延边大学学报:自然科学版
延邊大學學報:自然科學版
연변대학학보:자연과학판
Journal of Yanbian University:Natural Science
2012年
2期
163-167
,共5页
张海龙%王晓博%左展毓%方永青%裴长春
張海龍%王曉博%左展毓%方永青%裴長春
장해룡%왕효박%좌전육%방영청%배장춘
无水泥混凝土%粉煤灰%高炉矿渣%激发剂
無水泥混凝土%粉煤灰%高爐礦渣%激髮劑
무수니혼응토%분매회%고로광사%격발제
no cement concrete%fly ash%blast furnace slag%activator
以粉煤灰、矿渣等工业废料作为胶凝材料,研究了其不同配合比对无水泥砂浆力学性能的影响.试验结果表明:①随粉煤灰掺和率的增加砂浆的流动性呈逐步上升趋势,当粉煤灰掺和率为70%时,流动性达到普通硅酸盐水泥砂浆(OPC)的水平;②砂浆的表观密度均明显高于OPC,但随着粉煤灰掺和率的增加呈逐步下降的趋势;③随着粉煤灰掺和率的逐步增加,砂浆的强度总体呈下降趋势,掺和率为20%时强度值最大,为OPC的90%,但随龄期的增长强度总体有了稳步提高;④在本试验中,当胶凝体中同时掺和20%的粉煤灰和80%的矿渣时为最佳组合.
以粉煤灰、礦渣等工業廢料作為膠凝材料,研究瞭其不同配閤比對無水泥砂漿力學性能的影響.試驗結果錶明:①隨粉煤灰摻和率的增加砂漿的流動性呈逐步上升趨勢,噹粉煤灰摻和率為70%時,流動性達到普通硅痠鹽水泥砂漿(OPC)的水平;②砂漿的錶觀密度均明顯高于OPC,但隨著粉煤灰摻和率的增加呈逐步下降的趨勢;③隨著粉煤灰摻和率的逐步增加,砂漿的彊度總體呈下降趨勢,摻和率為20%時彊度值最大,為OPC的90%,但隨齡期的增長彊度總體有瞭穩步提高;④在本試驗中,噹膠凝體中同時摻和20%的粉煤灰和80%的礦渣時為最佳組閤.
이분매회、광사등공업폐료작위효응재료,연구료기불동배합비대무수니사장역학성능적영향.시험결과표명:①수분매회참화솔적증가사장적류동성정축보상승추세,당분매회참화솔위70%시,류동성체도보통규산염수니사장(OPC)적수평;②사장적표관밀도균명현고우OPC,단수착분매회참화솔적증가정축보하강적추세;③수착분매회참화솔적축보증가,사장적강도총체정하강추세,참화솔위20%시강도치최대,위OPC적90%,단수령기적증장강도총체유료은보제고;④재본시험중,당효응체중동시참화20%적분매회화80%적광사시위최가조합.
We use the fly ash, slag and industrial wastes as cementing material to analyze the mechanical prop erty that its mix proportion to the mortar. The results show that: (1) liquidity goes upward with the admixture rate of fly ash increase. When the admixture rate of fly ash is 70%, the liquidity can reach the same level as OPC or more. (2) The unit density of no cement mortars is significantly higher than OPC, and the unit density goes downward with the admixture rate of fly ash increase. (3) It reaches the maximum when the admixture rate of fly ash in cementing material is 200/00, that is 90% of OPC; but the overall intensity shows descending tendency with the admixture rate of fly ash increase; and also has a stable improvement with the intensity of age increase. (4) In this study, when 20% of the fly ash and 80% of slag are admixtured in cementing form, then it is the best combination.
