中山大学学报(自然科学版)
中山大學學報(自然科學版)
중산대학학보(자연과학판)
ACTA SCIENTIARUM NATURALIUM UNIVERSITATIS SUNYATSENI
2007年
z1期
169-170
,共2页
谢伟锋%李丽娟%刘锋%陈智泽%陈应钦
謝偉鋒%李麗娟%劉鋒%陳智澤%陳應欽
사위봉%리려연%류봉%진지택%진응흠
高强混凝土%橡胶粉%抗压强度%高温%爆裂
高彊混凝土%橡膠粉%抗壓彊度%高溫%爆裂
고강혼응토%상효분%항압강도%고온%폭렬
high strength concrete%rubber powder%compressive strength%fire test%spalling
通过实验研究橡胶改性高强混凝土高温处理前后的性能.橡胶粉来源于废旧橡胶轮胎,有40目(420 μm)、60目(250 μm)和80目(178 μm)三个不同粒径的精细橡胶粉,研究废旧橡胶粉对高强混凝土材料的抗压强度的影响.并对研配成功的试件进行了高温实验,利用外表面观察法、残余强度方法,对比研究了高强混凝土与橡胶粉改性高强混凝土高温作用后的性能变化.研究表明,常温下高强混凝土抗压强度随着橡胶粉掺量的增加而下降,当橡胶粉外掺量小于10.8 kg/m3时,其抗压强度损失低于10%;高温时低用量的40目橡胶粉能抑制高强混凝土的爆裂行为;高温作用后橡胶粉混凝土的强度有一定的增长.
通過實驗研究橡膠改性高彊混凝土高溫處理前後的性能.橡膠粉來源于廢舊橡膠輪胎,有40目(420 μm)、60目(250 μm)和80目(178 μm)三箇不同粒徑的精細橡膠粉,研究廢舊橡膠粉對高彊混凝土材料的抗壓彊度的影響.併對研配成功的試件進行瞭高溫實驗,利用外錶麵觀察法、殘餘彊度方法,對比研究瞭高彊混凝土與橡膠粉改性高彊混凝土高溫作用後的性能變化.研究錶明,常溫下高彊混凝土抗壓彊度隨著橡膠粉摻量的增加而下降,噹橡膠粉外摻量小于10.8 kg/m3時,其抗壓彊度損失低于10%;高溫時低用量的40目橡膠粉能抑製高彊混凝土的爆裂行為;高溫作用後橡膠粉混凝土的彊度有一定的增長.
통과실험연구상효개성고강혼응토고온처리전후적성능.상효분래원우폐구상효륜태,유40목(420 μm)、60목(250 μm)화80목(178 μm)삼개불동립경적정세상효분,연구폐구상효분대고강혼응토재료적항압강도적영향.병대연배성공적시건진행료고온실험,이용외표면관찰법、잔여강도방법,대비연구료고강혼응토여상효분개성고강혼응토고온작용후적성능변화.연구표명,상온하고강혼응토항압강도수착상효분참량적증가이하강,당상효분외참량소우10.8 kg/m3시,기항압강도손실저우10%;고온시저용량적40목상효분능억제고강혼응토적폭렬행위;고온작용후상효분혼응토적강도유일정적증장.
The characteristics of high strength concrete (HSC) modified with rubber powder was investigated by test method. The rubber powder which was produced from recycled waste tires has three types of granularity of 40 meshes (420 μm), 60 meshes (250 μm) and 80 meshes (178 μm), respectively. A series of mechanical, destructive and nondestructive tests were accomplished in order to obtain the optimum quality and the best granularity of waste rubber powder in the composition, taking into account the compressive strength of the material before and after fire test. The research results showed that a relatively low addition of rubber powder (10.8 kg/m3) would not reduce significantly the compressive strength at normal temperature, while the low dosage of 40 meshes rubber powder reduced the risk of explosive spalling of HSC at high temperature, and the residual compressive strength of HSC modified with rubber powder was slightly improved after fire test.
