功能材料
功能材料
공능재료
Journal of Functional Materials
2015年
17期
17038-17041,17045
,共5页
氯氧镁水泥%耐水性能%复合改性%抗压强度%软化系数
氯氧鎂水泥%耐水性能%複閤改性%抗壓彊度%軟化繫數
록양미수니%내수성능%복합개성%항압강도%연화계수
MOC%water resistance%compound modification%compressive strength%softening coefficient
在磷酸、粉煤灰、硬脂酸钙单一改性研究的基础上,采取磷酸、粉煤灰、硬脂酸钙和磷酸、粉煤灰、苯丙乳液两种复合体系分别对氯氧镁水泥进行复合改性。结果表明,同时掺入1%磷酸、20%粉煤灰和1%硬脂钙或1%苯丙乳液均可有效提高5?1?8主晶相在水中的稳定性,提高材料的密实度和耐水性能,其中以磷酸、粉煤灰及苯丙乳液三者复合改性效果最佳;最优改性试样的3及7d强度分别高达634.,751.MPa,软化系数高达0.9,浸水7 d,泡水强度保持在681. M Pa ,较空白样提升了60.2%,复合改性效果显著。
在燐痠、粉煤灰、硬脂痠鈣單一改性研究的基礎上,採取燐痠、粉煤灰、硬脂痠鈣和燐痠、粉煤灰、苯丙乳液兩種複閤體繫分彆對氯氧鎂水泥進行複閤改性。結果錶明,同時摻入1%燐痠、20%粉煤灰和1%硬脂鈣或1%苯丙乳液均可有效提高5?1?8主晶相在水中的穩定性,提高材料的密實度和耐水性能,其中以燐痠、粉煤灰及苯丙乳液三者複閤改性效果最佳;最優改性試樣的3及7d彊度分彆高達634.,751.MPa,軟化繫數高達0.9,浸水7 d,泡水彊度保持在681. M Pa ,較空白樣提升瞭60.2%,複閤改性效果顯著。
재린산、분매회、경지산개단일개성연구적기출상,채취린산、분매회、경지산개화린산、분매회、분병유액량충복합체계분별대록양미수니진행복합개성。결과표명,동시참입1%린산、20%분매회화1%경지개혹1%분병유액균가유효제고5?1?8주정상재수중적은정성,제고재료적밀실도화내수성능,기중이린산、분매회급분병유액삼자복합개성효과최가;최우개성시양적3급7d강도분별고체634.,751.MPa,연화계수고체0.9,침수7 d,포수강도보지재681. M Pa ,교공백양제승료60.2%,복합개성효과현저。
On the basis of the research on the modification on magnesium oxychloride cement (MOC) with phos‐phoric acid ,fly ash and calcium stearate respectively ,then phosphoric acid ,fly ash and calcium stearate or phosphoric acid ,fly ash and styrene‐acrylic emulsion were adopted to improve the water resistance of MOC . The results show that ,while adding 1wt% phosphoric acid ,20wt% fly ash and 1wt% calcium stearate or 1wt% styrene‐acrylic emulsion to the cement ,the stability of 5 ?1?8 main phase in water ,the density and water resistance of the cement were improved effectively ,among them ,phosphoric acid ,fly ash and styrene‐acrylic emulsion as compound modifiers are the best .Compressive strength of optimal modified specimen cured 3 and 7 d could reach 63 4. ,75 1. MPa respectively .softening coefficient were up to 0 9. ,when soaked in water 7 d ,compressive strength still can maintain 68 1. MPa ,improving 60 2.% compared with the blank .Compound modification effect is remarkable .