%0 Journal Article
%T ģѹ³ÉÐÍ·¨PVG×èȼÕûоÊäËÍ´ø¸²¸Ç½ºµÄÅä·½ÓÅ»¯
%A ½ªÀö
%A ÑÃñ
%A Íõ¾üÁú
%A ºØÓµ¾ü
%J -
%D 2019
%R 10.12136/j.issn.1000-890X.2019.01.0036
%X ¶Ôģѹ³ÉÐÍ·¨PVG×èȼÕûоÊäËÍ´ø [ ÓɾÛÂÈÒÒÏ©Ê÷Ö¬£¨PVC£©×èȼÕûоÊäËÍ´ø±íÃæÌùºÏÏð½ºÐ͸²¸Ç½ºÖÆ³É ] ¸²¸Ç½º½øÐÐÅä·½ÓÅ»¯¡£¸²¸Ç½ºÓÅ»¯Å䷽Ϊ£º¶¡ëæÏ𽺡¡100£¬PVC£¨ºý×´£©¡¡30£¬Ì¿ºÚN234¡¡40£¬Ó²Ö¬Ëá¡¡2£¬Ñõ»¯Ð¿¡¡5£¬ÂÈ»¯Ê¯À¯/ÈýÑõ»¯¶þÌà/ÅðËáп/¾ÛÁ×Ëáï§/ÇâÑõ»¯ÂÁ¡¡20/8/15/15/15£¬·ÖÉ¢¼ÁR50¡¡5£¬ÔöËܼÁ¡¡20£¬·ÀÀϼÁ¡¡2£¬Áò»Æ/´Ù½ø¼ÁTBBS1.7/1.8¡£ÓÅ»¯Åä·½¸²¸Ç½ºÓë´øоճºÏÐÔÄÜ¡¢ÎïÀíÐÔÄÜ¡¢×èȼÐÔÄܺ͹öͲĦ²ÁÊÔÑé½á¹û´ïµ½MT 914¡ª2008ÒªÇó¡£;The formulation of the covering compound of PVG flame-retardant integral core conveyor belt which was made of PVC flame-retardant integral core conveyor belt with a covering compound by molding method was optimized. The optimum formulation of the covering compound was as follows£ºNBR¡¡100£¬PVC£¨paste£©¡¡30£¬carbon black N234¡¡40£¬stearic acid¡¡2£¬zinc oxide¡¡5£¬chlorinated paraffin/antimony trioxide/zinc borate/ammonium polyphosphate/aluminium hydroxide¡¡20/8/15/15/15£¬dispersant R50¡¡5£¬plasticizer¡¡20£¬antioxidant¡¡2£¬and sulfur/accelerator TBBS¡¡1.7/1.8. The adhesion between the covering compound and the core£¬the physical properties£¬flame-retardant performance and drum friction test results of the optimized covering compound met the requirements of MT 914¡ª2008
%K [¸²¸Ç½º
%K PVG×èȼÕûоÊäËÍ´ø
%K ģѹ³ÉÐÍ·¨
%K ¶¡ëæÏð½º
%K ¾ÛÂÈÒÒÏ©Ê÷Ö¬
%K Åä·½ÓÅ»¯
%K ¸²¸Ç½º
%K PVG×èȼÕûоÊäËÍ´ø
%K ģѹ³ÉÐÍ·¨
%K ¶¡ëæÏð½º
%K ¾ÛÂÈÒÒÏ©Ê÷Ö¬
%K Åä·½ÓÅ»¯
%K covering compound
%K PVG flame-retardant integral core conveyor belt
%K molding method
%K NBR
%K PVC
%K formulation optimization]
%U http://www.rubbertire.cn/gy/xjgy/ch/reader/view_abstract.aspx?file_no=XJ2018-0403&flag=1