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自散热型沥青路面材料与结构研究 被引量:3
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作者 王知乐 《公路工程》 北大核心 2019年第4期189-194,共6页
采用具有较高红外发射率的红外降温粉体制备自散热型沥青封层材料和自散热型沥青混合料,并设计出普通沥青路面加铺自散热型沥青封层结构、单层自散热型沥青路面结构和双层自散热型沥青路面结构等三种自散热型沥青路面结构形式。通过与... 采用具有较高红外发射率的红外降温粉体制备自散热型沥青封层材料和自散热型沥青混合料,并设计出普通沥青路面加铺自散热型沥青封层结构、单层自散热型沥青路面结构和双层自散热型沥青路面结构等三种自散热型沥青路面结构形式。通过与普通密级配沥青路面结构的对比试验,研究了三种自散热型沥青路面的自散热性能和路用性能。研究结果显示:三种自散热型沥青路面均具有良好的自散热效果和路用性能,其中双层自散热型沥青路面结构的自散热性能最佳、自散热耐久性较好,其为最佳的自散热型沥青路面结构。 展开更多
关键词 红外降温粉体 自散热型沥青路面结构 自散热性能 路用性能
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Effect of heating time on bonding interface, atom diffusion and mechanical properties of dissimilar titanium joints produced by thermal self-compressing bonding 被引量:7
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作者 Yun-hua DENG Qiao GUAN Jun TAO 《Transactions of Nonferrous Metals Society of China》 SCIE EI CAS CSCD 2018年第4期662-668,共7页
Solid-state bonding between pure titanium and Ti6Al4V(TC4)alloy was conducted by a new bonding method named as rigid restraint thermal self-compressing bonding.Effects of heating time on bonding interface,atom diffusi... Solid-state bonding between pure titanium and Ti6Al4V(TC4)alloy was conducted by a new bonding method named as rigid restraint thermal self-compressing bonding.Effects of heating time on bonding interface,atom diffusion and mechanical properties of the joints were studied.Results show that atom diffusion between pure titanium and TC4 alloy significantly takes place during bonding.The diffusion depths of Al and V in pure titanium side are increased with increasing heating time.Due to the enhancement of atom diffusion,bond quality of the bonding interface is improved along with the increase of heating time.The heating time seems to have little effect on microhardness distribution across the joint.However,the tensile strength and ductility of the joint have close relation to heating time.Prolonging heating time can improve the tensile strength and ductility of the joint,especially the latter.When the heating time increases to 450 s,solid-state joint with good combination of strength and ductility is attained. 展开更多
关键词 dissimilar titanium alloys joining rigid restraint thermal self-compressing bonding atom diffusion mechanical properties
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