Laboratory performance of stone matrix asphalt mixtures with two aggregate gradations

Stone matrix asphalt （SMA） is a gap-graded bituminous mixture which can be used in surface layer of high volume pavements. The mixture has higher concen- trations of coarse aggregates, providing strength and rut resistance to the mixture, and higher asphalt content giving durability. There must be a proper stone-to-stone contact between the coarse aggregates of SMA, and hence aggre- gate gradation is an important factor in this mixture. In the current study, two aggregate gradations, with nominal maximum aggregate sizes （NMAS） 16 and 13 mm were adopted to prepare SMA mixtures and their laboratory performances were compared. Polymer-modified bitumen （PMB） was used as the binder material and no stabilising additive was used, since drain down was within permissible limits for both mixtures with PMB. Conventional cylin- drical specimens were prepared in superpave gyratory compactor with bitumen contents 5.0 %, 5.5 %, 6.0 %, 6.5 % and 7.0 % by weight of aggregates, and volumetric and Marshall properties were determined. Tensile strength, behaviour to repeated loading etc. were checked for cylindrical specimens prepared at optimum bitumen con- tent, whereas specially prepared slab specimens were used to check the rutting resistance of SMA mixtures. From the laboratory study, it was observed that, out of the two SMA mixtures, the one with NMAS 16 mm performed better compared to the other. These improved properties may be attributed towards the larger coarse aggregate sizes in the mixture.

Degradation behavior of aggregate skeleton in stone matrix asphalt mixture

The degradation behavior of aggregate skeleton in stone matrix asphalt mixture was investigated based on theoretical analysis, laboratory test and field materials evaluation. A stress-transfer model was established to provide the fundamental understanding of the stress distribution and degradation mechanism of stone matrix asphalt (SMA) aggregate skeleton. Based on the theoretical analysis, crushing test and superpave gyratory compactor (SGC) test were used to evaluate the degradation behavior of aggregate skeleton of SMA. To verify the laboratory test results, gradation analysis was also conducted for the field materials extracted from SMA pavements after long-time service. The results indicate that the degradation of SMA aggregate skeleton is not random but has fixed internal trend and mechanism. Special rule is found for the graded fine aggregates generated from coarse aggregate breakdown and the variation of 4.75 mm aggregate is found to play a key role in the graded aggregates to form well-balanced skeleton to bear external loading. The variation of 4.75 mm aggregate together with the breakdown ratio of aggregate gradation can be used to characterize the degradation behavior of aggregate skeleton. The crushing test and SGC test are proved to be promising in estimating the degradation behavior of SMA skeleton.

Modified rubberized stone matrix asphalt for Nineveh roads

To evaluate the effects of Crumb Rubber Modifiers (CRMS) on basic engineering properties (i.e. Marshall, tensile strength, and compressive strength) of stone matrix asphalt mixtures, the ASTM testing and procedures were employed. Results of the evaluation were used to quantify the effect of CRM source and CRM content on engineering properties at testing temperatures of 25 ℃ and 60 ℃. Statistical models were developed, which represent the nature of effects on performance-related properties of stone matrix asphalt mixtures.

Characteristics of aggregate gradation, drain down and stabilizing agents in stone matrix asphalt mixtures: A state of art review

Over the years stone matrix asphalt(SMA)mixtures have evolved significantly and research works have presented some promising results.This made the paving industries to increase the usage of SMA mixtures in the pavement construction.However,SMA mixtures have certain challenges or setbacks,which require comprehensive understanding.The aim of the review paper is to present some of the challenges in SMA mixtures and their mitigations measures.It is observed that several challenges(i.e.,aggregate gradation,stone-onstone contact,drain down and stabilizing agents)related to SMA mixtures are addressed by the researchers.Many agencies have suggested their own aggregate gradation based on their experience,location,climatic conditions and available manufacturing facilities,and they are working exceptionally.Stone-on-stone contact is achieved with proper aggregate gradation and failure to meet the same will reduce the performance.Drain down is major concern in the SMA mixtures since it controls overall mixture performance.Therefore,researchers shown out the most importance to curtail the same.Several researchers followed ASTM D6390 and National Cooperative Highway Research Program(NCHRP No.424)procedure to evaluate the drain down and concluded that drain down should be less than0.3%(by weight of mixture).Apart from that,researchers are trying different stabilizing agents to reduce the drain down.Especially,stabilizing agents such as fibers and polymers have a positive impact.Recently,suitable waste and recycle products are used as stabilizing agent to reduce drain down and environmental pollution.Out of which coconut fiber has shown some promising results,however,comprehensive research is required in this regard.On the other hand,0.3%of cellulose fiber is working as a good stabilizing agent and can be used without conducting drain down test.The review paper provides a complete knowledge about different stabilizing agents used in SMA mixtures to minimize the drain down.

紫外老化对沥青化学组成与分子结构的影响

为研究紫外老化对沥青微观结构的影响,通过对4种沥青分别进行4组分、红外光谱和核磁共振等试验,研究紫外老化下沥青的4组分、特征峰、官能团等化学组成指标和氢谱图、碳谱图、氢原子含量、分子结构参数等分子结构指标的变化,并通过分子结构指标对化学组成指标的表征,分析分子结构变化对沥青化学组成变化的影响。结果表明:紫外老化后沥青更趋于形成沥青质分子,而沥青质的转化来源主要为芳香分,且含量越高老化后的损失率越高;同时羰基和亚砜基会随着老化的时间增加先快速增加之后趋于平缓,其中羰基指数可表征沥青老化的产生,而亚砜基指数可评价沥青抗老化的能力。紫外老化下沥青芳香环会发生缩合程度增大、环烷基取代基增加以及氢的取代、结构异化等反应;同时高紫外光子能量也会使脂肪碳发生断键,断键的脂肪碳连接到芳香环上提高了化学稳定性。由表征分析可见,沥青的化学组成主要受芳香结构、支化度和芳香环系缩合指数的影响较大。

轻度解交联橡胶粉干法改性SMA13性能研究

通过沥青混合料车辙试验、小梁弯曲试验、冻融劈裂及浸水马歇尔试验,研究了不同掺量轻度解交联橡胶粉(LDCR)对干法改性SMA13高温性能、低温性能与水稳定性的影响。结果表明,掺入LDCR提高了SMA13的高温性能,尤其当掺量≥2%时,混合料的动稳定度超过4.5%SBS改性SMA13(对照组);2%掺量的LDCR干法改性SMA13低温抗裂性最优;总体上LDCR干法改性SMA13的水稳定性低于对照组。综合考虑,LDCR的最佳掺量为2%,与对照组相比,可降低材料成本约5%。

多裂缝形式下沥青混合料梁裂缝扩展研究

采用接近实际路面受力形式的平面支撑方式,对从参考标准高速公路搅拌、摊铺、碾压方式形成的沥青混凝土路面切割下的沥青混合料梁试件,开展表面、底部裂缝共存形式下路面面层裂缝扩展模拟,以期研究沥青路面面层顶部、底部裂缝共存形式下的裂缝扩展行为;针对沥青混凝土路面为包含沥青基质、骨料、空隙等的多相复合材料特点,基于ABAQUS平台建立沥青混合料梁细观异质模型,探讨了该模型下裂缝偏离跨中不同距离下裂缝扩展行为。在此基础上,进一步对复合小梁均质、细观异质模型偏裂缝形式下裂缝扩展过程中应力分布进行了对比分析,得出两者应力状态存在明显的不同,均质模型应力分布总体较均匀、突变不明显;细观异质模型则刚好相反,应力分布极不均匀,骨料周边应力突变较明显。两种模型对比而言,细观异质模型能够更好地解释试验过程中梁裂缝扩展沿着骨料周边进行,并且试验过程中骨料周边出现多裂纹的现象。梁细观异质模型数值模拟为建立更准确的路面裂缝扩展模型提供了参考。

基质沥青对微表处性能的影响研究

为研究不同的基质沥青对微表处用改性乳化沥青以及微表处混合料性能的影响,文中选用4种不同品牌的70号沥青制备了SBR改性乳化沥青,并对改性乳化沥青以及其制备的微表处混合料的综合性能进行了对比分析。结果表明,基质沥青种类对改性乳化沥青以及微表处混合料的性能均有较大影响,但基质沥青的常规性能与乳化沥青的乳液稳定性以及残留物性能之间并无明显的相关关系;4种基质沥青中,微表处混合料拌和施工性能最好的为中海沥青,最差的为金陵沥青,而综合路用性能相对较好的为中海和壳牌沥青,相对较差的为金陵和镇海沥青,在实际施工过程中,改性乳化沥青采用的基质沥青经过配合比设计验证后,不应随意替换基质沥青的品牌及种类。

胶粉复合改性沥青的研制及工业化生产

以某公司加工的环烷基和中间基原油为原料,通过优化原油配比,采用常减压蒸馏工艺,通过控制减压蒸馏工艺条件,生产出符合技术标准要求且能够用于改性沥青的基质沥青原料。通过筛选与基质沥青配伍性好的胶粉、助剂添加比例及工艺条件优化,研制出符合技术规范要求的胶粉复合改性沥青并进行了工业试生产。对工业生产的产品检测及专业部门鉴定结果表明,胶粉复合改性沥青产品各项技术指标符合JT/T798-2019《路用废胎胶粉橡胶沥青》技术要求,成功实现了工业化生产和应用。

蓬莱气区超深层古岩溶储层参数校正与有效性评价方法

蓬莱含气区灯影组为四川盆地重要产能接替区,井深在6000~9000 m之间,属于超深层古岩溶缝洞性储层,储层储集空间类型多样,镜下见缝洞多被沥青、硅质等物质充填,受组构控制的粒间溶孔、粒内溶孔及不受组构控制的溶洞、溶缝、构造缝等发育,使得孔隙结构复杂,非均质性强,测井有效性识别存在较大难度。本文基于岩石物理实验对电阻率、声波时差、纵横波速度比等储层参数进行特殊矿物校正,通过刻度井对电成像拾取缝洞参数进行校正,最后基于测试资料,利用“一孔一包络一衰减一气测”构建了储层有效性综合评价指数,建立了储层有效性判别标准,有效储层判准率达95%以上,形成了超深层岩溶缝洞型储层有效性判别技术,可为该地区超深层测井解释提供技术保障。

LX-450温拌剂对短切玄武岩纤维SMA性能影响研究

为探讨温拌剂LX-450对短切玄武岩纤维沥青玛蹄脂碎石路用性能和成型温度的影响,以SMA-13级配类型为对象,通过马歇尔试验、浸水马歇尔试验、车辙试验,评价温拌剂LX-450对短切玄武岩纤维SMA-13水稳定性和高温稳定性的影响;通过对比不同成型温度下,混合料的体积指标,评价温拌剂对混合料成型温度的影响。研究表明:在添加0.8%的LX-450温拌剂后,短切玄武岩纤维沥青混合料SMA-13的水稳定性和高温稳定性均有降低,但仍满足现行规范要求;同时试件击实温度由原来的165℃降低至145℃,可明显降低混合料的成型温度。

SMA高温稳定性研究

为了研究沥青玛蹄脂碎石(SMA)高温稳定性的影响因素,以车辙试验结果为判据,对不同粗集料含量、粗集料级配、沥青种类、混合料密度、粉油比的SMA混合料进行了高温稳定性系统研究,对采用旋转试验机(GTM)优化设计的SMA的抗车辙性能作了全面对比,对AC和AK系列混合料也做了车辙性能对比。研究表明:粉油比、沥青性质对SMA抗车辙能力的影响比级配更显著;GTM设计的SMA较马歇尔方法具有更为优良的抗车辙性能;恰能形成骨架密实结构的SMA具有最优的高温稳定性;GTM设计的AK 16A较SMA更具优势。

基质沥青老化前后多尺度特性研究

分别采用元素分析法与凝胶渗透色谱探究老化对基质沥青元素组成以及相对分子质量变化的影响,并采用动态剪切流变试验研究了老化对基质沥青宏观黏弹特性的影响,同时通过统计分析研究了基质沥青微观特性与宏观性能之间的联系.结果表明:老化会导致基质沥青内部氧元素含量大幅增加,并促使芳碳率与缩合指数提高,同时老化会促进基质沥青相对分子质量分布整体往大分子方向移动,重均相对分子质量得到显著提高;基质沥青微观特性与宏观性能之间具有良好的相关性,表明沥青的宏观性能是其微观特性在宏观层面的体现,而微观特性对其宏观路用性能具有直接影响.

SMA粗集料结构的数值模拟

针对沥青玛蹄脂碎石混合料(SMA)特有的骨架结构特点,采用蒙特卡罗方法随机生成集料颗粒,并按相容条件进行混合料骨架集成。根据此原理,以VC++为平台,开发出离散球体堆积计算程序,并将该程序应用于SMA16骨架微观结构模拟分析,同时就骨架间隙率、配位数对结构边界约束条件及混合料级配的敏感性问题进行了讨论。结果表明:由计算机模拟的SMA骨架结构与实际情况接近,对集料配合比设计具有参考价值。

光热耦合条件下沥青宏观老化特征研究

通过对两种基质沥青及四种改性沥青的技术性能指标(针入度、黏度、软化点、车辙因子)进行室内试验,对比了不同光热耦合条件下沥青的宏观老化特征。研究表明:对于基质沥青而言,光照强度不变时,ZH沥青的抗热老化性能明显优于SK沥青;温度不变时,SK沥青的抗光老化性能则明显优于ZH沥青;对于改性沥青而言,线型改性沥青抗光热耦合老化能力整体上优于星型改性沥青;单因素和双因素变化时,各类沥青在以针入度比为指标表征其抗老化性能方面有较强的关联性,在以黏度比、软化点比及剪切流变系数为指标表征其抗老化性能方面关联性不大,推荐采用针入度比作为评价沥青的老化程度及抗老化性能;其中,双因素方差分析结果表明沥青光热耦合作用时温度比光照强度作用更加显著。

C9石油树脂改性沥青的研制

采用C9石油树脂对辽河AH-90#沥青进行改性,考察了C9石油树脂质量分数对改性沥青性能的影响,并利用扫描电镜对改性沥青结构进行了分析。实验结果表明,随着C9石油树脂质量分数的增加,改性沥青软化点逐渐增大,针入度逐渐下降,5℃延度先增大后下降。扫描电镜结果表明,当C9石油树脂质量分数为4%时,它与基质沥青的相容性较好,不会出现离析现象;当C9石油树脂质量分数为5%时,它与基质沥青发生离析。

盐冻循环条件下改性沥青微细观结构

利用扫描电子显微镜(SEM)和原子力显微镜(AFM)研究了内蒙古地区道路工程常用沥青(基质沥青、SBS改性沥青和胶粉改性沥青)盐冻循环前、后的细观结构变化,分析了改性剂与沥青的相互作用机理。结果表明,SEM和AFM可以相互补充,能更好地反映沥青在不同状态下细观结构的变化。在冻融循环后,各种沥青发生不同程度的水老化,特别是盐冻循环后基质沥青与SBS改性沥青中出现盐晶粒,沥青膜破坏明显;而胶粉改性沥青中胶粉颗粒抑制盐晶粒的生长,且胶粉颗粒本身具有弹性,低温性能虽有下降,但多次冻融循环后仍能保持较好的形态。

利用APA对改性沥青和SMA混合料疲劳试验的研究

应用有限元方法分析了APA (沥青路面分析仪 )疲劳试验模型 ,力学计算结果表明试件受力状态与实际路面接近 ,可以反映沥青混合料的实际路用性能。模拟实际施工过程制作了双层沥青混凝土试件 ,利用APA分别对采用改性和未改性的两种结合料的AC型、SMA型双层沥青混凝土试件的疲劳性能进行了对比试验分析 ,试验表明改性沥青和SMA不仅具有优良的高温和低温性能 ,而且具有优良的抗疲劳耐久性能 ,为沥青混合料生产设计中沥青、级配选择及优化设计提供了参考。

SMA抽提回收方法实验研究

文章总结了国内外提出的沥青混合料抽提及沥青回收方法,分析目前普遍使用的离心抽提试验及阿布森回收试验的不足。针对SMA混合料的特点,设计不同的对比试验,验证了SMA混合料抽提回收过程中,矿粉、三氯乙烯及纤维等关键因素的影响程度,并提出相应的解决方案与改进措施,以便准确评定SMA混合料的级配、油石比状况及混合料中的沥青性状;为进行正确的SMA配合比设计、分析SMA沥青路面的破坏原因及路用性能衰变规律以及SMA混合料的再生利用提供数据基础。

新型温拌沥青改性剂制备与性能研究

以苯乙烯-丁二烯-苯乙烯嵌段共聚物(SBS)、C9石油树脂、硫化剂为原料制备新型温拌沥青改性剂对基质沥青进行改性,测定改性沥青的针入度、软化点、延度来探讨不同组分配合比的新型温拌沥青改性剂对基质沥青性能的影响。结果表明:新型温拌沥青改性剂中SBS、C9石油树脂和硫化剂最佳配合比为5∶3∶6,改性剂的最佳掺量为6%(wt,质量分数),最适宜的拌合温度为150℃,制得的新型温拌沥青的针入度为62.9/0.1mm、软化点为56℃、延度为130mm,黏度为0.152Pa·s,改性效果最佳。