低热硅酸盐水泥混凝土疲劳性能研究

为研究胶凝材料的差异对混凝土疲劳特性的影响，采用4点加载的弯曲疲劳实验方法，对比研究了不同应力水平下低热硅酸盐水泥和同强度等级的普通硅酸盐水泥配制混凝土的弯曲疲劳特性，利用DTA-TG、SEM和MIP探讨了两种不同水泥配制混凝土的微观组成结构差异及其对疲劳特性的影响. 实验结果表明:28、90 d和180 d标准养护条件下的低热水泥混凝土在应力水平为0.75～0.90时的弯曲疲劳寿命均高于普通硅酸盐水泥混凝土；3.49 MPa应力荷载下，养护龄期由28 d延长至180 d，两种混凝土的弯曲疲劳寿命分别提高了230 452及8 168倍，90 d与180 d养护龄期的低热硅酸盐水泥混凝土的疲劳寿命分别是普通硅酸盐水泥混凝土的4.76倍及19.88倍，养护龄期越长，低热水泥混凝土抗疲劳性能的优势越显著；低热水泥混凝土水化产物中C-S-H凝胶多，Ca（OH）₂含量少，加载后最可几孔径与大孔含量的增幅较低（<10%），致使其在疲劳荷载作用下裂缝源生成的可能性减少，裂缝扩展能力降低，抗疲劳能力增强. 

Flexural Fatigue Performance of Concrete Prepared with Low-Heat Portland Cement

To investigate the influence of cementing materials on the fatigue performance of concretes, the flexural fatigue performance of concretes prepared with low-heat Portland cement and ordinary Portland cement at different stresses was studied by a four-point bending fatigue test method. Additionally, the relationship between microstructure and fatigue performance was studied by using DTA-TG, SEM, and MIP methods. It was observed that in comparison to the ordinary Portland cement, the low-heat Portland cement is favourable for the improvement of the fatigue life of the concrete under the same stress lever (0.75–0.90). As the curing age was extended from 28 days to 180 days, the flexural fatigue life of both the kinds of concrete with a loading of 3.49 MPa was increased by 230 452 times in low-heat Portland cement concrete and 8 168 times in case of ordinary Portland cement concrete. The fatigue life of low-heat Portland cement concrete on the 90th day and 180th day was 4.76 and 19.88 times higher than that of ordinary Portland cement concrete, respectively. The longer the curing age the better the anti-fatigue performance of low-heat cement concretes. The microstructure study indicated that low-heat Portland cement concrete consisted more C-S-H gel and less Ca（OH）₂. Furthermore, low-heat Portland cement concrete had lower increase (less than 10%) on the most probable pore size; and the proportion of large pores after fatigue loading reduced the crack propagation and enhanced the anti-fatigue performance.