Mirsayar, Mirmilad

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助理教授 | 工程与科学学院-航空航天，物理和空间科学

mmirsayar@king-net.net
F.W. 奥林工程大楼，246

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Personal Overview

Dr. Mirmilad Mirsayar is an 助理教授 of Aerospace Engineering in the 航空航天系, Physics, 亚洲博彩平台（FIT）和空间科学. He has co-authored over 45 peer-reviewed journal publications and several conference proceedings papers. 迄今为止，他已经获得了多个奖项和认可, 包括国家科学基金会标准研究资助奖, 斯坦福大学全球排名前2%的研究人员 & Elsevier (2021, 2022, and 2023), and Outstanding Reviewer Awards from many prestigious journals in the field of solids and structures. 在FIT任职之前, he served as a Postdoctoral Researcher and then as a Research Scientist in the Aerospace Engineering Department of Texas A&M University, 参与多个先进材料和结构的资助项目, fracture mechanics & 疲劳和复合结构. He earned his Ph.D. 德州大学A级&2017年M大学.

主要研究方向: i) Mechanics and Physics of Fracture in various complex material systems; ii) Theoretical and Computational Mechanics; iii) Mechanics of Advanced Composites and Cellular Structures; iv) Mechanics of Multifunctional Materials; v) Multiscale Fatigue Crack Growth; vi) Additive Manufacturing; vii) Constitutive Modeling of Multiphysics Deformation

研究实验室:

超复合材料完整性研究实验室(MIR-Lab. Mirsayar and Dr. Jha. (http://research.king-net.net/mir-lab/)

主要资助项目：

1. （2023年7月至2026年7月）： Understanding Mixed-Mode Fracture Mechanics in Additively Manufacturable Functionally Graded Microcellular Solids - awarded by 国家科学基金会: http://www.nsf.gov/awardsearch/showAward?AWD_ID=2317406

教育背景

Ph.D. Texas A&M大学，大学城，德克萨斯州（2017）

专业经验

大学研究委员会委员(2008年8月. 2022 - present)

亚洲博彩平台助理教授(2008年8月. 2020 - present)

研究科学家，德克萨斯州A&M大学（2018-2020）

博士后研究员，德克萨斯大学&M大学（2017-2018）

Current Courses

AEE 3083：材料力学

AEE 5470：复合材料原理

断裂力学和疲劳

选定的出版物

注：“†”代表单一作者

Mirsayar, MM., & Shahbazian, B. (2024). "A novel three-dimensional notch fracture criterion via effective critical distances". 国际机械科学杂志, 109149. [Impact Factor:7.30]

† Mirsayar MM., (2023) "A novel multiscale model for mixed-mode fatigue crack growth in laminated composites". 国际机械科学杂志; 255:108470. [Impact Factor:7.30]

阿夫沙尔R，法拉马齐L， Mirsayar M, Ebrahimi BJ. (2023) "Aggregate size effects on fracture behavior of concrete SCB specimens". 建筑及建筑材料; 389:131628. [Impact Factor:7.40]

Saedi S, Acar E, Raji H, Saghaian SE， Mirsayar M. (2023) "形状记忆合金的能量阻尼研究进展. 合金与化合物杂志. 25:170286. [Impact Factor:6.20]

† Mirsayar, M.M., (2022) "A generalized model for dynamic mixed-mode fracture via state-based peridynamics". Fatigue & 工程材料断裂 & Structures, 1‐15. doi:10.1111/ffe.13860[影响因子：3.70]

Mirsayar, M.M., Shahbazian B. (2022) "An energy-based criterion for mixed-mode I/II/III fracture considering effective critical distances". 工程断裂力学, 108674.[Impact Factor:5.40]

† Mirsayar, M. M. (2022). 材料各向异性下二维晶格的脆性断裂. Fatigue & 工程材料断裂 & Structures, 1‐13. doi:10.1111/ffe.13711. [Impact Factor:3.70]

† Mirsayar, M. M. (2022). "Maximum principal strain criterion for fracture in orthotropic composites under combined tensile/shear loading". 理论与应用断裂力学, 118, 103291. [Impact Factor:5.30]

Shahbazian B., Mirsayar, M.M., et al. (2022) "Experimental and theoretical investigation of mixed-mode I/II and I/III fracture behavior of PUR foams using a novel strain-based criterion". 国际固体与结构杂志, [Impact Factor:3.60]

† Mirsayar, M. M. (2021). "On the effective critical distances in three-dimensional brittle fracture via a strain-based framework". 工程断裂力学，2008, 107740. [Impact Factor:5.40]
† Mirsayar, M. M. (2021). "A combined stress/energy-based criterion for mixed-mode fracture of laminated composites considering fiber bridging micromechanics". 国际机械科学杂志, 106319. [Impact Factor:7.30]
† Mirsayar, M. M. (2021). "A generalized criterion for fatigue crack growth in additively manufactured materials–Build orientation and geometry effects". 国际疲劳杂志, 145, 106099. [Impact Factor:6.00]
Aliha, M.R.M, Samareh-Mousavi， S.S. & Mirsayar, M. M. (2021). "Loading rate effect on mixed-mode I/II brittle fracture behavior of PMMA using inclined cracked SBB specimen". 国际固体与结构杂志, 111177.[Impact Factor:3.60]

Davis, A.M., Mirsayar, M.M. & Hartl, D.J. (2021). "A novel structural health monitoring approach in concrete structures using embedded magnetic shape memory alloy components. 建筑及建筑材料, 311, p.125212. [Impact Factor:7.40]

Torabi, A.R., Shahbazian, B., Mirsayar, M. & Cicero, S., (2021). A Methodology to Determine the Effective Plastic Zone Size Around Blunt V-Notches under Mixed Mode I/II Loading and Plane-Stress Conditions. Metals, 11(7), p.1042. [Impact Factor:2.90]

Aliha, M.R.M., Kucheki, H.G. & Mirsayar, M. (2021). Mixed Mode I/II Fracture Analysis of Bi-Material Adhesive Bonded Joints Using a Novel Short Beam Specimen. Applied Sciences, 11(11), p.5232. [Impact Factor:2.70]

Mirsayar, M. M., & Hartl, D. J. (2020). "Damage detection via embedded sensory particles–Effect of particle/matrix interphase properties". 复合结构, 232, 111536. [Impact Factor:6.30]
Vashisth, A., & Mirsayar, M. M. (2020). "A combined atomistic-continuum study on the temperature effects on interfacial fracture in SiC/SiO2 composites". 理论与应用断裂力学, 105, 102399.[Impact Factor:5.30]
† Mirsayar, M. M. (2019). 结合复合材料扭结界面断裂中的t应变效应. 理论与应用断裂力学, 104, 102381.[Impact Factor:5.30]
Mirsayar, M. M., & Hartl, D. J. (2019). "On the validity of strain energy density criterion for mixed mode I/II fracture analysis of notched shape memory alloy components". 工程断裂力学, 214, 270-288.[Impact Factor:5.40]
Mirsayar, M. M., & Hartl, D. J. (2019). 《亚洲博彩平台》. 工程断裂力学, 216, 106509.[Impact Factor: 5.40]
Shi, X., Mirsayar, M.M., Mukhopadhyay, A., & Zollinger, D. (2019). Characterization of two-parameter fracture properties of portland cement concrete containing reclaimed asphalt pavement aggregates by semicircular bending specimens. 水泥及混凝土复合材料, 95, 56-69.[Impact Factor: 10.50]
† Mirsayar, M. M. (2018). On fracture analysis of dental restorative materials under combined tensile-shear loading. 理论与应用断裂力学, 93, 170-176.[Impact Factor:5.30]
Mirsayar, M. M., Razmi, A., Aliha, M. R. M., & Berto, F. (2018). EMTSN criterion for evaluating mixed mode I/II crack propagation in rock materials. 工程断裂力学, 190, 186-197.[Impact Factor:5.40]
Mirsayar, M. M., Razmi, A., & Berto, F. (2018). Tangential strain‐based criteria for mixed‐mode I/II fracture toughness of cement concrete. Fatigue & 工程材料断裂 & Structures, 41(1), 129-137.[Impact Factor:3.37]
† Mirsayar, M. M. (2017). On the low temperature mixed mode fracture analysis of asphalt binder–Theories and experiments. 工程断裂力学, 186, 181-194.[Impact Factor:3.70]
Razmi, A., & Mirsayar, M. M. (2017). On the mixed mode I/II fracture properties of jute fiber-reinforced concrete. 建筑及建筑材料, 148, 512-520.[Impact Factor: 7.40]
Mirsayar, M. M., & Park, P. (2016). Mixed mode brittle fracture analysis of high strength cement mortar using strain-based criteria. 理论与应用断裂力学, 86, 233-238.[Impact Factor:5.30]
Mirsayar, M. M., & Park, P. (2016). Modified maximum tangential stress criterion for fracture behavior of zirconia/veneer interfaces. 生物医学材料力学行为杂志, 59, 236-240.[Impact Factor:3.90]
Mirsayar, M. M., Berto, F., Aliha, M. R. M., & Park, P. (2016). 多晶石墨混合模式断裂的应变准则. 工程断裂力学, 156, 114-123.[Impact Factor:5.40]
† Mirsayar, M. M. (2015). Mixed mode fracture analysis using extended maximum tangential strain criterion. Materials & Design, 86, 941-947.[Impact Factor: 8.40]
Mirsayar, M. M., & Park, P. (2015). t应力对界面裂纹扭结角的影响. Materials & Design, 80, 12-19.[Impact Factor: 8.40]
† Mirsayar, M. M. (2014). 扭结界面裂纹的断裂——t应力的作用. Materials & Design, 61, 117-123.[Impact Factor: 8.40]
Mirsayar, M. M., Aliha, M. R. M., & Samaei, A. T. (2014). On fracture initiation angle near bi-material notches–Effects of first non-singular stress term. 工程断裂力学, 119, 124-131.[Impact Factor:5.40]
Arabi, H., Mirsayar, M. M., Samaei, A. T., & Darandeh, M. (2013). Study of characteristic equation of the elastic stress field near bimaterial notches. 材料强度, 45(5), 598-606.
Ayatollahi, M. R., Dehghany, M., & Mirsayar, M. M. (2013). I型锐v型切口的综合光弹性研究. 欧洲力学杂志a /固体, 37, 216-230.[Impact Factor:4.10]

Ayatollahi, M. R., Mirsayar, M. M., & Dehghany, M. (2011). Experimental determination of stress field parameters in bi-material notches using photoelasticity. Materials & Design, 32(10), 4901-4908.[Impact Factor: 8.40]
Samaei, A. T., & Mirsayar, M. M. (2011). Buckling Analysis of Multi-Walled Carbon Nanotubes with Consideration of Small Scale Effects. 计算与理论纳米科学杂志, 8(11), 2214-2219.
Samaei, A. T., Abbasion, S., & Mirsayar, M. M. (2011). Buckling analysis of a single-layer graphene sheet embedded in an elastic medium based on nonlocal Mindlin plate theory. 力学研究通讯, 38(7), 481-485.[Impact Factor:2.40]
Ayatollahi, M. R., Mirsayar, M. M., & Nejati, M. (2010). 双材料缺口中第一非奇异应力项的计算. 计算材料科学, 50(2), 752-760.[Impact Factor:3.30]

Recognition & Awards

学院杰出研究奖, 航空航天系, Physics, and Space Sciences, 亚洲博彩平台（2024）

nsf - cmmi -材料力学 & 结构标准研究补助金（2023）

Selected as one of the World's Top 2% Cited Researchers for both the "Career-long" and "single-year" by Elsevier & 斯坦福大学（2021年、2022年和2023年）

被引用次数最多的文章工程断裂力学”(Elsevier), 2021.

杰出审稿人奖：Journal ofFatigue & 工程材料断裂 & Structures” (John Wiley & 儿子出版社，2017.

杰出审稿人奖：Journal ofMeasurement” (Elsevier), 2017.

杰出审稿人奖：Journal of工程断裂力学” (Elsevier), 2017.

杰出审稿人奖：Journal of建筑及建筑材料” (Elsevier), 2017.

被引用次数最多的文章工程断裂力学”(Elsevier), 2016.

被引用次数最多的文章Theoretical & 应用断裂力学”(Elsevier), 2016.

Research