火灾后铝合金的残余本构行为

P. Summers, B. Lattimer, S. Case
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引用次数: 1

摘要

铝合金越来越多地用于轻型运输应用,如海军舰艇和轻型客运铁路。考虑的铝合金包括5xxx系列(Al-Mg)和6xxx系列(Al-Mg- si)合金,因为它们的机械强度、耐腐蚀性和可焊性。在轻型结构应用中使用铝合金的一个主要问题是火灾暴露。铝的机械性能在300°C时显著降低。火灾发生后,结构损伤会随着局部热历史的变化而变化,而局部热历史受火灾规模和邻近程度等环境因素的影响。最重要的是要了解这种结构损伤的性质在残余(火灾后)本构行为,以便允许知情的损害评估。采用准静态拉伸试验对AA5083-H116和AA6061-T651的残余本构行为进行了表征。这些合金在受控的加热速率下暴露在高温下,使用感应加热器来模拟火灾环境中的不同条件。从微观组织强化机理的角度阐述了残余本构行为的热历史依赖性。高温下,AA5083和AA6061的主要强化机制分别是再结晶和析出相粗化。强化机制演化已被证明是动力学依赖的,这解释了残余本构行为的热历史依赖。各种火灾情景下的结构损伤可以通过这些控制残余本构行为的潜在强化机制来理解。
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Residual Constitutive Behavior of Aluminum Alloys after Fire Exposure
Aluminum alloys are increasingly being used in lightweight transportation applications such as naval vessels and light passenger rail. The aluminum alloys considered include 5xxx-series (Al-Mg) and 6xxxseries (Al-Mg-Si) alloys due to their mechanical strength, corrosion resistance, and weldability. A major concern in the use of aluminum alloys in lightweight structural applications is fire exposure. Aluminum mechanical properties are significantly reduced at 300°C. After fire exposure, structural damage will vary due to the local thermal history which is governed by the fire size and proximity and other environmental factors. It is paramount to understand the nature of this structural damage in terms of residual (post-fire) constitutive behavior so as to allow for informed damage assessment. AA5083-H116 and AA6061-T651 residual constitutive behavior was characterized using quasi-static tension tests. The alloys were exposed to elevated temperatures at controlled heating rates using an induction heater to simulate the varying conditions in a fire environment. The thermal history dependence of residual constitutive behavior was elucidated in terms of the microstructural strengthening mechanisms. The primary strengthening mechanisms of AA5083 and AA6061 evolve at elevated temperatures due to recrystallization and precipitate coarsening, respectively. Strengthening mechanism evolution has been shown to be kinetically dependent which explains the thermal history dependence of residual constitutive behavior. Structural damage from a wide range of fire scenarios may be understood using these underlying strengthening mechanisms which govern residual constitutive behavior.
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