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¡¶ÉúÎïҽѧ¹¤³ÌÑо¿¡·[ISSN:1006-6977/CN:61-1281/TN]

ÆÚÊý:

2019Äê03ÆÚ

Ò³Âë:

292-296

À¸Ä¿:

³ö°æÈÕÆÚ:

2019-09-25

ÎÄÕÂÐÅÏ¢/Info

Title:

Biomechanical analysis of ankle injury based on three-dimensional finite element simulation

ÎÄÕ±àºÅ:

1672-6278 (2019)03-0292-05

×÷Õß:

ËÎÏþÑà1¡÷; ºúÐãÇí1; ÐÜÏþ÷1; ÖÜƼ1; ºØÞÈ1; ºÎ÷2

1.ËÄ´¨Ê¡ÈËÃñҽԺν­Ò½Ôº ,³É¶¼ 611130;2.³É¶¼Àí¹¤´óѧ¹¤³Ì¼¼ÊõѧԺ , ³É¶¼ 611130

Author(s):

SONG Xiaoyan1;  HU Xiuqiong1;  XIONG Xiaomei1;  ZHOU Ping1;  HE Yi1;  HE Mei2

1.Wenjiang Hospital, Sichuan People¡¯s Hospital, Chengdu 611130,China;2.Chengdu University of Technology, Chengdu 611130

¹Ø¼ü´Ê:

Èýά; ÓÐÏÞÔª; ·ÂÕæÄ£Äâ; õ×¹Ç; ËðÉË; ÉúÎïÁ¦Ñ§; ÔÆͼ

Keywords:

Three-dimensional;  Finite element;  Simulation simulation;  Ankle bone;  Damage;  Biomechanics;  Cloud picture

·ÖÀàºÅ:

R318

DOI:

10.19529/j.cnki.1672-6278.2019.03.06

ÎÄÏ×±êʶÂë:

A

ÕªÒª:

²ÉÓú˴Ź²ÕñɨÃèÒǺÍAutodeskÈýά½¨Ä£Èí¼þ¹¹½¨µÄõ×¹ÇʵÌåÄ£ÐÍ£¬µ¼ÈëÃÀ¹úANSYSÉú²úµÄ´óÐÍͨÓÃÓÐÏÞÔª·ÖÎöÈí¼þÖУ¬»ñÈ¡õ×¹ÇÈýά·ÂÕæÓÐÏÞÔªÊý×ÖÄ£ÐÍ£¬·ÖÎö²»Í¬ÔغÉÏÂõ×¹ÇËðÉËÉúÎïÁ¦Ñ§µÄÈýάÓÐÏÞԪģÐÍ£¬Í¨¹ýõ×¹ÇλÒÆÔÆͼ¡¢õ×¹ÇÓ¦Á¦·Ö²¼ÔÆͼÒÔ¼°õ×¹ÇÓ¦±ä·Ö²¼ÔÆͼ£¬·ÖÎöõ×¹ÇÕûÌåµÄλÒƱ仯£¬ÅжÏõ׹ǵÄÊÜËðλÖúÍõ׹ؽڵÄÐαäÁ¿£¬µÃµ½õ×¹ÇÔÚ²»Í¬ºÉÔØϵĵÈЧӦÁ¦¡¢µÈЧµ¯ÐÔÓ¦±äºÍ×ÜÐαäÇé¿ö¡£ÊµÑé½á¹û±íÃ÷,¾²Ö¹ÖÐÁ¢Î»õ׹Ǹ÷×é³É¹Ç·¢ÉúλÒÆ»áËæ×Åõ×¹ÇÊܵ½ÔغÉÁ¦µÄÔö¼Ó¶øÔö¼Ó£»ÄÚ·­Î»õ×¹ÇÊܵ½´óÓÚª©1 600 NªªºÉÔØÈÝÒ×·¢Éú¹ÇÕÛ£»²»Í¬õ×¹ÇÇü·þ½Ç¶ÈÏ£¬õ×¹ÇÖÐÁ¢Î»ËæÇ£ÒýÁ¦Ôö¼Ó£¬¾à¹ÇÇ°ÒƾàÀë×î´ó£¬ÇÒõ׹Ƿ¢Éú±³ÇüÇü·þʱµÄ¾à¹ÇλÒÆÂÔ´óÓÚõÅÇüÇü·þ¡£

Abstract:

The solid model of ankle was constructed by magnetic resonance scanner and Autodesk three-dimensional modeling software. It was imported into the large-scale general finite element analysis software (ANSYS,USA) and the digital model of three-dimensional simulation of ankle was obtained. The three-dimensional finite element model of biomechanics of ankle injury under different loads was analyzed. The displacement nephogram, stress distribution nephogram of ankle and strain of ankle were used. Distribution nephogram was used to analyze the displacement change of the whole ankle, to judge the location of the damaged ankle and the deformation of the ankle joint, and to obtain the equivalent stress, equivalent elastic strain and total deformation of the ankle under different loads. The experimental results show that the displacement of each component of ankle bone in static neutral position increases with the increase of load on ankle; the fracture of inverted ankle is prone to occur when the load is greater than 1 600 N; at different angles of ankle yield, the distance of talus forward is the largest with the increase of traction force, and the displacement of talus is slightly larger than that of metatarsal yield when the ankle back yield occurs.

²Î¿¼ÎÄÏ×/References

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¸üÐÂÈÕÆÚ/Last Update: 2019-10-24