Journal of Hohai University:Natural Sciences,2000,28(1):22-25.
[15]֣ľÁ«,³ÂË©·¢,Íõ±ü¸Ù.¶à¿×»ìÄýÍÁÅÅË®»ù²ã·ÓÃÐÔÄÜÑо¿[J].Î÷°²¿Æ¼¼´óѧѧ±¨,2007,27(4):603-607. ZHENG Mu-lian,CHEN Shuan-fa,WANG Bing-gang.Physical and Mechanical Performance of Porous Concrete for Drainage Base[J].Journal of Xi'an Univer-sity of Science and Technology,2007,27(4):603-607.
[16]¸ß ÀÙ,³ÂË©·¢.ÅäºÏ±ÈÉè¼Æ²ÎÊý¶Ô¸ßÐÔÄÜ»ìÄýÍÁ¿¹¶³ÐÔÃô¸ÐÌØÐÔµÄÓ°Ïì[J].½»Í¨ÔËÊ乤³Ìѧ±¨,2006,6(4):27-31. GAO Lei,CHEN Shuan-fa.Influence of Mix-designed Parameters on Frost Thaw Resistance of High Performance Concrete[J].Journal of Traffic and Transportation Engineering,2006,6(4):27-31.
[17]¹ùÄËʤ,ÕÔÓ±»ª,ËïÂÔÂ×.ÏËά²ôÁ¿¶Ô¾Ûõ¥ÏËάÁ¤Çà»ìÄýÍÁÈÍÐÔµÄÓ°Ïì[J].½»Í¨ÔËÊ乤³Ìѧ±¨,2006,6(4):32-35. GUO Nai-sheng,ZHAO Ying-hua,SUN Lue-lun.Effect of Fiber Contents on Toughness of Polyester Fiber Asphalt Concrete[J].Journal of Traffic and Transportation Engineering,2006,6(4):32-35.
[18]½ðµî´º,ÁõÏ£·å,Àî Äþ,µÈ.»ìÄýÍÁÁÑ·ì³ÉÒò¡¢·ÖÀàÓë·ÀÖÎ[J].Öþ·»úеÓëÊ©¹¤»úе»¯,2008,28(11):53-55. JIN Dian-chun,LIU Xi-feng,LI Ning,et al.Cause Classification and Prevention of Cracks of Concrete[J].Road Machinery & Construction Mechanization,2008,28(11):53-55.
[19]ÁÖ ¸Þ,À²¨,ÕÔ ¾ê,µÈ.µ¥ÖáÀ­Ñ¹×´Ì¬Ï»ìÄýÍÁÆÆ»µµÄϸ¹ÛÊýÖµÑÝ»¯·ÖÎö[J].½¨Öþ¿ÆѧÓ빤³Ìѧ±¨,2007,24(1):1-6. LIN Gao,LI Jian-bo,ZHAO Juan,et al.Mesoscopic Numerical Evolution Analysis of Concrete Damage Under Uniaxial Tension and Compression[J].Journal of Architecture and Civil Engineering,2007,24(1):1-6.
[20]ÍõÁ¢³É,ÁõººÓÂ,HIWADA K.¹è»Ò¶ÔÇá¹ÇÁÏ»ìÄýÍÁ¿¹º£Ë®¶³ÈÚÐÔÄܵÄÓ°Ïì[J].½¨Öþ²ÄÁÏѧ±¨,2005,8(4):349-355. WANG Li-cheng,LIU Hang-yong,HIWADA K.Influences of Silica Fume on the Property of Lightweight Aggregate Concrete with Resistance to Freezing and Thawing Cycles in Seawater[J].Journal of Building Materials,2005,8(4):349-355.

ÏàËÆÎÄÏ×/References:

[1]µ¥ì¿,ÕÅÉÜÒÝ.BFRP½îÓë»ìÄýÍÁµÄÕ³½á-»¬ÒƱ¾¹¹¹Øϵ[J].½¨Öþ¿ÆѧÓ빤³Ìѧ±¨,2013,30(02):15.
¡¡SHAN Wei,ZHANG Shao-yi.[J].Journal of Architecture and Civil Engineering,2013,30(04):15.
[2]ÂíÖ¾Ãù,ÕÔÌú¾ü,°Í¹âÖÒ,µÈ.¶³ÈÚ»·¾³ÏÂÒýÆø»ìÄýÍÁµÄ¿¹¸Ö½îÐâÊ´ÄÜÁ¦Ñо¿[J].½¨Öþ¿ÆѧÓ빤³Ìѧ±¨,2014,31(03):85.
¡¡MA Zhi-ming,ZHAO Tie-jun,BA Guang-zhong,et al.Study on Ability of Resistance to Steel Corrosion of Air Entraining Concrete Under Freezeª²thaw Environment[J].Journal of Architecture and Civil Engineering,2014,31(04):85.
[3]ÀîÆ»,ÈÎÏþµ¤,Àî ½Ü.»ùÓÚÒþʽÌݶÈÀíÂ۵ĻìÄýÍÁϸ¹ÛËæ»ú¶ÏÁÑÄ£ÐÍ[J].½¨Öþ¿ÆѧÓ빤³Ìѧ±¨,2014,31(03):90.
¡¡LI Ping,REN Xiao-dan,LI Jie.Meso Stochastic Fracture Model for Concrete Based on Implicit Gradient Theory[J].Journal of Architecture and Civil Engineering,2014,31(04):90.
[4]µÔ Ô½,ÕÔ¾ùº£,°¬ÏþÇÛ,µÈ.»ùÓÚͳһǿ¶ÈÀíÂ۵İÍÎ÷Ô²ÅÌÅüÁÑÇ¿¶È·ÖÎö[J].½¨Öþ¿ÆѧÓ빤³Ìѧ±¨,2015,32(03):46.
¡¡ZHAI Yue,ZHAO Jun-hai,AI Xiao-qin,et al.Analysis on Splitting Strength of Brazilian Disc Based on Unified Strength Theory[J].Journal of Architecture and Civil Engineering,2015,32(04):46.
[5]Íõ ¾û,Èξ¸ºÀ,¹ù´óÅô.¶ÌÇÐÐþÎäÑÒÏËά»ìÄýÍÁ»ù±¾Á¦Ñ§ÐÔÄܵijߴçЧӦ[J].½¨Öþ¿ÆѧÓ빤³Ìѧ±¨,2015,32(05):96.
¡¡WANG Jun,REN Jing-hao,GUO Da-peng.Size Effect of Basic Mechanical Properties of Chopped Basalt Fiber Reinforced Concrete[J].Journal of Architecture and Civil Engineering,2015,32(04):96.
[6]Îâ·½²®,ÕÅ º½,Àî ¾û,µÈ.²»Í¬ÏäÌåÐÎʽ»ìÄýÍÁÃÜÀß¿ÕÐÄÂ¥¸ÇÊÜÁ¦ÐÔÄÜÊÔÑé[J].½¨Öþ¿ÆѧÓ빤³Ìѧ±¨,2016,33(02):7.
¡¡WU Fang-bo,ZHANG Hang,LI Jun,et al.Experiment on Mechanical Behavior of Concrete Hollow-ribbed Floor with Different Box[J].Journal of Architecture and Civil Engineering,2016,33(04):7.
[7]Ëï ê»,Àî¼Ì³¬,¸Ê µ¤.Àß¼ä¾à³¬ÏÞ¸Ö½îÓë»ìÄýÍÁ¼äÕ³½áÇ¿¶ÈÊÔÑé[J].½¨Öþ¿ÆѧÓ빤³Ìѧ±¨,2016,33(02):107.
¡¡SUN Hao,LI Ji-chao,GAN Dan.Experiment on Bond Strength Between Steel and Concrete with Overrun Rib Spacing[J].Journal of Architecture and Civil Engineering,2016,33(04):107.
[8]ÇǺêϼ,·³Ð¹¦,Àî Óî,µÈ.ÄþÏÄÑÎ×ÕÍÁµØÇøÏÖ³¡±©Â¶»ìÄýÍÁÄ;ÃÐÔËðÉËÆÀ¼ÛÊÔÑé[J].½¨Öþ¿ÆѧÓ빤³Ìѧ±¨,2016,33(06):44.
¡¡QIAO Hong-xia,LU Cheng-gong,LI Yu,et al.Experiment on Durability Damage Assessment of Concrete Field Exposed in Saline Soil Area of Ningxia[J].Journal of Architecture and Civil Engineering,2016,33(04):44.
[9]Ф ½Ü,ÇüÎÄ¿¡,Öì Åô.²»Í¬´Öϸ¹ÇÁÏ×éºÏϵĻìÄýÍÁÄÍÁòËḯʴÑо¿[J].½¨Öþ¿ÆѧÓ빤³Ìѧ±¨,2016,33(06):81.
¡¡XIAO Jie,QU Wen-jun,ZHU Peng.Research on Concrete Sulfuric Acid Resistance with Different Types of Coarse and Fine Aggregates[J].Journal of Architecture and Civil Engineering,2016,33(04):81.
[10]ÁõººÀ¥,Ëﳬ,Àî½Ü.»ùÓÚCTɨÃèµÄ»ìÄýÍÁÈýάϸ¹ÛÊýֵģÄâ[J].½¨Öþ¿ÆѧÓ빤³Ìѧ±¨,2010,27(01):54.
¡¡LIU Han-kun,SUN Chao,LI Jie.Three-demensional Mesoscopic Numerical Simulation of Concrete Based on CT Scan[J].Journal of Architecture and Civil Engineering,2010,27(04):54.

±¸×¢/Memo

±¸×¢/Memo:

ÊÕ¸åÈÕÆÚ:2009-08-11
»ù½ðÏîÄ¿:¹ú¼Ò×ÔÈ»¿Æѧ»ù½ðÖصãÏîÄ¿(50838001); ½ÌÓý²¿¿Æѧ¼¼ÊõÑо¿ÖصãÏîÄ¿(109046)
×÷Õß¼ò½é:ºîÓîÐÇ(1985-),ÄÐ,ºÚÁú½­¹þ¶û±õÈË,¹¤Ñ§Ë¶Ê¿Ñо¿Éú,E-mail:hyx01234@163.com¡£

³£Óù¦ÄÜ

¸üÐÂÈÕÆÚ/Last Update: 2009-12-20