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 تأثيرات الضرر الميكانيكي والحرارة المنحدر من نوع على اهتزاز الحرارية السيليكون نيتريد Nanobeam على أساس الأخضر -Naghdi نظرية النوع الثاني

 Kurdi, Mohammed Hisham Saleh


//uquui/handle/20.500.12248/131062
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DC FieldValueLanguage
dc.contributor.adviserYoussef, Hamdy M.-
dc.contributor.adviserAlharthi, Hamzah-
dc.contributor.authorKurdi, Mohammed Hisham Saleh-
dc.date.accessioned2021-11-01T06:47:11Z-
dc.date.available2021-11-01T06:47:11Z-
dc.date.issued2021en_US
dc.identifier.urihttp://dorar.uqu.edu.sa//uquui/handle/20.500.12248/131062-
dc.description77 ورقةen_US
dc.description.abstractRobert Hooke is the first one who stated that "The power of any spring or elastic body is in the same proportion with the body’s extension" [1], while Cauchy who provided the governing equations of the linear theory of elasticity based on a fixed and known temperature (isothermal), and without any changes until now [2]. The problem of elasticity in a temperature transition is resolved at first by Duhamel. The conclusion deduced by Duhamel equations was repeated by Neumann, but in a different manner, it is considered the first theory of thermoelasticity, which is known as the uncoupled thermoelasticity theory. The first governing equation of this theory is the heat conduction equation (thermal equation), which is unrelated to the mechanical effect, while the second one is the equation of motion involves a known function of heat [3]. Danilovskaya was the first one who solved an actual problem based on thermoelasticity that is uncoupled with uniform heat. This hypothesis has two shortcomings. First, the hypothesis notes that the elastic body's mechanical condition has no impact on the temperature and does not conform to physical experiments. Second, the parabolic heat equation forecasts an infinite temperature spread speed, which contradicts again physical observations [3].en_US
dc.language.isoانجليزيen_US
dc.publisherجامعة أم القرىen_US
dc.relation.isformatofمكتبة الملك عبدالله بن عبدالعزيز الجامعيةen_US
dc.subjectالهندسة الميكانيكيةen_US
dc.titleتأثيرات الضرر الميكانيكي والحرارة المنحدر من نوع على اهتزاز الحرارية السيليكون نيتريد Nanobeam على أساس الأخضر -Naghdi نظرية النوع الثانيen_US
dc.title.alternativeInfluences of The Mechanical Damage and Ramp-Type Heat on The Vibration of Thermoelastic Silicon Nitride Nanobeam Based on Green-Naghdi Theorem Type-IIen_US
dc.identifier.callnum24567-
dc.type.formatماجستيرen_US
dc.publisher.countryالمملكة العربية السعوديةen_US
dc.relation.collageالهندسة والعمارة الإسلاميةen_US
dc.type.statusمجازen_US
dc.rights.holdYesen_US
dc.rights.digitalYesen_US
dc.publisher.cityمكة المكرمةen_US
dc.date.issuedhijri1442en_US
dc.relation.depالهندسة الميكانيكيةen_US
dc.rights.digitizedYesen_US
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