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吕滨江
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<div class="gr_information"> <ul><p>邮箱: lbj818@163.com</p><p>电话: 15263035641</p><p>办公地点: 实训中心南楼301</p></ul></div>
个人简介
<p> 吕滨江,副教授,硕导。主要从事镁合金新材料开发及变形工艺研究,主持山东省重点研发计划、山东省自然科学基金青年基金、中国博士后面上资助和青岛市博士后应用项目各1项,参与国家基金4项。在《Materials Science and Engineering: A》,《Materials & Design》,《Journal of Materials Engineering & Performance》,《Rare Metals》,《稀有金属材料与工程》和《材料工程》等国内外期刊上公开发表学术论文15篇,其中SCI收录11篇,EI收录2篇,授权发明专利2项。</p>
研究课题
<h1>研究方向</h1><p><span>1. </span>镁合金新材料开发及变形工艺研究</p><p><span>2. 轻</span>合金摩擦磨损性能研究</p><h1>研究课题</h1><p><span></span></p><p>1. 山东省重点研发计划(公益类科技攻关),2019GGX102060,高速列车车体用高性能变形镁合金的开发及应用研究,2019/07-2021/12, 在研,项目负责人,20万。<br/>2.山东省自然科学基金青年基金项目,ZR2016EMQ08,基于孪晶动态再结晶机制开发低成本可高速挤压变形镁合金,2017/11-2019/10,在研,项目负责人,12万元。<br/>3. 中国博士后基金面上资助,2017M612224,基于孪晶再结晶机制调控制备可高速挤压变形镁合金,在研,项目负责人,5万元。<br/>4. 青岛市博士后应用研究项目,多因素耦合作用下镁合金热变形动态预测模型及其应用研究,在研,项目负责人,5万元。<br/>5. 国家自然科学基金青年基金项目,51505245,基于运动合成的活塞异形销孔加工新原理及关键技术研究,2016/01-2018/12。<br/></p><p><br/></p>
研究成果
<h1>代表论文</h1><p><span>1. Bin-Jiang Lv*, Feng Guo*, Qing-Lun Che, Yang Xu, Ning Cui, Yuan-Lin Guan. A New Method for Optimizing Hot Processing Parameters of Mg-6.0Zn-0.5Mn-0.5Er Alloy Based on Kinetic Model of Dynamic Recrystallization and Processing Map. Journal of Materials Engineering & Performance, 2018, 27(7): 3773-3782. (SCI)</span></p><p><span>2. </span>吕滨江,彭建,禇忠<span>. </span>铸造冷却方式对<span>Mg-4.4Zn-0.3Zr-0.4Y</span>挤压态合金组织及性能的影响<span>. </span>稀有金属材料与工程,<span>2017</span>,<span>46</span>(<span>1</span>):<span>189~194 </span>(<span>SCI</span>)</p><p><span>3. </span>吕滨江,彭建,梁鹏,王进<span>. LPSO</span>堆垛结构转变对挤压态<span>Mg-2.0Zn-0.3Zr-5.8Y</span>镁合金组织性能的影响<span>. </span>稀有金属材料与工程,<span>2016</span>,<span>45</span>(<span>11</span>):<span>2861~2866 </span>(<span>SCI</span>)</p><p><span>4. </span>吕滨江,彭建,梁鹏,王进<span>. </span>冷却速率对<span>Mg-4.4Zn-0.3Zr-0.4Y</span>变形镁合金组织和性能的影响<span>. </span>材料工程,<span>2016</span>,(<span>09</span>):<span>82~88 </span>(<span>EI</span>)</p><p><span>5. Bin-Jiang Lv</span>,<span>Jian Peng</span>,<span>Zhong Chu. The Effect of Icosahedral Phase on Dynamic Recrystallization Evolution and Hot Workability of Mg-2.0Zn-0.3Zr-0.2Y Alloy. Journal of Materials Engineering and Performance</span>,<span>2015</span>,<span>24</span>(<span>9</span>):<span>3502~3512 </span>(<span>SCI</span>)</p><p><span>6. Bin-Jiang Lv</span>,<span>Jian Peng</span>,<span>Yi Peng</span>,<span>Ai-Tao Tang</span>,<span>Fu-Sheng Pan. Mechanical properties and energy absorption of extruded Mg–2.0Zn–0.3Zr alloy with Y addition. Rare Metals</span>,<span>2015</span>,<span>34</span>(<span>5</span>):<span>314~323 </span>(<span>SCI</span>)</p><p><span>7. </span>吕滨江,彭建,韩韡,汤爱涛,潘复生<span>. </span>水冷对普通铸造<span>Mg-Zn-Zr-Y</span>镁合金准晶相形成的影响及铸态组织研究<span>. </span>稀有金属材料与工程,<span>2014</span>,<span>43</span>(<span>7</span>):<span>1643~1648 </span>(<span>SCI</span>)</p><p><span>8. Bin-Jiang Lv</span>,<span>Jian Peng</span>,<span>Li-Li Zhu</span>,<span>Yong-Jian Wang</span>,<span>Ai-Tao Tang. The effect of 14H LPSO phase on dynamic recrystallization behavior and hot workability of Mg–2.0Zn–0.3Zr–5.8Y alloy. Materials Science and Engineering A-Structural Materials Properties Microstructure and Processing</span>,<span>2014</span>,<span>599</span>:<span>150~159 </span>(<span>SCI</span>)</p><p><span>9. Bin-Jiang Lv</span>,<span>Jian Peng</span>,<span>Yong-Jian Wang</span>,<span>Xiao-Qin An</span>,<span>Li-Ping Zhong</span>,<span>Ai-Tao Tang</span>,<span>Fu-Sheng Pan. Dynamic recrystallization behavior and hot workability of Mg–2.0Zn–0.3Zr–0.9Y alloy by using hot compression test. Materials & Design</span>,<span>2014</span>,<span>53</span>:<span>357~365 </span>(<span>SCI</span>)</p><p><span>10. Bin-Jiang Lv</span>,<span>Jian Peng</span>,<span>Yi Peng</span>,<span>Ai-Tao Tang</span>,<span>Fu-Sheng Pan. The effect of LPSO phase on hot deformation behavior and dynamic recrystallization evolution of Mg–2.0Zn–0.3Zr–5.8Y alloy. Materials Science and Engineering A-Structural Materials Properties Microstructure and Processing</span>,<span>2013</span>,<span>579</span>:<span>209~216 </span>(<span>SCI</span>)</p><p><span>11. Bin-Jiang Lv</span>,<span>Jian Peng</span>,<span>Da-Wei Shi</span>,<span>Ai-Tao Tang</span>,<span>Fu-Sheng Pan. Constitutive modeling of dynamic recrystallization kinetics and processing maps of Mg–2.0Zn–0.3Zr alloy based on true stress–strain curves. Materials Science and Engineering A-Structural Materials Properties Microstructure and Processing</span>,<span>2013</span>,<span>560</span>:<span>727~733 </span>(<span>SCI</span>)</p><p><br/></p>
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