Interlaminar mode III fracture ECT method - testing and analysis

Unknown Date

In an effort to obtain an improved mode III fracture toughness test suitable for a testing standard, mechanics analysis, experimental testing, and finite element analysis (FEA) have been conducted. Of particular concern are the merits of one-point and two-point edge crack torsion (ECT) test methods, the influence of specimen geometry that overhangs beyond load/support points, and the influence of crack length on the compliance and energy release rate. Shear stress distributions at the crack front are determined to examine the uniformity of mode III loading and mode II influence. The shear stress distributions in the one-point and two-point tests are virtually identical, indicating that either of the two tests could be used interchangeably. Based on the uniformity of the mode III shear stress distribution along the crack front, it was found that the ECT specimen should have minimum overhang. Longer crack lengths tend to produce nonuniform shear stress distributions. A modified two-point ECT test fixture was developed to allow testing of specimens with a range of dimensions. This development enabled experimental verification of the results from the FEA overhang series. The specimens with a minimum overhang produced consistant mode III toughness data. The most reliable way to reduce data is through the original compliance calibration method. A modified ECT specimen was developed with a staggered crack front to produce uniform mode III crack growth. Finite element analysis of the modified ECT specimen shows a uniform mode III stress distribution along the crack front with little mode II interaction. / by Grant Browning. / Thesis (M.S.C.S.)--Florida Atlantic University, 2009. / Includes bibliography. / Electronic reproduction. Boca Raton, Fla., 2009. Mode of access: World Wide Web.

Laminated materials--Testing

Fracture mechanics

Strength of materials--Testing

Composite materials--Testing

Friction produced by esthetic brackets with varying ligation

Abenoja, Christine Knox.

January 2008

Thesis (M.S.)--University of Alabama at Birmingham, 2008. / Title from first page of PDF file (viewed May 30, 2008). Includes bibliographical references.

FATIGUE CHARACTERISTICS OF AN ASPHALT STABILIZED DUNE SAND

Al Salloum, Nasser Mohammad, 1936-

January 1973

No description available.

Road materials -- Testing.

Soil stabilization.

Asphalt.

The design of an asphalt paving surface using a durable sandstone and an investigation of this aggregate's resistance to polishing action

Carson, George Arthur.

January 1962

Call number: LD2668 .T4 1962 C37

Asphalt concrete.

Road materials--Testing.

Masters theses

Structural analysis of stretched membrane reflector modules using advanced composites

Ganapathy, Visvanathan, 1957-

January 1987

The concept of achieving low cost (≈ $20/m²) and ultra low weight (5 kg/m²) for heliostats is explored theoretically and experimentally. The objective of this work is to significantly improve the cost and performance of the structure under concern, without sacrificing strength and efficiency. The focus is on an innovative design of stretched-membrane heliostats. A reflective membrane of thin film is supported by a taut fishnet structural membrane consisting of graphite fiber-polymer matrix composite. The reflective and structural membranes are attached to a ring frame made of wood. The nonlinear problem of stress-strain analysis is formulated and solved using the finite-element code NASTRAN. The analysis is done for loads which include the initial stretching of the film and structural membrane and the pressure load due to wind. The scope of the present work is limited to analyzing the structural deformation behavior of flat-plate heliostats and partial extension to parabolic and semi-hemispherical dish reflectors.

Solar collectors -- Testing.

Composite materials -- Testing.

Water sorption and resin hydrophilicity of dentin bonding agents

Dhanpal, Prashanth Kumar.

January 2007

published_or_final_version / Dentistry / Master / Master of Dental Surgery

Dental resins.

Dental adhesives.

Dental materials - Testing.

Hertzian indentation failure of dental restorative materials

Wang, Yan, 王焱

January 2005

published_or_final_version / abstract / Dentistry / Doctoral / Doctor of Philosophy

Dental glass ionomer cements.

Dental materials - Testing.

Self-etching primers and adhesives: aspects of microtensile bond strength, ultrastructure and nanoleakage

Chan, Kar-mun, 陳嘉敏

January 2002

published_or_final_version / Dentistry / Master / Master of Dental Surgery

Dental acid etching.

Dental materials - Testing.

Transient response of laminated composites with subsurface cracks.

Karim, Md. Rezaul.

January 1988

The dynamic response of subsurface cracks in fiber reinforced composites is analytically studied. The response of layered half-space and three-layered plate with two interface cracks excited by a plane SH-wave and line load respectively are studied by formulating the problem as integral equations in the frequency domain. The governing equations along with boundary, regularity and continuity conditions across the interface are reduced to a coupled set of singular integral equations by using Betti's reciprocal theorem along with the Green's functions. In addition, the transient response of an orthotropic half-space with a subsurface crack subjected to inplane line load at an arbitrary angle is analyzed. Two new Green's functions for the uncracked medium are developed and used along with the representation theorem to derive the scattered field. Satisfaction of the traction free condition at the crack surfaces gives rise to a system of singular integral equations. Singular integrals involved in the analysis are computed numerically by removing the poles. Part of the integrals containing the poles are then obtained analytically by using residue theorem. The solution of singular integral equations are obtained by expanding the unknown crack opening displacements (COD) in terms of a complete set of Chebychev polynomials. The problem is first solved in the frequency domain, the time histories are then obtained numerically by inverting the spectra via Fast Fourier Transform (FFT) routine. Numerical results are presented for isotropic and anisotropic materials for several different crack geometries. The results show significant influence of crack geometries and material properties on the COD and surface response of composites.

Composite materials -- Testing.

The determination of the buckling strength of reinforced concrete plates

Berman, Mark Yale

January 2010

Digitized by Kansas Correctional Industries

Plates (Engineering)

Building materials--Testing

Strength of materials