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Fracture analysis of layered beams w...

Tsokanas, Panayiotis.

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Fracture analysis of layered beams with an elastically coupled behavior and hygrothermal stresses = application to metal-to-composite adhesive joints /

紀錄類型:	書目-電子資源 : Monograph/item
正題名/作者:	Fracture analysis of layered beams with an elastically coupled behavior and hygrothermal stresses/ by Panayiotis Tsokanas.
其他題名:	application to metal-to-composite adhesive joints /
作者:	Tsokanas, Panayiotis.
出版者:	Cham :Springer International Publishing : : 2023.,
面頁冊數:	xxxi, 267 p. :ill., digital ;24 cm.
附註:	"Doctoral thesis accepted by the University of Patras, Patras, Greece."
內容註:	Introduction -- The Effect of Residual Hygrothermal Stresses on the Energy Release Rate and Mode Mixity of Interfacial Cracks in Beams With Bending-Extension Coupling -- Fracture Toughness of Metal-to-Composite Adhesive Joints with Bending-Extension Coupling and Residual Thermal Stresses.
Contained By:	Springer Nature eBook
標題:	Girders - Fracture. -
電子資源:	https://doi.org/10.1007/978-3-031-17621-0
ISBN:	9783031176210

Fracture analysis of layered beams with an elastically coupled behavior and hygrothermal stresses = application to metal-to-composite adhesive joints /
Tsokanas, Panayiotis.

Fracture analysis of layered beams with an elastically coupled behavior and hygrothermal stressesapplication to metal-to-composite adhesive joints /[electronic resource] :by Panayiotis Tsokanas. - Cham :Springer International Publishing :2023. - xxxi, 267 p. :ill., digital ;24 cm. - Springer theses,2190-5061. - Springer theses..

"Doctoral thesis accepted by the University of Patras, Patras, Greece."

Introduction -- The Effect of Residual Hygrothermal Stresses on the Energy Release Rate and Mode Mixity of Interfacial Cracks in Beams With Bending-Extension Coupling -- Fracture Toughness of Metal-to-Composite Adhesive Joints with Bending-Extension Coupling and Residual Thermal Stresses.

This book presents an analytical framework for calculating the fracture toughness of generally layered beam structures with an elastically coupled response and hygrothermal stresses. The beam under study features several peculiarities: it consists of multiple layers of dissimilar materials, features bending-extension coupling, and contains residual hygrothermal stresses. Here, a generic analytical model is proposed to compute the energy release rate and the mode mixity. Mechanics of composite materials, crack closure integral, and energetic methods are among the theoretical tools employed for developing the model. A wealth of new closed-form expressions is presented, together with their validation through finite element analyses, which enables investigating various material systems and testing configurations. Experimentalists will find directions for the design and interpretation of delamination tests on laminated composites with uncommon stacking sequences. At the same time, theoreticians can exploit the analytical solution as a benchmark test for more refined analytical and numerical models. Furthermore, the book gives novel insights into the fracture behavior of a titanium-to-CFRP adhesive joint, which is intended for application in the hybrid laminar flow control of a future aircraft. It reports on experiments and theoretical analyses that help understand the behavior of this novel joint. All in all, this book offers extensive updates on methods for fracture analysis of materials with an elastically coupled behavior and residual stresses. It addresses students, researchers, and engineers alike.

ISBN: 9783031176210

Standard No.: 10.1007/978-3-031-17621-0doiSubjects--Topical Terms:

3631543
Girders
--Fracture.

LC Class. No.: TA660.P59

Dewey Class. No.: 620.1126

Fracture analysis of layered beams with an elastically coupled behavior and hygrothermal stresses = application to metal-to-composite adhesive joints /
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520 $a This book presents an analytical framework for calculating the fracture toughness of generally layered beam structures with an elastically coupled response and hygrothermal stresses. The beam under study features several peculiarities: it consists of multiple layers of dissimilar materials, features bending-extension coupling, and contains residual hygrothermal stresses. Here, a generic analytical model is proposed to compute the energy release rate and the mode mixity. Mechanics of composite materials, crack closure integral, and energetic methods are among the theoretical tools employed for developing the model. A wealth of new closed-form expressions is presented, together with their validation through finite element analyses, which enables investigating various material systems and testing configurations. Experimentalists will find directions for the design and interpretation of delamination tests on laminated composites with uncommon stacking sequences. At the same time, theoreticians can exploit the analytical solution as a benchmark test for more refined analytical and numerical models. Furthermore, the book gives novel insights into the fracture behavior of a titanium-to-CFRP adhesive joint, which is intended for application in the hybrid laminar flow control of a future aircraft. It reports on experiments and theoretical analyses that help understand the behavior of this novel joint. All in all, this book offers extensive updates on methods for fracture analysis of materials with an elastically coupled behavior and residual stresses. It addresses students, researchers, and engineers alike.
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