长江科学院院报
長江科學院院報
장강과학원원보
JOURNAL OF YANGTZE RIVER SCIENTIFIC RESEARCH INSTITUTE
2010年
2期
54-59
,共6页
王信刚%盛明强%王睿%邵铁峰
王信剛%盛明彊%王睿%邵鐵峰
왕신강%성명강%왕예%소철봉
管片%收缩%抗裂%界面粘结强度%界面强化
管片%收縮%抗裂%界麵粘結彊度%界麵彊化
관편%수축%항렬%계면점결강도%계면강화
segment%shrinkage%anti-cracking%interface bond strength%interface strengthening
引入梯度功能设计思路,进行功能梯度混凝土管片(functionally gradient concrete segment,简称FGCS)的结构与材料设计.无细观界面过渡区水泥基材料(meso-interfacial transition zone-free cement-based materials,简称MIF)中由于掺入了能显著改善收缩开裂趋势的减缩组分和细微化裂纹的抗裂组分,降低了MIF的收缩值,提高了MIF的抗裂能力,有利于提高MIF的抗渗性能,进而可以提高FGCS的抗渗性能.混凝土两次浇注成型时,采用界面强化工艺--压印工艺,可以提高混凝土功能层之间界面粘结强度10%~35%,产生界面强化效应.采用ANSYS计算的FGCS中界面最大拉应力的计算值远小于界面劈裂抗拉强度试验测试值,FGCS中界面由于收缩引起的应力不会引起FGCS产生相对的滑移而导致开裂.用于武汉长江隧道工程的FGCS的外弧面裂缝宽度<0.1 mm,Cl~-扩散系数为4.9×10~(-13) m~2/s.
引入梯度功能設計思路,進行功能梯度混凝土管片(functionally gradient concrete segment,簡稱FGCS)的結構與材料設計.無細觀界麵過渡區水泥基材料(meso-interfacial transition zone-free cement-based materials,簡稱MIF)中由于摻入瞭能顯著改善收縮開裂趨勢的減縮組分和細微化裂紋的抗裂組分,降低瞭MIF的收縮值,提高瞭MIF的抗裂能力,有利于提高MIF的抗滲性能,進而可以提高FGCS的抗滲性能.混凝土兩次澆註成型時,採用界麵彊化工藝--壓印工藝,可以提高混凝土功能層之間界麵粘結彊度10%~35%,產生界麵彊化效應.採用ANSYS計算的FGCS中界麵最大拉應力的計算值遠小于界麵劈裂抗拉彊度試驗測試值,FGCS中界麵由于收縮引起的應力不會引起FGCS產生相對的滑移而導緻開裂.用于武漢長江隧道工程的FGCS的外弧麵裂縫寬度<0.1 mm,Cl~-擴散繫數為4.9×10~(-13) m~2/s.
인입제도공능설계사로,진행공능제도혼응토관편(functionally gradient concrete segment,간칭FGCS)적결구여재료설계.무세관계면과도구수니기재료(meso-interfacial transition zone-free cement-based materials,간칭MIF)중유우참입료능현저개선수축개렬추세적감축조분화세미화렬문적항렬조분,강저료MIF적수축치,제고료MIF적항렬능력,유리우제고MIF적항삼성능,진이가이제고FGCS적항삼성능.혼응토량차요주성형시,채용계면강화공예--압인공예,가이제고혼응토공능층지간계면점결강도10%~35%,산생계면강화효응.채용ANSYS계산적FGCS중계면최대랍응력적계산치원소우계면벽렬항랍강도시험측시치,FGCS중계면유우수축인기적응력불회인기FGCS산생상대적활이이도치개렬.용우무한장강수도공정적FGCS적외호면렬봉관도<0.1 mm,Cl~-확산계수위4.9×10~(-13) m~2/s.
Gradient function design thought is introduced in structure and material design of functionally gradient concrete segment(FGCS). Owing to blending a shrinkage reducing ingredient that can decrease shrinkage,and an anti-cracking ingredient that can fine cracks in meso-interfacial transition zone-free cement-based materials(MIF),the shrinkage of MIF is decreased,and the ability to anti-cracking is improved. Because of the above mentioned cause,the impermeability of MIF and FGCS can be improved. When the concrete is cast twice,interface bond strength between two functional layers is increased by 10% to 35% by means of imprinting process as compared to the control without imprinting process. Imprinting process can result in the effect of interface strengthening. The maximum interface tensile stress due to shrinkage in interface is calculated by ANSYS software (finite element analysis tool),whose value is less than the test value of interface splitting tensile strength. Interface tensile stress due to shrinkage in interface doesn' t result in cracking of FGCS,and the sliding deformation of interface layers would not generate. FGCS has been used in Wuhan Yangtze River Tunnel Engineering,whose width of crack is less than 0.1 mm on the outside arc surface,and whose chloride diffusion coefficient is 4.9×10~(-13) m~2/s.