当代化工
噹代化工
당대화공
Contemporary Chemical Industry
2015年
11期
2581-2584
,共4页
齐召庆%徐哲%孙运亮%丁建华%张时豪%姜自超
齊召慶%徐哲%孫運亮%丁建華%張時豪%薑自超
제소경%서철%손운량%정건화%장시호%강자초
磷酸镁水泥%硼砂%水胶比%MgO 比表面积
燐痠鎂水泥%硼砂%水膠比%MgO 比錶麵積
린산미수니%붕사%수효비%MgO 비표면적
Magnesium phosphate cement%Borax%Water-binder ratio%MgO specific surface are
研究了 M/P 比值(MgO 与 K2HPO4的质量比),水胶比(W/C),硼砂掺量,MgO 比表面积对磷酸镁水泥早期强度的影响,采用扫描电子显微镜对磷酸镁水泥的微观形貌进行了表征。结果表明:磷酸镁水泥1 h的抗压强度随 M/P 比值的增大而减小,在水化龄期为3 d 和7 d 时,M/P 比值为4:1时磷酸镁水泥石的强度最高,最高强度达到了74.68 MPa,水胶比对磷酸镁水泥石早期强度影响不大,7 d 强度随着水胶比的增大而减小,磷酸镁水泥在水化早期随着硼砂掺量的增加,水化产物晶体变得细小,晶体缺陷增多,结构疏松,其强度随着硼砂掺量增加而降低,后期水化产物连接成一体,结构致密,7 d 的强度几乎没有变化。水化龄期在7 d 内,磷酸镁水泥石的强度随 MgO 比表面积的增大而增大。
研究瞭 M/P 比值(MgO 與 K2HPO4的質量比),水膠比(W/C),硼砂摻量,MgO 比錶麵積對燐痠鎂水泥早期彊度的影響,採用掃描電子顯微鏡對燐痠鎂水泥的微觀形貌進行瞭錶徵。結果錶明:燐痠鎂水泥1 h的抗壓彊度隨 M/P 比值的增大而減小,在水化齡期為3 d 和7 d 時,M/P 比值為4:1時燐痠鎂水泥石的彊度最高,最高彊度達到瞭74.68 MPa,水膠比對燐痠鎂水泥石早期彊度影響不大,7 d 彊度隨著水膠比的增大而減小,燐痠鎂水泥在水化早期隨著硼砂摻量的增加,水化產物晶體變得細小,晶體缺陷增多,結構疏鬆,其彊度隨著硼砂摻量增加而降低,後期水化產物連接成一體,結構緻密,7 d 的彊度幾乎沒有變化。水化齡期在7 d 內,燐痠鎂水泥石的彊度隨 MgO 比錶麵積的增大而增大。
연구료 M/P 비치(MgO 여 K2HPO4적질량비),수효비(W/C),붕사참량,MgO 비표면적대린산미수니조기강도적영향,채용소묘전자현미경대린산미수니적미관형모진행료표정。결과표명:린산미수니1 h적항압강도수 M/P 비치적증대이감소,재수화령기위3 d 화7 d 시,M/P 비치위4:1시린산미수니석적강도최고,최고강도체도료74.68 MPa,수효비대린산미수니석조기강도영향불대,7 d 강도수착수효비적증대이감소,린산미수니재수화조기수착붕사참량적증가,수화산물정체변득세소,정체결함증다,결구소송,기강도수착붕사참량증가이강저,후기수화산물련접성일체,결구치밀,7 d 적강도궤호몰유변화。수화령기재7 d 내,린산미수니석적강도수 MgO 비표면적적증대이증대。
The influence of M/P ratio (mass ratio of MgO and K2HPO4), water/cement ratio (W/C), borax content, MgO specific surface area on the early strength of magnesium phosphate cement was studied. And microstructure of magnesium phosphate cement was analyzed by using scanning electron microscope (SEM). The results show that the compressive strength of magnesium phosphate cement at the age of 1h decreases with the increase of M/P ratio, when hydration age is 3 d and 7 d, M/P ratio is 4:1,magnesium phosphate cement stone has the highest strength, the highest intensity can reach to 74.68 MPa; water-binder ratio has little effect on early strength of magnesium phosphate cement;when hydration age is 7 d, the strength decreases with the increase of water-binder ratio; in the early hydration, with the increasing of borax content, crystal of magnesium phosphate cement hydration products becomes small, the structure becomes loose, the crystal defect increases, so its strength decreases; in the later hydration, the structure becomes compact, the strength after 7 d has little change. Within 7 d, the strength of the magnesium phosphate cement increases with increasing of MgO specific surface area.