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Îáùàÿ èíôîðìàöèÿÑòðóêòóðàÄîêóìåíòûÐåêòîðàòÑîòðóäíèêèÊîíòàêòûÑåðâèñû & ÐåñóðñûÊëóá 10Èñòîðèÿ ÞÔÓ

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Ñîâåò ðåêòîðîâ Þãà Ðîññèè

Ñåòåâîå âçàèìîäåéñòâèå âóçîâ Þãà Ðîññèè

Àäìèíèñòðàòèâíûé ïîðòàë

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Ñòðóêòóðà ÞÔÓ

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Ïîèñê ïî ñàéòó

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ïî ïîäðàçäåëåíèÿì

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Âõîä

Çàáûëè ïàðîëü?
Âû ñòóäåíò è çàáûëè ëîãèí?

Âû ñòóäåíò è åùå íå çàðåãèñòðèðîâàíû? Ðåãèñòðàöèÿ

Íàñåäêèí Àíäðåé Âèêòîðîâè÷

+7(863) 218-40-00 äîá. 14009; +7(8634) 68-08-90 äîá. 14009

+7(863) 297-52-82

Çâàíèå: Ïðîôåññîð

Ñòåïåíü: Äîêòîð ôèçèêî-ìàòåìàòè÷åñêèõ íàóê

ÞÔÓ801.01.09 - Ïðåäñåäàòåëü äèññåðòàöèîííîãî ñîâåòà

Êàôåäðà ìàòåìàòè÷åñêîãî ìîäåëèðîâàíèÿ - Çàâåäóþùèé êàôåäðîé

344090, §²§à§ã§ã§Ú§ñ, §Ô.§²§à§ã§ä§à§Ó-§ß§Ñ-§¥§à§ß§å, §å§Ý. §®§Ú§Ý§î§é§Ñ§Ü§à§Ó§Ñ 8§Ñ, §À§Ø§ß§í§Û §æ§Ö§Õ§Ö§â§Ñ§Ý§î§ß§í§Û §å§ß§Ú§Ó§Ö§â§ã§Ú§ä§Ö§ä, §ª§ß§ã§ä§Ú§ä§å§ä §Þ§Ñ§ä§Ö§Þ§Ñ§ä§Ú§Ü§Ú, §Þ§Ö§ç§Ñ§ß§Ú§Ü§Ú §Ú §Ü§à§Þ§á§î§ð§ä§Ö§â§ß§í§ç §ß§Ñ§å§Ü, §Ñ.219

E-mail:
Ýòîò e-mail àäðåñ çàùèùåí îò ñïàì-áîòîâ, äëÿ åãî ïðîñìîòðà ó Âàñ äîëæåí áûòü âêëþ÷åí Javascript Ýòîò e-mail àäðåñ çàùèùåí îò ñïàì-áîòîâ, äëÿ åãî ïðîñìîòðà ó Âàñ äîëæåí áûòü âêëþ÷åí Javascript
Ïåðñîíàëüíàÿ ñòðàíèöà:
https://sfedu.ru/person/avnasedkin
Ïåðñîíàëüíàÿ ñòðàíèöà íà àíãëèéñêîì:
https://sfedu.ru/en/person/avnasedkin

Èíôîðìàöèÿ îá ýêñïåðòíîé äåÿòåëüíîñòè:

Óðîâåíü: Ýêñïåðò ÐÀÍ
Íàó÷íîå íàïðàâëåíèå: Ìåõàíèêà, Ïðèêëàäíàÿ ìàòåìàòèêà
Êëþ÷åâûå ñëîâà: ìàòåìàòè÷åñêîå ìîäåëèðîâàíèå, ìåõàíèêà äåôîðìèðóåìîãî òâåðäîãî òåëà, ìåòîä êîíå÷íûõ ýëåìåíòîâ, ñâÿçàííûå ôèçèêî-ìåõàíè÷åñêèå ïîëÿ, ïüåçîýëåêòðè÷åñòâî, êîìïîçèòû, íàíîìåõàíèêà, ïîâåðõíîñòíûå ýôôåêòû, ìíîãîìàñøòàáíîñòü, äèíàìè÷åñêèå çàäà÷è, êîíòàêòíûå çàäà÷è, âçàèìîäåéñòâèå òâåðäûõ è àêóñòè÷åñêèõ ñðåä, ïüåçîýëåêòðè÷åñêèå óñòðîéñòâà
Óðîâåíü: Ýêñïåðò íàó÷íî-òåõíè÷åñêîé ñôåðû
Íàó÷íîå íàïðàâëåíèå: Ìåõàíèêà, Ïðèêëàäíàÿ ìàòåìàòèêà
Êëþ÷åâûå ñëîâà: ìàòåìàòè÷åñêîå ìîäåëèðîâàíèå
Óðîâåíü: Ýêñïåðò ÐÔÔÈ
Íàó÷íîå íàïðàâëåíèå: Ìåõàíèêà
Êëþ÷åâûå ñëîâà: ìåõàíèêà äåôîðìèðóåìîãî òâåðäîãî òåëà, âû÷èñëèòåëüíàÿ ìåõàíèêà
Óðîâåíü: Ýêñïåðò ÐÍÔ
Íàó÷íîå íàïðàâëåíèå: Ìåõàíèêà, Ïðèêëàäíàÿ ìàòåìàòèêà
Êëþ÷åâûå ñëîâà: ìîäåëèðîâàíèå, ìåòîä êîíå÷íûõ ýëåìåíòîâ, ñâÿçàííûå ôèçèêî-ìåõàíè÷åñêèå ïîëÿ, ïüåçîýëåêòðè÷åñòâî, êîìïîçèòû, íàíîìåõàíèêà, ïîâåðõíîñòíûå ýôôåêòû, ìíîãîìàñøòàáíîñòü, äèíàìè÷åñêèå çàäà÷è, êîíòàêòíûå çàäà÷è, âçàèìîäåéñòâèå òâåðäûõ è àêóñòè÷åñêèõ ñðåä

Äîïîëíèòåëüíàÿ èíôîðìàöèÿ:

§©§Ñ§Ó§Ö§Õ§å§ð§ë§Ú§Û §Ü§Ñ§æ§Ö§Õ§â§à§Û §Þ§Ñ§ä§Ö§Þ§Ñ§ä§Ú§é§Ö§ã§Ü§à§Ô§à §Þ§à§Õ§Ö§Ý§Ú§â§à§Ó§Ñ§ß§Ú§ñ §À§¶§µ (2014-§ß§Ñ§ã§ä. §Ó§â§Ö§Þ§ñ).

§¤§Ý§Ñ§Ó§ß§í§Û §ß§Ñ§å§é§ß§í§Û §ã§à§ä§â§å§Õ§ß§Ú§Ü §À§¶§µ (2014-§ß§Ñ§ã§ä. §Ó§â§Ö§Þ§ñ).

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1. §¶§Ö§Õ§Ö§â§Ñ§Ý§î§ß§à§Ö §Ñ§Ô§Ö§ß§ä§ã§ä§Ó§à §á§à §à§Ò§â§Ñ§Ù§à§Ó§Ñ§ß§Ú§ð, §æ§Ö§Õ§Ö§â§Ñ§Ý§î§ß§Ñ§ñ §è§Ö§Ý§Ö§Ó§Ñ§ñ §á§â§à§Ô§â§Ñ§Þ§Þ§Ñ "§¯§Ñ§å§é§ß§í§Ö §Ú §ß§Ñ§å§é§ß§à-§á§Ö§Õ§Ñ§Ô§à§Ô§Ú§é§Ö§ã§Ü§Ú§Ö §Ü§Ñ§Õ§â§í §Ú§ß§ß§à§Ó§Ñ§è§Ú§à§ß§ß§à§Û §²§à§ã§ã§Ú§Ú" §ß§Ñ 2009-2013 §Ô§à§Õ§í; §¤§à§ã§Ü§à§ß§ä§â§Ñ§Ü§ä §±401 §à§ä 30.07.2009, §®§à§Õ§Ö§Ý§Ú§â§à§Ó§Ñ§ß§Ú§Ö, §Õ§Ú§Ù§Ñ§Û§ß §Ú §ã§à§Ù§Õ§Ñ§ß§Ú§Ö §Ó§í§ã§à§Ü§à§ï§æ§æ§Ö§Ü§ä§Ú§Ó§ß§í§ç §á§î§Ö§Ù§à§Ü§à§Þ§á§à§Ù§Ú§ä§à§Ó, 2009-2011.

2. §²§¶§¶§ª, N 09-01-00875-§Ñ, §®§Ñ§ä§Ö§Þ§Ñ§ä§Ú§é§Ö§ã§Ü§à§Ö §Þ§à§Õ§Ö§Ý§Ú§â§à§Ó§Ñ§ß§Ú§Ö §Ú §Ü§à§Þ§á§î§ð§ä§Ö§â§ß§í§Û §Õ§Ú§Ù§Ñ§Û§ß §ß§à§Ó§í§ç §Ó§Ú§Õ§à§Ó §Ñ§Ü§ä§Ú§Ó§ß§í§ç §Ü§à§Þ§á§à§Ù§Ú§è§Ú§à§ß§ß§í§ç §Þ§Ñ§ä§Ö§â§Ú§Ñ§Ý§à§Ó §Ú §å§ã§ä§â§à§Û§ã§ä§Ó §ß§Ñ §Ú§ç §à§ã§ß§à§Ó§Ö, 2009-2011.

3. §®§Ú§ß§à§Ò§â§ß§Ñ§å§Ü§Ú, §Ù§Ñ§Õ§Ñ§ß§Ú§Ö §®§Ú§ß§à§Ò§â§ß§Ñ§å§Ü§Ú §²§à§ã§ã§Ú§Ú §ß§Ñ §á§â§à§Ó§Ö§Õ§Ö§ß§Ú§Ö §ß§Ñ§å§é§ß§í§ç §Ú§ã§ã§Ý§Ö§Õ§à§Ó§Ñ§ß§Ú§Û, §£§¸§± "§²§Ñ§Ù§Ó§Ú§ä§Ú§Ö §ß§Ñ§å§é§ß§à§Ô§à §á§à§ä§Ö§ß§è§Ú§Ñ§Ý§Ñ §Ó§í§ã§ê§Ö§Û §ê§Ü§à§Ý§í", 1.4.11, §µ§ä§à§é§ß§Ö§ß§ß§à§Ö §Þ§Ñ§ä§Ö§Þ§Ñ§ä§Ú§é§Ö§ã§Ü§à§Ö §Ú §Ü§à§ß§Ö§é§ß§à-§ï§Ý§Ö§Þ§Ö§ß§ä§ß§à§Ö §Þ§à§Õ§Ö§Ý§Ú§â§à§Ó§Ñ§ß§Ú§Ö §Ñ§Ü§ä§Ú§Ó§ß§í§ç §Ü§à§Þ§á§à§Ù§Ú§è§Ú§à§ß§ß§í§ç §Þ§Ñ§ä§Ö§â§Ú§Ñ§Ý§à§Ó §Ú §á§î§Ö§Ù§à§ï§Ý§Ö§Ü§ä§â§Ú§é§Ö§ã§Ü§Ú§ç §å§ã§ä§â§à§Û§ã§ä§Ó §Ú§Ù §Ü§à§Þ§á§à§Ù§Ú§è§Ú§à§ß§ß§í§ç §Þ§Ñ§ä§Ö§â§Ú§Ñ§Ý§à§Ó, 2011.

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5. §²§¶§¶§ª, N 13-01-00943-§Ñ, §®§à§Õ§Ö§Ý§Ú§â§à§Ó§Ñ§ß§Ú§Ö, §Ñ§ß§Ñ§Ý§Ú§Ù §Ú §Õ§Ú§Ù§Ñ§Û§ß §Ó§í§ã§à§Ü§à§ï§æ§æ§Ö§Ü§ä§Ú§Ó§ß§í§ç §Ñ§Ü§ä§Ú§Ó§ß§í§ç §Ü§à§Þ§á§à§Ù§Ú§ä§à§Ó §â§Ñ§Ù§Ý§Ú§é§ß§à§Û §ã§Ó§ñ§Ù§ß§à§ã§ä§Ú, 2013-2015.

6. §À§¶§µ, §á§â§à§Ô§â§Ñ§Þ§Þ§Ñ §â§Ñ§Ù§Ó§Ú§ä§Ú§ñ §À§¶§µ, N 213.01-24/2013-75, §®§Ñ§ä§Ö§Þ§Ñ§ä§Ú§é§Ö§ã§Ü§à§Ö §Þ§à§Õ§Ö§Ý§Ú§â§à§Ó§Ñ§ß§Ú§Ö §Ú §Ü§à§Þ§á§î§ð§ä§Ö§â§ß§í§Û §Õ§Ú§Ù§Ñ§Û§ß §á§î§Ö§Ù§à§ï§Ý§Ö§Ü§ä§â§Ú§é§Ö§ã§Ü§Ú§ç §å§ã§ä§â§à§Û§ã§ä§Ó §ã §å§é§Ö§ä§à§Þ §Þ§Ú§Ü§â§à§ã§ä§â§å§Ü§ä§å§â§í §Þ§Ñ§ä§Ö§â§Ú§Ñ§Ý§à§Ó, §ä§Ö§Þ§á§Ö§â§Ñ§ä§å§â§ß§í§ç §Ú §Ñ§Ü§å§ã§ä§Ú§é§Ö§ã§Ü§Ú§ç §á§à§Ý§Ö§Û §Ú §á§à§Ó§Ö§â§ç§ß§à§ã§ä§ß§í§ç §ï§æ§æ§Ö§Ü§ä§à§Ó, 2013.

7. §®§Ú§ß§à§Ò§â§Ñ§Ù§à§Ó§Ñ§ß§Ú§Ö, N 1105, §°§â§Ô§Ñ§ß§Ú§Ù§Ñ§è§Ú§ñ §á§â§à§Ó§Ö§Õ§Ö§ß§Ú§ñ §ß§Ñ§å§é§ß§í§ç §Ú§ã§ã§Ý§Ö§Õ§à§Ó§Ñ§ß§Ú§Û, 213.01/§°§±§¯§ª 009, §Ô§à§ã§Ù§Ñ§Õ§Ñ§ß§Ú§Ö §®§Ú§ß§à§Ò§â§Ñ§Ù§à§Ó§Ñ§ß§Ú§ñ, 2014-2016.

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§£ 2005 §Ô. §ß§Ñ§Ô§â§Ñ§Ø§Õ§Ö§ß §ß§Ñ§Ô§â§å§Õ§ß§í§Þ §Ù§ß§Ñ§Ü§à§Þ "§±§à§é§Ö§ä§ß§í§Û §â§Ñ§Ò§à§ä§ß§Ú§Ü §Ó§í§ã§ê§Ö§Ô§à §á§â§à§æ§Ö§ã§ã§Ú§à§ß§Ñ§Ý§î§ß§à§Ô§à §à§Ò§â§Ñ§Ù§à§Ó§Ñ§ß§Ú§ñ §²§¶" §Ù§Ñ §ß§Ñ§å§é§ß§å§ð §Ú §à§â§Ô§Ñ§ß§Ú§Ù§Ñ§è§Ú§à§ß§ß§å§ð §â§Ñ§Ò§à§ä§å §Ó §¯§ª§ª§® §Ú §±§® §²§¤§µ (§À§¶§µ), §Ó 2000 §Ô§à§Õ§å ; §á§à§é§Ö§ä§ß§à§Û §Ô§â§Ñ§Þ§à§ä§à§Û §®§Ú§ß§Ú§ã§ä§Ö§â§ã§ä§Ó§Ñ §à§Ò§â§Ñ§Ù§à§Ó§Ñ§ß§Ú§ñ §²§à§ã§ã§Ú§Û§ã§Ü§à§Û §¶§Ö§Õ§Ö§â§Ñ§è§Ú§Ú.

§£ 2014 §Ô. §ß§Ñ§Ô§â§Ñ§Ø§Õ§Ö§ß §Õ§Ú§á§Ý§à§Þ§à§Þ §â§Ö§Ü§ä§à§â§Ñ §À§¶§µ §Ó §ß§à§Þ§Ú§ß§Ñ§è§Ú§Ú "§­§Ú§Õ§Ö§â §Ó §à§Ò§â§Ñ§Ù§à§Ó§Ñ§ß§Ú§Ú".

§¡§Ó§ä§à§â §Ò§à§Ý§Ö§Ö 350 §ß§Ñ§å§é§ß§í§ç §Ú §Þ§Ö§ä§à§Õ§Ú§é§Ö§ã§Ü§Ú§ç §â§Ñ§Ò§à§ä.

§µ§é§Ö§Ò§ß§í§Ö §á§à§ã§à§Ò§Ú§ñ (§Õ§à§ã§ä§å§á§ß§í §á§à§Ý§ß§í§Ö §ä§Ö§Ü§ã§ä§í):

¡ñ Nasedkin A.V., Nasedkina A.A. Finite element modeling of coupled problems: textbook / Rostov-on-Don: publishing house of Southern Federal University, 2015. 174 p. (ISBN 978-5-9275-1611-7, §²§ª§¯§¸, http://elibrary.ru/item.asp?id=24892908, http://hub.sfedu.ru/allocator/files/9da5704a-1e6a-41f7-b478-1822b5ca79a3/ )

¡ñ §¯§Ñ§ã§Ö§Õ§Ü§Ú§ß §¡.§£. §®§à§Õ§Ö§Ý§Ú§â§à§Ó§Ñ§ß§Ú§Ö §á§î§Ö§Ù§à§ï§Ý§Ö§Ü§ä§â§Ú§é§Ö§ã§Ü§Ú§ç §á§â§Ö§à§Ò§â§Ñ§Ù§à§Ó§Ñ§ä§Ö§Ý§Ö§Û §Ó ANSYS: §å§é§Ö§Ò§ß§à§Ö §á§à§ã§à§Ò§Ú§Ö. §²§à§ã§ä§à§Ó-§ß§Ñ-§¥§à§ß§å: §Ú§Ù§Õ-§Ó§à §À§¶§µ, 2015. 176 §ã. (ISBN 978-5-9275-1751-0, §²§ª§¯§¸, http://elibrary.ru/item.asp?id=25433397 , http://hub.sfedu.ru/allocator/files/0f9eec46-750e-4b66-81f6-8a078c67400b/ )


§¯§Ö§Ü§à§ä§à§â§í§Ö §Ú§Ù §á§å§Ò§Ý§Ú§Ü§Ñ§è§Ú§Û §á§à§ã§Ý§Ö§Õ§ß§Ú§ç §Ý§Ö§ä (§ß§Ñ §Ñ§ß§Ô§Ý§Ú§Û§ã§Ü§à§Þ §ñ§Ù§í§Ü§Ö):

¡ñ Eremeev V.A., Nasedkin A.V. Natural vibrations of nanodimensional piezoelectric bodies with contact-type boundary conditions // Mechanics of Solids. 2015. V. 50, No. 5. P. 495-507. (Scopus, doi: 10.3103/S0025654415050027)

¡ñ Nasedkin A.V. Finite element design of piezoelectric and magnetoelectric composites by using symmetric saddle algorithms / Advanced Materials - Studies and Applications. Eds. I.A. Parinov, S.-H. Chang, S. Theerakulpisut. Nova Science Publishers, N.-Y., 2015. Ch. 9. P. 109-124. (Scopus, ISBN: 978-1-63463-749-7 https://www.novapublishers.com/catalog/product_info.php?products_id=53074)

¡ñ Rybyanets A.N., Nasedkin A.V., Naumenko A.A., Shvetsova N.A., Lugovaya M.A., Petrova E.I. Optimization of finite element models for porous ceramic piezoelements by piezoelectric resonance analysis method / Advanced Materials - Studies and Applications. Eds. I.A. Parinov, S.-H. Chang, S. Theerakulpisut. Nova Science Publishers, N.-Y., 2015. Ch. 11. P. 147-168. (Scopus, ISBN: 978-1-63463-749-7 https://www.novapublishers.com/catalog/product_info.php?products_id=53074)

¡ñ  Nasedkin A.V., Shevtsova M.S., Chang S.-H. Optimal design of underwater acoustic projector with active elements made from porous piezoceramics / Advanced Materials - Physics, Mechanics and Applications. Springer Proceedings in Physics. Vol. 152. Chang S.-H., Parinov I., Topolov V. (Eds.). Springer International Publishing AG, Cham, Switzerland. 2014. Ch. 20. P. 249-260. (Scopus, http://www.springer.com/978-3-319-03748-6, DOI: 10.1007/978-3-319-03749-3_20, DOI: 10.1007/978-3-319-03749-3_20)

¡ñ  Iovane G., Nasedkin A.V. New model for piezoelectric medium with voids for application to analysis of ultrasonic piezoelectric transducers and porous piezocomposites / Advanced Nano- and Piezoelectric Materials and their Applications. Ed. I.A. Parinov. Nova Science Publishers, N.-Y., 2014. Ch. 6. P. 145-170. (Scopus, ISBN: 978-1-63321-239-8; https://www.novapublishers.com/catalog/product_info.php?products_id=50250)

¡ñ  Nasedkin A.V. Modeling of magnetoelectric composites by effective moduli and finite element methods. Theoretical approaches // Ferroelectrics. 2014. V. 461, No. 1. P. 106-112. (Scopus; DOI:10.1080/00150193.2014.890006, Scopus SJR 0.286, IPP 0.456, SNIP 0.435; 2013 JCR Science Edition: Impact Factor: 0.383, 5-Year Impact Factor: 0.455)

¡ñ  Nasedkin A.V., Eremeyev V.A. Harmonic vibrations of nanosized piezoelectric bodies with surface effects // Z. Angew. Math. Mech. (ZAMM). 2014. V. 94, No. 10, P. 878;892. (Scopus; DOI: 10.1002/zamm.201300085, Scopus SJR 0.630, IPP 0.956, SNIP 1.143; 2013 JCR Science Edition: Impact Factor: 1.008)

¡ñ  Nasedkin A.V., Shevtsova M.S., Liu J. C., Chang S. H., Wu J. K. Multiobjective optimization of an underwater acoustic projector with porous piezocomposite active element // Proceedings of the OCEANS'14 MTS/IEEE Conference, Taipei, Taiwan, 7 10 April 2014. 6 p. (Scopus; DOI: 10.1109/OCEANS-TAIPEI.2014.6964564) 

¡ñ  Nasedkin A.V. Multiscale computer design of piezomagnetoelectric mixture composite structures // AIP Conference Proceedings. 2014. V. 1627. P. 64-69. (Web of Science, doi: 10.1063/1.4901659)

¡ñ  Nasedkin A.V., Eremeyev V.A. Modeling of nanosized piezoelectric and magnetoelectric bodies with surface effects // AIP Conference Proceedings. 2014. V. 1627. P. 70-75. (Web of Science, doi: 10.1063/1.4901660)

¡ñ  Nasedkin A., Skaliukh A., Soloviev A. New models of coupled active materials for finite element package ACELAN // AIP Conference Proceedings. 2014. V. 1637. P. 714-723. (Web of Science, doi: 10.1063/1.4904643)

¡ñ  Danilchenko S.A., Nasedkin A.V. Finite element simulation of contact problems for multilayered antifriction nanomodified covering and for nanosized bodies with surface effects // Proceedings of the Twelfth International Conference on Computational Structures Technology, B.H.V. Topping and P. Iv¨¢nyi, (Editors), Civil-Comp Press, Stirlingshire, United Kingdom, paper 203, 2014. 13 p. (doi: 10.4203/ccp.106.203)

¡ñ  Nasedkin A.V., Shevtsova M.S. Multiscale computer simulation of piezoelectric devices with elements from porous piezoceramics / Physics and mechanics of new materials and their applications. Eds. I.A. Parinov and S.-H. Chang. Nova Science Publishers, N.-Y., 2013. Ch. 16. P. 185-202. (Scopus, ISBN:978-1-62618-535-7)

¡ñ  Nasedkin A.V., Eremeyev V.A. Spectral properties of piezoelectric bodies with surface effects / Advanced Structured Materials. V.30. Surface effects in solid mechanics - Models, Simulations and Applications. Eds. H.Altenbach, N.F.Morozov. Springer-Verlag Berlin Heidelberg, 2013. P.105-121. (DOI:10.1007/978-3-642-35783-1_9, Scopus SJR 0.107, SNIP  0.122)

¡ñ  Iovane G., Nasedkin A.V. Coupled finite element acoustopiezoelectric analysis of piezomaterials with voids and ultrasonic transducers from porous piezoceramics // Journal of Coupled Systems and Multiscale Dynamics. 2013. V.1, No. 3. P. 393-403. (http://www.aspbs.com/jcsmd/)

¡ñ  Nasedkin A.V., Shevtsova M.S., Liu J.-C., Chang S.-H., Wu J.-K. Multiobjective optimal design of underwater acoustic projector with porous piezocomposite active elements // Journal of Applied Mathematics and Physics. 2013. V.1, No.6. P. 89-94. (http://www.scirp.org/journal/jamp, DOI: 10.4236/jamp.2013.16017)

¡ñ  Nasedkin A.V., Nasedkina A.A. Finite element modeling and computer design of porous composites // Poromechanics V. Proc. of the Fifth Biot Conference on Poromechanics. July 10-12, 2013, Vienna, Austria. Eds. Hellmich C., Pichler B., Adam D. Publ. ASCE, 2013. P. 608-617. (Scopus; DOI: 10.1061/9780784412992.072)

¡ñ  Nasedkin A.V., Shevtsova M.S. Improved finite element approaches for modeling of porous piezocomposite materials with different connectivity / Ferroelectrics and superconductors: Properties and applications. Ed. I.A. Parinov. Nova Science Publishers, N.-Y., 2011. Ch.7. P.231-254. (Scopus, ISBN: 978-1-61324-518-7)

¡ñ  Nasedkin A.V., Shikhman V.M., Zakharova S.V. Finite element calculation of high-temperature acoustic emission transducers // Russian Journal of Nondestructive Testing. 2011. Vol. 47, N. 7. P. 468-479. (Scopus; DOI: 10.1134/S1061830911070060, Scopus SJR 0.206, IPP 0.262, SNIP 0.705; 2013 JCR Science Edition: Impact Factor: 0.350)

¡ñ  Nasedkin A.V. Some finite element methods and algorithms for solving acousto-piezoelectric problems / Piezoceramic materials and devices. Ed. I.A. Parinov. Nova Science Publishers, N.-Y., 2010. P.177-218. (Scopus, ISBN: 978-1-60876-459-4)

¡ñ  Iovane G., Nasedkin A.V. Modal analysis of piezoelectric bodies with voids. I. Mathematical approaches  // Applied Mathematical Modelling. 2010. V.34, No.1. P. 60-71. (Scopus; DOI: 10.1016/j.apm.2009.03.028, Scopus SJR 1.153, IPP 2.532, SNIP 1.940; 2013 JCR Science Edition: Impact Factor: 2.158)

¡ñ  Iovane G., Nasedkin A.V. Modal analysis of piezoelectric bodies with voids. II. Finite element simulation  // Applied Mathematical Modelling. 2010. V.34, No.1. P. 47-59. (Scopus; DOI: 10.1016/j.apm.2009.03.027, Scopus SJR 1.153, IPP 2.532, SNIP 1.940; 2013 JCR Science Edition: Impact Factor: 2.158)

¡ñ  Iovane G., Nasedkin A.V. Some finite element approaches with symmetric matrices for modelling of porous piezocomposite devices under acoustic and electric loads // CD-Rom Proceedings of the Tenth International Conference on Computational Structures Technology. CST-2010. Valencia, Spain, 14 - 17 September 2010. B.H.V. Topping, J.M. Adam, F.J. Pallar¨¦s, R. Bru and M.L. Romero, (Editors). Civil-Comp Press, Stirlingshire, UK, 2010. Paper 282. 20 p. (Scopus; doi: 10.4203/ccp.93.282)

¡ñ  Chebakov M.I., Kolesnikov V.I., Kolosova E.M., Nasedkin A.V. Finite element analysis of contact problems with complicated properties // CD-Rom Proceedings of the Tenth International Conference on Computational Structures Technology. CST-2010. Valencia, Spain, 14 - 17 September 2010. B.H.V. Topping, J.M. Adam, F.J. Pallar¨¦s, R. Bru and M.L. Romero, (Editors). Civil-Comp Press, Stirlingshire, UK, 2010. Paper 9. 17 p. (Scopus; doi:10.4203/ccp.93.9)


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