A.D. Tzamtzis scite author profile

A.D. Tzamtzis

3Publications

58Citation Statements Received

54Citation Statements Given

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Affiliations

University of Thessaly, Technological Educational Institute of Athens, Aristotle University of Thessaloniki

Publications

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Improvement of fatigue crack growth resistance by controlled overaging in 2024‐T3 aluminium alloy

Tzamtzis

Kermanidis

2014

Fatigue Fract Eng Mat Struct

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A B S T R A C T A controlled overaging process is proposed to increase region II fatigue crack propagation resistance of 2024-T3 aluminium alloy. Overaging was achieved by subjecting the material from the initial T3 state to heat treatment at specific aging temperatures resulting in substantial reduction in hardness. Fatigue crack growth tests were subsequently performed in the intermediate ΔΚ region to assess the influence of aging treatment on fatigue crack propagation rate. The experimental results showed that overaging at high temperatures enhances the fatigue crack growth resistance of the material with regard to initial T3 state. Fatigue crack growth rates were found to decrease with increasing overaging temperature. Cyclic stress strain tests were performed to assess the impact of the performed overaging on cyclic behaviour. The results revealed that cyclic strain hardening is enhanced in the overaged material, contributing to increased fatigue crack closure levels.A 25 = elongation at fracture b = fatigue strength exponent C = parameter of Paris equation c = fatigue ductility exponent E = Young's modulus h = cyclic hardening capacity as a percentage increase of yield strength H = strength coefficient H' = cyclic strength coefficient m = Paris equation exponent n = strain hardening exponent n' = cyclic strain hardening exponent N f = fatigue life p = cumulated plastic strain P max = maximum applied load P min = minimum applied load P op = crack opening load Q = maximum amount of hardening R = stress/strain ratio V = crack opening displacement at points A,B in C(T) specimen V max = crack opening displacement at points A,B in C(T) specimen corresponding at P max V min = crack opening displacement at points A,B in C(T) specimen corresponding at P min V op = crack opening displacement at points A,B in C(T) specimen when crack surfaces come into contact β = driving rate of hardening ΔV = crack opening displacement range at points A,B in C(T) specimen Δε = total strain range Δε p = plastic strain range ΔΚ = stress intensity factor range Correspondence: A. Tzamtzis.

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Earthquake Resistant Design and Rehabilitation of Masonry Historical Structures

Tzamtzis

Vouthouni

Sophianopoulos

2005

Pract. Period. Struct. Des. Constr.

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A general methodology for the earthquake resistant design and rehabilitation of damaged masonry historical structures is presented. The whole process is illustrated through a case study: The rehabilitation of Zoodohos Pigi Holy Temple in Athens; a structure that suffered extensive damage during the September 1999 Athens earthquake. The procedures followed in the design, together with a description of the actions taken for the rehabilitation of the Temple and its strengthening against future earthquake actions, are reported.

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Nonlinear Seismic Response Analysis of Realistic Gravity Dam-Reservoir Systems

Tzamtzis¹

2003

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A.D. Tzamtzis

Improvement of fatigue crack growth resistance by controlled overaging in 2024‐T3 aluminium alloy

Earthquake Resistant Design and Rehabilitation of Masonry Historical Structures

Nonlinear Seismic Response Analysis of Realistic Gravity Dam-Reservoir Systems

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