基本信息
项目批准号：51604015
申请代码：E0414
项目名称：脉冲電(diàn)流辅助钛合金静轴肩搅拌摩擦焊接头的织构控制研究
项目负责人：蒋晓青
依托单位：北京工业大學(xué)
研究期限：2017-01-01 至 2019-12-31
资助经费：20.0（万元）

项目摘要
中文(wén)摘要：
针对具有(yǒu)高熔点、低热导率钛合金搅拌摩擦焊接头受热不均、组织性能(néng)差的问题，本项目拟以双相钛合金為(wèi)研究对象，采用(yòng)材料表征与测试的方法，研究脉冲電(diàn)流辅助静轴肩搅拌摩擦焊接头的织构控制。通过接头织构表征，结合晶粒内部形貌，建立接头的晶粒取向和晶粒间取向差与其塑性变形机制的对应关系；通过辅助热源和電(diàn)致塑性对接头织构形成的影响，揭示脉冲電(diàn)流对织构的作用(yòng)机制；通过接头高温β母相的组织重构，建立β母相与αs子相的取向对应关系。基于接头织构与其塑性变形机制、脉冲電(diàn)流加载方式与接头织构以及接头母相与子相的相关性，揭示接头αp相和αs相织构的形成机理(lǐ)。通过织构与接头力學(xué)性能(néng)的定量研究，结合对接头β母相{110}织构的控制，确定接头最佳组织性能(néng)对应的织构类型、取向密度和體(tǐ)积分(fēn)数。通过脉冲電(diàn)流参数与力學(xué)性能(néng)的定量关系，验证脉冲電(diàn)流对接头性能(néng)的影响。本项目為(wèi)织构调控下高强度焊接接头的制备奠定理(lǐ)论基础。
英文(wén)摘要：
Against the problems of uneven heating and poor microstructure-properties performance of friction stir welding joints of titanium alloys with high melting point and low thermal conductivity, this project will use two-phase titanium alloy as the research object, materials characterization and testing will be employed, and research will be carried out on texture control of the joints produced by stationary shoulder friction stir welding with additional pulse current. To perform characterization of texture, integrate the internal morphology of grains and establish the relationship between grain orientation and misorientation and plastic deformation mechanism; the impact mechanism of pulse current on texture will be revealed based on influence of the auxiliary heat source and electrically induced plasticity effect on texture formation of the joint; the orientation relationship between the parent β phase and the daughter αs phase will be analysed through microstructure reconstruction of high temperature parent β phase. Based on relevance between texture and plastic deformation mechanism of the joints, relevance between loading mode of the pulse current and texture of the joints and relevance between the parent phase and the daughter phase of the joints, the formation mechanism of αp phase texture and αs phase texture will be revealed. The type, orientation density and volume fraction of texture will be determined corresponding to the best performance of microstructure-properties of the joints by the quantitative study of texture and the mechanical properties of the joint combined with control of {110} texture of the parent β phase of the joints. The properties of the joints will be verified as influenced by the pulse current through quantitative relationship between the pulse current parameters and mechanical properties. The project will provide theoretical basis for the manufacturing of welded joints with high strength under texture control.
                                                                                                                                                                    ——来自https://kd.nsfc.gov.cn/