基本信息
项目批准号：51505471
申请代码：E0508
项目名称：零轴肩压入零减薄搅拌摩擦焊焊缝组织性能(néng)特性及形成机理(lǐ)研究
项目负责人：张会杰
依托单位：东北大學(xué)
研究期限：2016-01-01 至 2018-12-31
资助经费：22.0（万元）

项目摘要
中文(wén)摘要：
常规搅拌摩擦焊（FSW）中出现的焊缝减薄现象对接头成形质量及服役可(kě)靠性都存在不利影响。现有(yǒu)消除FSW焊缝减薄现象的方法普遍存在效率低、质量差、可(kě)适用(yòng)范围窄等问题，為(wèi)此，本项目提出了一种新(xīn)型零减薄FSW方法，能(néng)够在焊具轴肩压入量為(wèi)零的工艺条件下，一次性获得优质零减薄FSW接头，从而為(wèi)结构件高效率、高质量的零减薄焊接开辟了新(xīn)的技术途径。為(wèi)了深刻阐明这一新(xīn)型零减薄FSW工艺的特性和机理(lǐ)，本项目开展了零轴肩压入零减薄FSW焊缝组织性能(néng)特性及形成机理(lǐ)研究。首先探索焊具轴肩的间接热机作用(yòng)对焊缝微观组织演变及接头力學(xué)行為(wèi)的影响特征和机制，明晰焊缝组织性能(néng)特性，而后建立能(néng)够真实反映零减薄FSW产热特征的轴肩双面摩擦热源模型，进行焊接热-流模拟分(fēn)析，阐明工艺特性的本质原因，揭示焊缝形成机理(lǐ)。研究成果可(kě)望為(wèi)此新(xīn)型零减薄FSW工艺的优化控制提供理(lǐ)论依据，促进保形精确焊接技术的发展，具有(yǒu)较大的理(lǐ)论与实际意义。
英文(wén)摘要：
The weld thinning phenomenon occurring in conventional friction stir welding (FSW) has negative effect on the formation quality and serviceable reliability of FSW joints. The existing methods for solving the weld thinning problem in FSW exhibit some universal deficiencies, such as low efficiency, low quality and narrow applicable range. Motivated by this problem, the present project proposes a novel non-thinning FSW process, in which the high quality non-thinning friction stir weld can be one-time produced at a zero shoulder plunge depth. This novel process opens a brand new pathway for the high-efficiency and high-quality non-thinning FSW of structures. To deeply elucidate the characteristics and mechanisms of the novel non-thinning FSW process, the microstructure-property characteristics and formation mechanism of non-shoulder-plunge and non-thinning friction stir weld is investigated in the present project. Firstly, the features and mechanisms of the indirect thermal-mechanical effects of tool shoulder on microstructure evolution and mechanical behavior of FSW joints are explored to illuminate the microstructure-property characteristics of non-thinning FSW. After this, a double-surface frictional heat source model of tool shoulder, which can truly reflect the heat generation features of non-thinning FSW, is developed, and then the thermal and flow fields of non-thinning FSW are simulated. The intrinsic reasons for the process characteristics are therefore illustrated, and the weld formation mechanism of non-thinning FSW is revealed in nature. The project is expected to provide theoretical basis for the optimal control of non-thinning FSW, and is also beneficial to promote the development of accurately shaped welding technique. So this project is significative for both theory and practical application.
                                                                                                                                                                         ——来自https://kd.nsfc.gov.cn/