考研适合捡漏的211大学(机械考研适合捡漏的211大学)

考研适合捡漏的211大学，机械考研适合捡漏的211大学

2023年6月27日，Construction and Building Materials撤回了江南大学张聪团队发表的题为“Shrinkage and tensile properties of ultra-high-performance engineered cementitious composites (UHP-ECC) containing superabsorbent polymers (SAP) and united expansion agent (UEA)”的研究论文，主要原因是虚构了一个实际上并不存在的署名作者（新加坡南洋理工大学Toshiyuki Bangi）。

另外，由于同样的原因，张聪等其他的7篇文章也被陆续撤回。最后，2023年7月3日，江南大学相关部门工作人员称，张聪已离职。

应总编辑的要求，这篇论文被撤回了。

在新加坡国立技术大学(NTU)研究诚信办公室提出投诉后，一项调查确定合著者“Toshiyuki Bangi”是虚构的；通讯作者在论文中添加了姓名和所属单位。南洋理工大学没有参与这种欺骗，虚构的作者被分配了一个hotmail.com的电子邮件地址。

操纵作者身份是严重违反出版伦理的行为，它扭曲了研究记录，并使工作的各个方面受到质疑。

通讯作者已经承认了欺骗，并理解撤回的必要性。

张聪等人的8篇撤回文章列表：

1、Retraction notice to “Influence of eco-friendly fine aggregate on macroscopic properties, microstructure and durability of ultra-high performance concrete: A review” [J. Build. Eng. 65 (2023) 105783]

2、Retraction notice to “Effect of CaCO3 whiskers on tensile properties of ultra-high-performance engineered cementitious composites” [J. Build. Eng. 57 (2022) 104896]

3、Retraction notice to “Experimental study and theoretical modeling for the flexural property of multi-scale hybrid fiber reinforced SHCC” [Case Stud. Constr. Mater. 16 (2022) e1083]

4、Retraction notice to “Shrinkage and tensile properties of ultra-high-performance engineered cementitious composites (UHP-ECC) containing superabsorbent polymers (SAP) and united expansion agent (UEA)” [Constr. Build. Mater. 339 (2022) 127697]

5、Retraction notice to “Mechanical properties, durability and application of ultra-high-performance concrete containing coarse aggregate (UHPC-CA): A review” [Constr. Build. Mater. 334 (2022) 127360]

6、Retraction notice to “Investigation of SAP content on the shrinkage and tensile properties of ultra-high performance concrete” [Constr. Build. Mater. 345 (2022) 128402]

7、Retraction notice to ‘Design approach, mechanical properties and cost-performance evaluation of ultra-high performance engineered cementitious composite (UHP-ECC): A review’ [Construct. Build. Mater. 340 (2022) 127734]

8、Retraction notice to “Evaluation of pseudo-strain hardening behavior of hybrid fiber reinforced ultra-high performance concrete containing coarse aggregates by using micromechanical principles” [J. Build. Eng. 61 (2022) 105234]

考研适合捡漏的211大学(机械考研适合捡漏的211大学)

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