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在“Elsevier电子期刊”中，命中：4,801条，耗时：0.061965 秒

在所有数据库中总计命中：6,644条

1.New methodology for calculating damage variables evolution in Plastic Damage Model for RC structures

作者：B. Alfarah^a ; F. Ló ; pez-Almansa^b ; ^{francesc.lopez-almansa@upc.edu} ; S. Oller^a

关键词：Concrete Plastic Damage Model ; Damage variables calculation ; Mesh-sensitivity ; Numerical simulation ; Concrete structures ; Seismic behavior

刊名：Engineering Structures

出版年：2017

2.Prediction of microstructure and ductile damage of a high-speed railway axle steel during cross wedge rolling

作者：Yuanming Huo^a ; ^{huo4023@hotmail.com" class="auth_mail" title="E-mail the corresponding author} ; Jianguo Lin^a ; ^b ; ^{Jianguo.lin@Imperial.ac.uk" class="auth_mail" title="E-mail the corresponding author} ; Qian Bai^c ; ^{baiqian@dlut.edu.cn" class="auth_mail" title="E-mail the corresponding author} ; Baoyu Wang^a ; ^{bywang@ustb.edu.cn" class="auth_mail" title="E-mail the corresponding author} ; Xuefeng Tang^a ; ^{rathlusia@163.com" class="auth_mail" title="E-mail the corresponding author} ; Hongchao Ji^a ; ^{jihongchao666@163.com" class="auth_mail" title="E-mail the corresponding author}

关键词：Unified constitutive modeling ; Microstructure evolution ; Ductile damage ; Cross wedge rolling ; High-speed railway axle steel ; Experimental validation

刊名：Journal of Materials Processing Technology

出版年：2017

3.Tensile and compressive damaged response in Flax fibre reinforced epoxy composites

作者：Zia Mahboob^a ; ^{zmahboob@ryerson.ca} ; Ihab El Sawi^a ; Radovan Zdero^b ; ^c ; Zouheir Fawaz^d ; Habiba Bougherara^a ; ^{habiba.bougherara@ryerson.ca}

关键词：A. Biocomposite ; A. Natural fibres ; B. Mechanical properties ; Damage evolution

刊名：Composites Part A: Applied Science and Manufacturing

出版年：2017

4.A continuum damage model for multi-axial low cycle fatigue of porous sintered metals based on the critical plane concept

作者：Songyun Ma^a ; Huang Yuan ; ^b ; ^{huang.yuan@tsinghua.edu.cn}

关键词：Porous sintered metal ; Cyclic damage evolution ; Cyclic plasticity ; Fatigue damage ; Fatigue life

刊名：Mechanics of Materials

出版年：2017

5.Experimental research of the AE responses and fracture evolution characteristics for sand-paraffin similar material

作者：Xiaoran Wang^b ; Xiaofei Liu^a ; ^b ; Enyuan Wang^a ; ^b ; ^{cumtwey@163.com} ; Xuelong Li^b ; Xin Zhang^c ; Chong Zhang^b ; Biao Kong^b

刊名：Construction and Building Materials

出版年：2017

6.Damage behaviour of concrete beams reinforced with GFRP bars

作者：Wen-rui Yang ^{wryang99@163.com} ; Xiong-jun He ; ^{hxjwhut@163.com} ; Li Dai ^{dlwhut2012@163.com}

关键词：GFRP-reinforced concrete beams ; Finite element method ; Damage behaviour ; Energy dissipation ; GFRP reinforcement ratio

刊名：Composite Structures

出版年：2017

7.A three-invariant cap-plasticity damage model for cementitious materials

作者：B. Paliwal^a ; ^{bp983@msstate.edu} ; Y. Hammi^a ; R.D. Moser^b ; M.F. Horstemeyer^a

关键词：Cement ; Concrete ; Cap-plasticity ; Damage mechanics ; Constitutive model ; Multi-axial loading

刊名：International Journal of Solids and Structures

出版年：2017

8.The co-evolution of microstructure features in self-ion irradiated HT9 at very high damage levels

作者：E. Getto^a ; ^b ; ^{getto@usna.edu} ; G. Vancoevering^b ; G.S. Was^b

刊名：Journal of Nuclear Materials

出版年：2017

9.Assessment of compressive failure process of cortical bone materials using damage-based model

作者：Theng Pin Ng^a ; S.S. R. Koloor^a ; ^{s.s.r.koloor@gmail.com} ; J.R.P. Djuansjah^a ; M.R. Abdul Kadir^b

关键词：Cortical bone ; Brittle damaged plasticity model ; Brittle failure ; Finite element method ; Compression load

刊名：Journal of the Mechanical Behavior of Biomedical Materials

出版年：2017

10.Microstructure evolution in HR3C austenitic steel during long-term creep at 650 °C

作者：Zhen Zhang^a ; Zhengfei Hu^a ; ^{huzhengf@tongji.edu.cn} ; Haoyun Tu^b ; Siegfried Schmauder^b ; Gaoxiang Wu^c

关键词：Austenitic steel ; Creep strength ; Microstructure evolution ; Precipitation strengthening ; Intergranular damage

刊名：Materials Science and Engineering: A

出版年：2017

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