WorldCat Identities

محمودى، على، 1971 or 1972-

Overview
Works: 5 works in 5 publications in 3 languages and 23 library holdings
Genres: Criticism, interpretation, etc  History  Biographies 
Roles: Author
Classifications: HN670.2.A8,
Publication Timeline
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Most widely held works by محمودى، على،
Nūandīshān-i Īrānī : naqd-i andīshahʹhā-yi chālish barangīz va taʼs̲īr guz̲ār dar Īrān-i Muʻāṣir by ʻAlī Maḥmūdī( Book )

1 edition published in 2014 in Persian and held by 14 WorldCat member libraries worldwide

Nūʹandīshān-i Īrānī : naqd-i andīshahʹhā-yi chālish barʹangīz va taʼs̲īr guz̲ār dar Īrān-i muʻāṣir by ʻAlī Maḥmūdī( Book )

1 edition published in 2015 in Persian and held by 3 WorldCat member libraries worldwide

CONTRIBUTION A LA DOSIMETRIE CLINIQUE DES SOURCES DE CALIFORNIUM 252 EMPLOYEES A L'INSTITUT GUSTAVE ROUSSY by ʻAlī Maḥmūdī( Book )

1 edition published in 1977 in French and held by 1 WorldCat member library worldwide

Developing a new model to predict the fatigue life of cross-ply laminates using coupled CDM-entropy generation approach( )

1 edition published in 2018 in English and held by 1 WorldCat member library worldwide

Highlights: A new model has been proposed to predict the fatigue life of laminated composites. The proposed method is based on entropy generation approach. The model introduces new criteria based on entropy generated due to damage energy. Failure criteria of fiber and matrix direction called FFE-F and FFE-M, respectively. The proposed model is sensitive to the frequency of loading and ambient temperature. The proposed method distinguishes between different stacking sequences. The model has been characterized for T700/Cycom890 carbon-epoxy composite. Abstract: In this paper, a new model based on thermodynamic entropy approach is proposed to predict the fatigue life of cross-ply laminates. The basis of the model is that, during fatigue loading, the accumulated entropy up to final failure that is generated because of damage in fiber and matrix is nearly constant and independent of the magnitude of loading and conditions. In the present study, for the first time, these values called the fracture fatigue entropy of fiber (FFE-F) and fracture fatigue entropy of matrix (FFE-M) which are considered as a final failure criterion in 0° and 90° layers, respectively. A CDM-based constitutive model is utilized to predict the damage energy in the fatigue degradation of composite laminates. FFE-F and FFE-M values are calculated using experimental results of available tension-tension fatigue tests. The validity of the proposed damage-entropy model in fatigue life prediction of T700/Cycom890 carbon/epoxy laminated composite is investigated and the obtained results are in good agreements with experimental ones. It is noted that the developed model can discriminate between different stacking sequences in fatigue loading and also is sensitive to the frequency of loading and different ambient temperature. In addition, the obtained results show that the proposed damage-entropy model is applicable in life prediction of specimens undergoing both high-cycle and low-cycle fatigue loading
 
Audience Level
0
Audience Level
1
  Kids General Special  
Audience level: 0.77 (from 0.73 for Nūandīsh ... to 0.93 for CONTRIBUTI ...)

Alternative Names
Mahmoudi, Ali, 1971 or 1972-

Maḥmūdī, ʻAlī, 1971 or 2-

‏محمودى، على.

‏محمودى، على, 1971 or 1972-

Languages