科技报告详细信息
Direct Solid-State Conversion of Recyclable Metals and Alloys
Kiran Manchiraju
关键词: ALLOYS;    COMMERCIALIZATION;    DEFORMATION;    ECONOMICS;    ENERGY EFFICIENCY;    EXTRUSION;    FRICTION;    HEATING;    MANUFACTURING;    MATERIALS RECOVERY;    METALS;    METALLURGY;    RECYCLING;    SYNTHESIS;   
DOI  :  10.2172/1039705
RP-ID  :  DOE-SWIRE-03458
PID  :  OSTI ID: 1039705
Others  :  TRN: US201210%%141
美国|英语
来源: SciTech Connect
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【 摘 要 】

Friction Stir Extrusion (FSE) is a novel energy-efficient solid-state material synthesis and recycling technology capable of producing large quantity of bulk nano-engineered materials with tailored, mechanical, and physical properties. The novelty of FSE is that it utilizes the frictional heating and extensive plastic deformation inherent to the process to stir, consolidate, mechanically alloy, and convert the powders, chips, and other recyclable feedstock materials directly into useable product forms of highly engineered materials in a single step (see Figure 1). Fundamentally, FSE shares the same deformation and metallurgical bonding principles as in the revolutionary friction stir welding process. Being a solid-state process, FSE eliminates the energy intensive melting and solidification steps, which are necessary in the conventional metal synthesis processes. Therefore, FSE is highly energy-efficient, practically zero emissions, and economically competitive. It represents a potentially transformational and pervasive sustainable manufacturing technology for metal recycling and synthesis. The goal of this project was to develop the technological basis and demonstrate the commercial viability of FSE technology to produce the next generation highly functional electric cables for electricity delivery infrastructure (a multi-billion dollar market). Specific focus of this project was to (1) establish the process and material parameters to synthesize novel alloys such as nano-engineered materials with enhanced mechanical, physical, and/or functional properties through the unique mechanical alloying capability of FSE, (2) verifying the expected major energy, environmental, and economic benefits of FSE technology for both the early stage 'showcase' electric cable market and the anticipated pervasive future multi-market applications across several industry sectors and material systems for metal recycling and sustainable manufacturing.

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