ÆøÅݲÎÊý¶ÔÎÞíĹìµÀÖ§³Ð²ã»ìÄýÍÁ¿¹¶³ÄÜÁ¦Ó°Ïì·ÖÎö Analysis of the Influence of Bubble Parameters on the Frost Resistance of Ballastless Track Slab Concrete    ÖÐÎĹؼü´Ê:Ö§³Ð²ã  µÍÇ¿¶È»ìÄýÍÁ  º¬ÆøÁ¿  ¿¹¶³ÐÔÄÜ  ÆÀ¼ÛÖ¸±ê  Ô¤²âÄ£ÐÍ Ó¢ÎĹؼü´Ê:supporting layer  low strength concrete  air content  frost resistance  evaluation indicator  prediction model »ù½ðÏîÄ¿: ×÷Õß µ¥Î» Ñ־£¬ÁõѧÎÄ  ¾©»¦¸ßËÙÌú·¹É·ÝÓÐÏÞ¹«Ë¾£¬±±¾©¤A100038  Ñî־ǿ  ¶«ÄÏ´óѧ£¬½­ËÕ¤AÄϾ©¤A210089  ÕªÒªµã»÷´ÎÊý: 291 È«ÎÄÏÂÔØ´ÎÊý: 208 ÖÐÎÄÕªÒª:       ¶³ÈÚÑ­»·×÷ÓÃÊǵ¼Öº®Çø°åʽÎÞíĹìµÀÖ§³Ð²ã·þÒÛÐÔÄÜϽµµÄÖ÷ÒªÒòËØÖ®Ò»¡£ÖƱ¸ÁËC10¡¢C15µÍÇ¿¶È»ìÄýÍÁ¼°Ca10¡¢Ca15µÍÇ¿¶ÈÒýÆø»ìÄýÍÁ£¬·ÖÎöÁËÖ§³Ð²ã»ìÄýÍÁº¬ÆøÁ¿¡¢Æø¿×½á¹¹ÌØÕ÷ÒÔ¼°¿¹Ñ¹Ç¿¶È±ä»¯¹æÂÉ£¬Ñо¿Á˶³ÈÚÑ­»·Ïº¬ÆøÁ¿¶ÔÖ§³Ð²ã»ìÄýÍÁ¿¹Ñ¹Ç¿¶È¡¢ÖÊÁ¿Ëðʧ¼°Ïà¶Ô¶¯µ¯ÐÔÄ£Á¿µÄÓ°Ïì¡£Ñо¿±íÃ÷£ºÖ§³Ð²ã»ìÄýÍÁÇ¿¶ÈµÈ¼¶ºÍº¬ÆøÁ¿ÊÇÓ°Ï쿹¶³ÄÜÁ¦µÄÖ÷ÒªÒòËØ£¬Êʵ±Ìá¸ß»ìÄýÍÁÇ¿¶ÈµÈ¼¶ºÍº¬ÆøÁ¿£¬¿ÉÏÔÖøÔö¼ÓÆ俹¶³ÄÜÁ¦£»Ó²»¯»ìÄýÍÁÆøÅݼä¾àϵÊýÓëÖ§³Ð²ã¿¹¶³ÐÔÄܾßÓÐÁ¼ºÃµÄÏà¹ØÐÔ£¬²ÉÓÃÆøÅݼä¾àϵÊý¿É½ÏºÃµÄÆÀ¼ÛµÍÇ¿¶ÈµÈ¼¶Ö§³Ð²ã»ìÄýÍÁµÄ¿¹¶³ÐÔÄÜ¡£»ùÓÚ¶³ÈÚÑ­»·×÷Óúó»ìÄýÍÁÁ¦Ñ§ÐÔÄÜÑݱä¹æÂɽ¨Á¢ÁËÖ§³Ð²ã»ìÄýÍÁ¶³ÈÚËðÉËÔ¤²âÄ£ÐÍ£¬Ö¼ÔÚΪº®ÇøÎÞíĹìµÀÖ§³Ð²ãÉè¼ÆÓëÊ©¹¤Ìṩ²Î¿¼¡£ Ó¢ÎÄÕªÒª:       Freeze thaw cycles are one of the main factors that contributing to the deterioration of the service performance of the supporting layer concrete in ballastless track systems in cold regions. In this study, four different concrete mixtures with varying compressive strengths and air contents were prepared. The air content, pore structure characteristics, and compressive strength of the concrete were analyzed. The effects of air content on the compressive strength, mass loss, and relative dynamic elastic modulus of the supporting layer concrete through freeze thaw cycles were investigated. The results show that the compressive strength and air content are key parameters affecting the frost resistance of ballastless track supporting layer concrete. Increasing the compressive strength and air content significantly improves the frost resistance of the supporting layer. Furthermore, the bubble spacing coefficient of hardened concrete was found to correlate well with the frost resistance of the supporting layer, making it a useful indicator for evaluating the frost resistance of low strength supporting layer concrete. Based on the evolution of the mechanical properties of concrete after freeze thaw cycles, a prediction model for freeze thaw damage of supporting layer concrete was developed. This model aims to provide guidance for the design and construction of ballastless track supporting layers in cold regions. Ñ־£¬ÁõѧÎÄ,Ñî־ǿ.ÆøÅݲÎÊý¶ÔÎÞíĹìµÀÖ§³Ð²ã»ìÄýÍÁ¿¹¶³ÄÜÁ¦Ó°Ïì·ÖÎö[J].¹ú·À½»Í¨¹¤³ÌÓë¼¼Êõ,2024,22(6):20~24 ²é¿´È«ÎÄ  ²é¿´/·¢±íÆÀÂÛ  ÏÂÔØPDFÔĶÁÆ÷ ¹Ø±Õ

°æȨËùÓС¶¹ú·À½»Í¨¹¤³ÌÓë¼¼Êõ¡·±à¼­²¿
±à¼­²¿µØÖ·£ººÓ±±Ê¡Ê¯¼ÒׯÊᱶþ»·¶«Â·17ºÅʯ¼ÒׯÌúµÀ´óѧ ÁªÏµµç»°£º0311-87935805  E-mail£º gfjt@stdu.edu.cn
±¾ÏµÍ³Óɱ±¾©ÇÚÔƿƼ¼·¢Õ¹ÓÐÏÞ¹«Ë¾Éè¼Æ