位錯對Ti-6Al-4V合金α相形核及微織構形成的影響
發布人:上海艾荔艾合金股份有限公司www.shailiai.cn
更新時間:2016-03-25
借助 Willis-Steeds-Lothe 方法計算了單根長直刃型與螺型位錯應力場, 并采用相場動力學方法模擬了含位錯 Ti-6Al-4V 合金中 β→α 轉變過程, 探索長直位錯應力場下共格 α 相的形核及對微織構形成的影響.
位錯對Ti-6Al-4V合金α相形核及微織構形成的影響INFLUENCES OF DISLOCATIONS ON NUCLEATION AND?MICRO-TEXTURE FORMATION OF α PHASE IN Ti-6Al-4V ALLOY借助 Willis-Steeds-Lothe 方法計算了單根長直刃型與螺型位錯應力場, 并采用相場動力學方法模擬了含位錯 Ti-6Al-4V 合金中 β→α 轉變過程, 探索長直位錯應力場下共格 α 相的形核及對微織構形成的影響.研究表明, 刃型位錯應力場與擇優 α 變體間相互作用能中, 正應力分量 S33起主要作用; 螺型位錯時切應力分量 S23作用最大.刃型位錯應力場對 α 變體選擇的作用要強于螺型位錯.刃型位錯下擇優變體以 V1 與 V7 為主, 螺型位錯時以變體 V7, V10 及 V12 為主, 且 V1/V7, V1/V4/V6 是刃型位錯下主要出現的變體組合類型, 而螺型位錯時則以 V7/V10/V12 組合為主.含位錯體系的微觀組織由位錯應力場與 α 變體之間相互作用能, 以及 α 變體之間彈性相互作用能共同決定.位錯周圍的應力場可導致界面能較高的界面類型出現.?
Titanium alloys are widely applied in aerospace, chemical and other related industries.?The α+β alloys may obtain various microstructures and mechanical properties simply by varying?their thermomechanical processing. Ti-6Al-4V alloy is the most common α+β titanium alloy. Its?strength, ductility, fracture toughness and fatigue properties depend strongly on the microstructure?especially texture. The understanding of the formation mechanisms of α micro-texture during?processing is necessary for the optimization of the mechanical properties. In this work, the?nucleation of α precipitates and micro-texture formation process under the influence of dislocations?during the β→α transformation in Ti-6Al-4V alloy was simulated by phase field method. The stress?field of an infinite straight dislocation was calculated by Willis-Steeds-Lothe method and used as?input of the phase field model. It was shown that?the normal stress component S33 plays a?dominant role in α variants nucleation in the?presence of edge dislocation, while the shear?stress component S23 is the most important one?for screw dislocation. The effect of edge?dislocation on α variant selection is generally?stronger than that of screw. V1 and V7 are the main variants selected by the edge dislocation while?V7, V10 and V12 dominate around the screw dislocation, with V1/V7, V1/V4/V6 being the main?variant cluster types around the edge dislocation, and V7/V10/V12 being the primary one for the?screw dislocation. In a system with the presence of dislocations in the parent phase, the precipitate?microstructure is determined by the combined effect of elastic interactions between the dislocation?and different variants of a low symmetry precipitate phase, and elastic interactions among different?variants. Variants with interfaces of relatively high energy may appear because of variants selection?by dislocations.?
作為值得信賴的合作伙伴和高品質金屬合金的半成品供應商,艾荔艾擁有完善的服務體系和專業的團隊。在同客戶交易的過程中,我們力求根據不同的應用需求將我們的產品做到精益求精。針對當前和未來的市場需求,艾荔艾致力于為客戶提供最佳的金屬材料解決方案。
AILIAI has been a reliable partner and supplier of sophisticated and high-quality semi-finished products maed of alloys. In dialogue with our customers, we optimise our products to meet the specific application requirements. AILIAI develops the best alloy material solutions for current and future challenges.
獲取更多我們供應的合金和服務信息,請致電086-021-67660801或發電子郵件kefu@ailiaigroup.com聯系我們,您也可以通過微博,微信,領英,XING,臉書和推特與我們互動。
For more information on the alloys and services that we supply,?call us?at 086-021-67660801 or email us at kefu@ailiaigroup.com. You can also get in touch on social media, we are constantly active on?Weibo,?Weixin,?LinkedIn,?XING, Facebook?and?Twitter.