Development of Permeability and Mechanical Properties of Class G Cement from Slurry to Set

Maharidge, Russell; Bottiglieri, A.; Dighe, Shailesh; Holley, Andrew C.; Zhang, H.; Koch, Amber

doi:10.2118/181512-ms

Cited by 6 publications

(2 citation statements)

References 4 publications

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“…The incremental form of constitutive equation for the cement skeleton is also employed in Hua et al (1995) and Zhen & Xiong (2013) to calculate the volumetric shrinkage strain. Experimental observations (Maharidge et al 2016;Teodoriu et al 2012) indicate that the stiffness of early-age cement increases significantly with time. In this study, the incremental linear isotropic elasticity with time-varying stiffness is employed to model the observed cement shrinkage behaviour.…”

Section: Mechanism Of Cement Shrinkagementioning

confidence: 99%

Water absorption and shrinkage behaviour of early-age cement in wellbore annulus

Sasaki

Soga

Abuhaikal

2018

Journal of Petroleum Science and Engineering

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Section: Mechanism Of Cement Shrinkagementioning

confidence: 99%

Water absorption and shrinkage behaviour of early-age cement in wellbore annulus

Sasaki

Soga

Abuhaikal

2018

Journal of Petroleum Science and Engineering

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“…The mechanical properties of the cement pastes are highly dependent on the curing conditions, which vary along the wellbore depth and corresponding to the exposure to the formation fluids with different conditions [85][86][87]. It is worth noting that the cement pastes used in the oil and gas industry has very low permeability [88]. Therefore, hydraulic isolation is attained straightforwardly, and any probable leakage can only happen through mechanical failures of the cement sheath [89].…”

Section: Api Specification For Oil Well Cementsmentioning

confidence: 99%

Chemo-Physico-Mechanical Behavior of Class G Oil Well Cement Pastes

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The Need of NMR Cement Properties Characterization and Lesson Learned

Ichim

Saleh

Teodoriu

et al. 2019

Day 2 Wed, April 10, 2019

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Cement is a key element for successful drilling and completing of a well. From oil and gas wells to geothermal applications, cement is a major material ensuring zonal isolation. With an increase in global energy needs and an expected uptick in drilling and plugging and abandonment activities, evaluating and understanding cement properties is crucial, since these properties are used in various engineering designs and calculations. The objective of this paper is to present how Nuclear Magnetic Resonance (NMR) can be used to understand the cement hydration process and the development of key properties such as strength and porosity. NMR applications for cement include determination of porosity, water interactions, identification of hydration stages and C-S-H gel development with curing time. Since water is present in all cement slurries, NMR can potentially help to understand microstructural changes in cement during curing. Data from more than 600 cement specimens cured for more than a year are compiled. Standard cement properties such as UCS (unconfined compressive strength) are compared with NMR responses. In this paper, we document cement hydration and porosity changes through NMR measurements in samples with five different recipes. Our study also confirms a strong correlation between NMR response and cement strength.

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Development of Permeability and Mechanical Properties of Class G Cement from Slurry to Set

Cited by 6 publications

References 4 publications

Water absorption and shrinkage behaviour of early-age cement in wellbore annulus

Water absorption and shrinkage behaviour of early-age cement in wellbore annulus

Chemo-Physico-Mechanical Behavior of Class G Oil Well Cement Pastes

The Need of NMR Cement Properties Characterization and Lesson Learned

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