S.M. Kandala scite author profile

S.M. Kandala

4Publications

0Citation Statements Received

0Citation Statements Given

How they've been cited

How they cite others

Affiliations

National Academy of Sciences of Ukraine, E.O. Paton Electric Welding Institute

Publications

Order By: Most citations

Mathematical modeling of residual stresses in WWER-1000 elements after heat treatment

Makhnenko¹,

Kandala²,

Basistyuk³

et al. 2021

Avtom. svarka (Kiev)

View full text Add to dashboard Cite

Визначення залишкового ресурсу та продовження терміну безпечної експлуатації внутрішньокорпусних пристроїв енергоблоків ВВЕР-1000 на понадпроектний період до 60 років є важливою науково-технічною задачею атомної енергетики України. У процесі тривалої експлуатації елементи внутрішньокорпусних пристроїв -вигородка та шахта внутрішньокорпусна -піддаються інтенсивному впливу ушкоджуючої радіаційної дози, що викликає процеси радіаційного окрихчення, розпухання і повзучості в матеріалі (аустенітна сталь 08Х18Н10Т). Врахування технологічних залишкових напружень після зварювання і наступної термообробки необхідно при розрахунковому обґрунтуванні ресурсу безпечної експлуатації елементів внутрішньокорпусних пристроїв. В роботі за допомогою математичного моделювання отримані розподіли залишкових напружень в об'ємі вигородки і шахти внутрішньокорпусної після електрошлакового зварювання й поля їх перерозподілу після технологічного процесу післязварювальної термообробки по режиму аустенізації. Визначено, що залишкові зварювальні напруження в процесі аустенізації в значній мірі релаксують, однак, у вигородці, яка має складну геометрію зі змінною товщиною стінки і охолоджуючими каналами, за рахунок виникнення в процесі аустенізації при охолодженні істотного градієнта температур утворюються високі залишкові напруження, які необхідно враховувати при визначенні ресурсу внутрішньокорпусних пристроїв ВВЕР-1000. Бібліогр. 8, рис. 8

show abstract

Improving the Methods for Estimating Radiation Swelling and Progressive Dimensional Changes of the Elements of VVER-1000 Internals

Makhnenko

Kandala

Cherkashin³

2019

Nucl. and Rad. Safe.

View full text Add to dashboard Cite

The problem in the computer prediction of radiation swelling in the elements of reactor internals when justifying VVER-1000 safe operation is quite relevant. In this regard, the approaches of the current Standard Program (PM-T.0.03.333-15) for assessing the technical condition and lifetime extension of VVER-1000 internals were considered. The paper presents various models of radiation swelling for 08Х18Н10Т steel of which elements of internals are made. A comparative analysis of the prediction results for various models has been performed. It is shown that the approaches of the current Standard Program, which take into account factors such as the stress-strain state and radiation creep of the material, are the most relevant. The influence of various fuel campaigns and their sequence on the nature of distribution and the maximum value of radiation swelling, as well as on the stress state in the baffle after long-term operation has been investigated. It is determined that the calculated stationary temperature distribution in the baffle may differ significantly depending on the input data on heat release and accumulated fluence, therefore, it must be calculated for each fuel campaign, and the calculation of the input data averaged for all fuel campaigns may lead to significant errors in the results. From the point of view of the reliability, it is also important to take into account the sequence of fuel campaigns, since, depending on the radiation swelling kinetics, the resulting baffle form can significantly change. The consequences of a possible decrease in cooling efficiency on the external surface of the baffle in the case of reducing the gap between the inner cavity and the baffle are considered, which may cause a local temperature increase in the baffle, but does not lead to a noticeable change in the radiation swelling. However, the radial displacement of the baffle due to thermal expansion increases significantly, which can cause an increase in stresses in the contact area, both in the wall of the cavity and in the baffle. According to the results of the computer analysis, recommendations were formulated to improve the approaches to estimating radiation swelling and progressive dimensional changes in the elements of VVER-1000 internals.

show abstract

Evaluation of brittle fracture resistance of WWER-1000 reactor enclosure during long-term service, taking into account the residual technological stresses

Makhnenko¹,

Kandala²

2022

Tekh. Diagnost. i Nerazrush. Kontrol

View full text Add to dashboard Cite

Numerical prediction of the state of beam products of different thickness during layer-by-layer electron beam surfacing

Milenin¹,

Velikoivanenko²,

Kozlitina³

et al. 2020

The Paton Welding J.

View full text Add to dashboard Cite

scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.

Contact Info

customersupport@researchsolutions.com

10624 S. Eastern Ave., Ste. A-614

Henderson, NV 89052, USA

This site is protected by reCAPTCHA and the Google Privacy Policy and Terms of Service apply.

Blog Terms and Conditions API Terms Privacy Policy Contact Cookie Preferences Do Not Sell or Share My Personal Information

Made with 💙 for researchers

Part of the Research Solutions Family.

S.M. Kandala

Mathematical modeling of residual stresses in WWER-1000 elements after heat treatment

Improving the Methods for Estimating Radiation Swelling and Progressive Dimensional Changes of the Elements of VVER-1000 Internals

Evaluation of brittle fracture resistance of WWER-1000 reactor enclosure during long-term service, taking into account the residual technological stresses

Numerical prediction of the state of beam products of different thickness during layer-by-layer electron beam surfacing

Contact Info

Product

Resources

About