硅酸盐通报
硅痠鹽通報
규산염통보
BULLETIN OF THE CHINESE CERAMIC SOCIETY
2010年
1期
147-152
,共6页
袁誉飞%林东%西晓林%殷素红%文梓芸
袁譽飛%林東%西曉林%慇素紅%文梓蕓
원예비%림동%서효림%은소홍%문재예
活性粉末混凝土%聚合物改性%耐水性%耐酸性%耐硫酸盐
活性粉末混凝土%聚閤物改性%耐水性%耐痠性%耐硫痠鹽
활성분말혼응토%취합물개성%내수성%내산성%내류산염
reactive powder concrete(RPC)%polymer modified%water resistance%acid resistance%sulfate resistance
在简单的工艺条件下,用少量聚合物对活性粉末混凝土进行改性,将改性后和未改性的活性粉末混凝土进行浸水和浸泡盐酸和硫酸盐溶液的试验,测定其抗折和抗压强度的损失率.结果表明,RPC材料虽然强度也可以较高,但耐水性比不上普通水泥砂浆;经过聚合物改性的RPC,可以明显改善其耐水性能;在耐酸腐蚀方面,经与未经聚合物改性的RPC材料都比普通水泥砂浆优良,聚合物改性的RPC材料更为优异,其90 d泡盐酸的强度损失率仅为8%左右;对于10%Na_2SO_4溶液浸泡的RPC及聚合物改性的RPC材料,其抗折强度先升高后降低,聚合物改性RPC材料的耐硫酸盐腐蚀能力得到改善.最后本文用扫描电镜和能谱图对材料的微观结构进行了研究,以解释其抗侵蚀机理.
在簡單的工藝條件下,用少量聚閤物對活性粉末混凝土進行改性,將改性後和未改性的活性粉末混凝土進行浸水和浸泡鹽痠和硫痠鹽溶液的試驗,測定其抗摺和抗壓彊度的損失率.結果錶明,RPC材料雖然彊度也可以較高,但耐水性比不上普通水泥砂漿;經過聚閤物改性的RPC,可以明顯改善其耐水性能;在耐痠腐蝕方麵,經與未經聚閤物改性的RPC材料都比普通水泥砂漿優良,聚閤物改性的RPC材料更為優異,其90 d泡鹽痠的彊度損失率僅為8%左右;對于10%Na_2SO_4溶液浸泡的RPC及聚閤物改性的RPC材料,其抗摺彊度先升高後降低,聚閤物改性RPC材料的耐硫痠鹽腐蝕能力得到改善.最後本文用掃描電鏡和能譜圖對材料的微觀結構進行瞭研究,以解釋其抗侵蝕機理.
재간단적공예조건하,용소량취합물대활성분말혼응토진행개성,장개성후화미개성적활성분말혼응토진행침수화침포염산화류산염용액적시험,측정기항절화항압강도적손실솔.결과표명,RPC재료수연강도야가이교고,단내수성비불상보통수니사장;경과취합물개성적RPC,가이명현개선기내수성능;재내산부식방면,경여미경취합물개성적RPC재료도비보통수니사장우량,취합물개성적RPC재료경위우이,기90 d포염산적강도손실솔부위8%좌우;대우10%Na_2SO_4용액침포적RPC급취합물개성적RPC재료,기항절강도선승고후강저,취합물개성RPC재료적내류산염부식능력득도개선.최후본문용소묘전경화능보도대재료적미관결구진행료연구,이해석기항침식궤리.
Using small amount of polymer and ordinary processing condition to modify reactive powder concrete (RPC),the modified and unmodified RPC have been compared for their corrosion resistance with the tests of water-dip-in, acid-dip-in and sulphate solution-dip-in and verified by the ruptural and compressive strength loss rate. The results showed that although the strength of RPC is so high, its the water-resistant is not better than OPC mortar; but after polymer modification, the water resistance of RPC could significantly improve. In the anti-acid corrosion aspect, RPC and the polymer modification RPC are all much better than OPC mortar,while the polymer modified RPC is even better than RPC and its strength loss rate is only about 8% when dipped in hydrochloric acid for 90 d. When soaked in 10% Na_2SO_4 solution, the flexural strength of RPC and polymer modified-RPC both appear first increase and then decrease, but polymer modified-RPC has a better sulfate corrosion-resistance. To explain the materials erosion mechanism, the microstructure of materials has been studied with SEM and EDS analysis.