摘要
研究显微组织参数对片状组织TC21钛合金断裂韧性的影响。通过三重热处理获得片状组织,并采用OM和SEM方法对显微组织进行表征。单相区的冷却速率和两相区的固溶温度决定α片的尺寸及含量,而时效温度则主要控制次生α片的析出行为。α片含量、厚度以及次生α片厚度是影响TC21钛合金断裂韧性的重要组织参数。提高α片含量、增加α片(或次生α片)厚度均能提高TC21钛合金的断裂韧性。基于α片裂纹尖端塑性区能量消耗,提出钛合金韧化机制。
The independent influence of microstructural features on fracture toughness of TC21alloy with lamellar microstructure was investigated.Triple heat treatments were designed to obtain lamellar microstructures with different parameters,which were characterized by OM and SEM.The size and content ofαplates were mainly determined by cooling rate from singleβphase field and solution temperature in two-phase field;while the precipitation behavior of secondaryαplatelets was dominantly controlled by aging temperature in two-phase field.The content and thickness ofαplates and the thickness of secondaryαplatelets were important microstructural features influencing the fracture toughness.Both increasing the content ofαplates and thickeningαplates(or secondaryαplatelets)could enhance the fracture toughness of TC21alloy.Based on energy consumption by the plastic zone of crack tip inαplates,a toughening mechanism for titanium alloys was proposed.
作者
石志峰
郭鸿镇
张建伟
尹建宁
Zhi-feng SHI;Hong-zhen GUO;Jian-wei ZHANG;Jian-ning YIN(High Temperature Material Research Division,Central Iron & Steel Research Institute,Beijing 100081,China;School of Materials Science and Engineering,Northwestern Polytechnical University,Xi'an 710072,China;Department of Strategic Development,China Iron & Steel Research Institute Group,Beijing 100081,China)
关键词
钛合金
片状显微组织
断裂韧性
裂纹尖端塑性区
韧化机制
titanium alloy
lamellar microstructure
fracture toughness
crack tip plastic zone
toughening mechanism
