64 research outputs found
Investigating in-service failures of water pipes from a multiaxial notch fatigue point of view: A conceptual study
Many mechanisms and processes can cause deterioration and ultimately failure of water distribution pipes during
in-service operation, amongst these is damage caused by metal fatigue. This paper summarises an attempt at formalising
a novel methodology suitable for estimating the number of years taken for a through thickness fatigue crack to form in
this complex scenario. The devised method is based on the so-called modified Wošhler curve method and can be applied
to estimate fatigue damage of water pipes independently from the degree of multiaxiality and non-proportionality of the
load history. The computational approach of the proposed fatigue life estimation technique makes full use of an incremental
procedure: fatigue damage is evaluated year by year by assuming that all variable involved in the process can
change over time. The detrimental effect of corrosion pits is directly accounted for by treating them as conventional
notches whose size increases with time. Finally, by taking as reference information the number of years for a blowout
hole to form, the proposed approach is used to show how the lifetime of grey cast iron pipes can be remarkably
shortened by fatigue
Proportional/non-proportional constant/variable amplitude multiaxial notch fatigue: cyclic plasticity, non-zero mean stresses, and critical distance/plane
This paper deals with the formulation and experimental validation of a novel fatigue lifetime estimation technique suitable for assessing the extent of damage in notched metallic materials subjected to inâservice proportional/nonproportional constant/variable amplitude multiaxial load histories. The methodology being formulated makes use of the Modified MansonâCoffin Curve Method, the Shear StrainâMaximum Variance Method, and the elastoâplastic Theory of Critical Distances, with the latter theory being applied in the form of the Point Method. The accuracy and reliability of our novel fatigue lifetime estimation technique were checked against a large number of experimental results we generated by testing, under proportional/nonproportional constant/variable amplitude axialâtorsional loading, Vânotched cylindrical specimens made of unalloyed mediumâcarbon steel En8 (080M40). Specific experimental trials were run to investigate also the effect of nonâzero mean stresses as well as of different frequencies between the axial and torsional stress/strain components. This systematic validation exercise allowed us to demonstrate that our novel multiaxial fatigue assessment methodology is remarkably accurate, with the estimates falling within an error factor of 2. By modelling the cyclic elastoâplastic behaviour of metals explicitly, the design methodology being formulated and validated in the present paper offers a complete solution to the problem of estimating multiaxial fatigue lifetime of notched metallic materials, with this holding true independently of sharpness of the stress/strain raiser and complexity of the load history
Prevention of catheter lumen occlusion with rT-PA versus heparin (Pre-CLOT): study protocol of a randomized trial [ISRCTN35253449]
BACKGROUND: Many patients with end-stage renal disease use a central venous catheter for hemodialysis access. A large majority of these catheters malfunction within one year of insertion, with up to two-thirds due to thrombosis. The optimal solution for locking the catheter between hemodialysis sessions, to decrease the risk of thrombosis and catheter malfunction, is unknown. The Prevention of Catheter Lumen Occlusion with rt-PA versus Heparin (PreCLOT) study will determine if use of weekly rt-PA, compared to regular heparin, as a catheter locking solution, will decrease the risk of catheter malfunction. METHODS/DESIGN: The study population will consist of patients requiring chronic hemodialysis thrice weekly who are dialyzed with a newly inserted permanent dual-lumen central venous catheter. Patients randomized to the treatment arm will receive rt-PA 1 mg per lumen once per week, with heparin 5,000 units per ml as a catheter locking solution for the remaining two sessions. Patients randomized to the control arm will receive heparin 5,000 units per ml as a catheter locking solution after each dialysis session. The study treatment period will be six months, with 340 patients to be recruited from 14 sites across Canada. The primary outcome will be catheter malfunction, based on mean blood flow parameters while on hemodialysis, with a secondary outcome of catheter-related bacteremia. A cost-effectiveness analysis will be undertaken to assess the cost of maintaining a catheter using rt-PA as a locking solution, compared to the use of heparin. DISCUSSION: Results from this study will determine if use of weekly rt-PA, compared to heparin, will decrease catheter malfunction, as well as assess the cost-effectiveness of these locking solutions
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