基于UFAC应力吸收层的抗反射裂缝性能评价
U414; 目的 为了解决"白加黑"技术中的反射裂缝问题,针对目前常用的悬浮密实型高弹改性沥青混合料(super flexible asphalt concrete,SFAC)应力吸收层变形量较大、容易造成上部沥青加铺层不利于受力的缺陷,方法 提出基于CAVF法和富沥青理念优化设计的骨架密实型UFAC应力吸收层.采用有限元ABAQUS数值模拟方法对"白加黑"路面结构进行受力分析,并通过加速加载试验、冲击韧性试验和劈裂试验对材料与结构的抗反射裂缝性能进行评价.结果 重载条件下,UFAC应力吸收层和高弹改性沥青应力吸收层的竖向位移相差 5.93×10-2 m...
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| Published in | 河南理工大学学报(自然科学版) Vol. 44; no. 1; pp. 185 - 192 |
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| Main Authors | , |
| Format | Journal Article |
| Language | Chinese |
| Published |
华南理工大学 土木与交通学院,广东 广州 510641
2025
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| Subjects | |
| Online Access | Get full text |
| ISSN | 1673-9787 |
| DOI | 10.16186/j.cnki.1673-9787.2023070045 |
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| Abstract | U414; 目的 为了解决"白加黑"技术中的反射裂缝问题,针对目前常用的悬浮密实型高弹改性沥青混合料(super flexible asphalt concrete,SFAC)应力吸收层变形量较大、容易造成上部沥青加铺层不利于受力的缺陷,方法 提出基于CAVF法和富沥青理念优化设计的骨架密实型UFAC应力吸收层.采用有限元ABAQUS数值模拟方法对"白加黑"路面结构进行受力分析,并通过加速加载试验、冲击韧性试验和劈裂试验对材料与结构的抗反射裂缝性能进行评价.结果 重载条件下,UFAC应力吸收层和高弹改性沥青应力吸收层的竖向位移相差 5.93×10-2 mm,沥青加铺层底部所受竖向压应力σy、最大主应力σmax、最大剪应力τ12 分别降低24%,32.3%,27.7%.当路面存在严重脱空或常规脱空情况时,基于UFAC应力吸收层的路面结构比GAC加铺路面结构的抗疲劳开裂性能分别提升48%,36%.与传统的悬浮型砂粒式AC-5应力吸收层相比,UFAC-5应力吸收层的冲击韧性增加60.8%,劈裂抗拉强度提高16.8%.结论 基于UFAC应力吸收层的沥青加铺技术,通过增大常规改性沥青膜厚保证必要的疲劳抗拉能力,并采用骨架密实型级配显著提高集料间的嵌挤能力和内摩阻力,减小层间结构变形,可有效减缓沥青加铺层反射裂缝的产生与发展. |
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| AbstractList | U414; 目的 为了解决"白加黑"技术中的反射裂缝问题,针对目前常用的悬浮密实型高弹改性沥青混合料(super flexible asphalt concrete,SFAC)应力吸收层变形量较大、容易造成上部沥青加铺层不利于受力的缺陷,方法 提出基于CAVF法和富沥青理念优化设计的骨架密实型UFAC应力吸收层.采用有限元ABAQUS数值模拟方法对"白加黑"路面结构进行受力分析,并通过加速加载试验、冲击韧性试验和劈裂试验对材料与结构的抗反射裂缝性能进行评价.结果 重载条件下,UFAC应力吸收层和高弹改性沥青应力吸收层的竖向位移相差 5.93×10-2 mm,沥青加铺层底部所受竖向压应力σy、最大主应力σmax、最大剪应力τ12 分别降低24%,32.3%,27.7%.当路面存在严重脱空或常规脱空情况时,基于UFAC应力吸收层的路面结构比GAC加铺路面结构的抗疲劳开裂性能分别提升48%,36%.与传统的悬浮型砂粒式AC-5应力吸收层相比,UFAC-5应力吸收层的冲击韧性增加60.8%,劈裂抗拉强度提高16.8%.结论 基于UFAC应力吸收层的沥青加铺技术,通过增大常规改性沥青膜厚保证必要的疲劳抗拉能力,并采用骨架密实型级配显著提高集料间的嵌挤能力和内摩阻力,减小层间结构变形,可有效减缓沥青加铺层反射裂缝的产生与发展. |
| Abstract_FL | Objectives To address the issue of reflective cracking in"white and black"pavement technol-ogy,this paper proposes an optimized design for a skeleton-dense UFAC stress-absorbing layer.This de-sign,based on the CAVF method and the concept of rich asphalt,aims to overcome the shortcomings of the commonly used dense-graded super flexible asphalt concrete(SFAC)stress-absorbing layer,which tends to exhibit significant deformation and adversely affect the overlaid asphalt layer.Methods The finite element method using ABAQUS was employed to conduct a stress analysis of the"white and black"pave-ment structure.Additionally,the reflective cracking resistance of the materials and structure was evaluated through accelerated loading tests,impact toughness tests,and splitting tests.Results Under heavy load con-ditions,the vertical displacement difference between the UFAC stress-absorbing layer and the SFAC stress-absorbing layer is 5.93×10-2 mm.Consequently,the vertical compressive stress(σy),maximum principal stress(σmax),and maximum shear stress(τ12)at the bottom of the asphalt overlay are reduced by 24%,32.3%,and 27.7%,respectively.In cases where the pavement has severe or typical voids,the fatigue crack resistance of the asphalt overlay structures based on the UFAC stress-absorbing layer is improved by 48%and 36%,respectively,compared to the GAC overlay pavement structures.Additionally,compared to the traditional dense-graded sand-asphalt AC-5 stress-absorbing layer,the skeleton-dense UFAC-5 stress-absorbing layer exhibits a 60.8%increase in impact toughness and a 16.8%improvement in splitting tensile strength.Conclusions The significant deformation characteristics of SFAC stress-absorbing layers can ad-versely affect the overlaid asphalt layer,leading to reflective cracking and premature pavement damage.The asphalt overlay technology based on the UFAC stress-absorbing layer addresses these issues by increasing the thickness of the conventional modified asphalt film to ensure the necessary fatigue tensile strength.Ad-ditionally,it employs a skeleton-dense gradation to significantly enhance the interlocking capacity and internal friction of the aggregate,reducing interlayer structural deformation.This effectively mitigates the occur-rence and progression of reflective cracks in the asphalt overlay. |
| Author | 李智 童竞 |
| AuthorAffiliation | 华南理工大学 土木与交通学院,广东 广州 510641 |
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| Author_FL | LI Zhi TONG Jing |
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| Keywords | 应力吸收层 薄层富沥青混合料 skeleton-dense 有限元数值模型 stress-absorbing layer 抗压变形 accelerated loading test ultra thin full-asphalt concrete 骨架密实型 fracture mechanical performance |
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| Snippet | U414; 目的 为了解决"白加黑"技术中的反射裂缝问题,针对目前常用的悬浮密实型高弹改性沥青混合料(super flexible asphalt concrete,SFAC)应力吸收层变形量较大、容易造成上... |
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| Title | 基于UFAC应力吸收层的抗反射裂缝性能评价 |
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