基本信息
项目批准号：51401219
申请代码：E0103
项目名称：颗粒增强金属基复合材料搅拌摩擦焊残余应力的多(duō)尺度模拟
项目负责人：张星星
依托单位：中國(guó)科(kē)學(xué)院金属研究所
研究期限：2015-01-01 至 2017-12-31
资助经费：25.0（万元）
项目摘要
 
中文(wén)摘要：
颗粒增强金属基复合材料（PRMMC）搅拌摩擦焊（FSW）残余应力对焊接件的尺寸、形状和性能(néng)有(yǒu)显著影响。但PRMMC残余应力包含了宏观残余应力、弹性错配残余应力和热错配残余应力三类组元，使得对其研究非常困难，这限制了对PRMMC的FSW残余应力与接头性能(néng)的相互关系进行深入研究。本项目以SiCp/2009Al复合材料為(wèi)研究对象，通过建立三维多(duō)尺度热-弹塑性变形有(yǒu)限元模型，实现对PRMMC的FSW残余应力各组元的预测。采用(yòng)中子衍射对残余应力各组元进行测量，对模拟结果进行验证。通过研究FSW热输入、增强相颗粒尺寸和體(tǐ)积分(fēn)数对残余应力的影响，建立PRMMC的FSW残余应力的调控机制。通过以上研究建立精确表征PRMMC的FSW残余应力的新(xīn)方法，為(wèi)下一步研究残余应力对力學(xué)行為(wèi)的影响奠定基础，為(wèi)PRMMC的FSW残余应力的预测和调控以及FSW工程应用(yòng)提供理(lǐ)论依据。
英文(wén)摘要：
Residual stresses of friction stir welded (FSWed) particle reinforced metal matrix composites (PRMMC) affect the dimensions, the shapes and the performances of the FSWed joints. However, the residual stresses in PRMMC include three types, i.e. the macro residual stresses, the elastic misfit residual stresses and the thermal misfit residual stresses. This makes the investigation on the residual stresses of FSWed PRMMC very difficult and limits the intensive investigation on the relationship between the residual stresses of FSWed PRMMC and the performances of FSWed joints. In the present project, the SiCp/2009Al composite is studied. Multi-scale thermal-elastoplastic finite element model is constructed to simulate all the three types of residual stresses of FSWed SiCp/2009Al composite. The residual stresses of FSWed SiCp/2009Al composite are measured by means of neutron diffraction to prove simulation results. The effects of FSW heat input, the size and content of reinforcing particles on the residual stresses are analyzed in order to establish the optimization mechanism of the residual stresses of FSWed PRMMC. Through these investigations, a new method will be established to characterize the residual stresses of FSWed PRMMC accurately. This will provide fundamental data for investigating the relationship between the residual stresses and performances of PRMMC-FSW. This project will also provide theoretical basis for the industrial applications of friction stir welding of PRMMC.

                                                                                                                                                                           ——来自https://kd.nsfc.gov.cn/