11.
Gerdeen J.C.
A critical evaluation of plastic behavior data and a unified definition of
plastic loads for pressure components // WRC Bulletin. 1979. No. 254. P. 1–64.
12.
Muscat M.
,
Mackenzie D.
,
Hamilton R.
A work criterion for plastic collapse//
International Journal of Pressure Vessels and Piping. 2003. Vol. 80. No. 1. P. 49–
58.
13.
Скопинский В.Н.
Напряжения в пересекающихся оболочках. М.: АНО “Физмат-
лит”, 2008. 400 с.
14.
Скопинский В.Н.
,
Берков Н.А.
,
Вожова Н.В.
Новый критерий определения пре-
дельной нагрузки в сосудах давления с патрубками // Машиностроение и инже-
нерное образование. 2011. № 3. С. 50–57.
15.
Skopinsky V.N.
and
Berkov N.A.
New Criterion for the Definition of Plastic Limit
Load in Nozzle Connections of Pressure Vessels // J. Pressure Vessel Technol. 2013.
Vol. 135. No. 2, 021206 (Mar 18, 2013) (6 pages) doi:10.1115/1.4007188.
16.
Ильюшин А.А.
Пластичность. М.: ГИТТЛ, 1948. 376 с.
17.
Малинин Н.Н.
Прикладная теория пластичности и ползучести. М.: Машино-
строение, 1975. 400 с.
REFERENCES
[1] The Boiler and Pressure Vessel Code. Sections II and VIII, Division 1and 2.
Am.
Soc. Mech. Engineers. 2004 Ed. Publ. Cases Interpret. Iss. ASME.
New York. 2004.
[2] Specification for Unfired Fusion Welded Pressure Vessels.
Brit. St. Ins. BSI. PD
5500:2006.
London, 2006.
[3] Unfired Pressure Vessels. Part 3: Design.
Europ. Com. St. (CEN).
EN 13445. 2002.
[4] Skopinskiy V.N. On the problem of determination plastic the limit load for
intersecting shells.
Khimicheskoe i neftegazovoe mashinostroenie
[Chemical and
Petroleum Engineering], 2010, no. 6, pp. 18–21 (in Russ.).
[5] Semenenko A.N. Carring capability of the axisymmetric spherical shell both loaded
by internal pressure and conjugated with an open cylindrical pipe branch.
Izv. Vyssh.
Uchebn. Zaved., Mashinostr.
[Proc. Univ., Mech. Eng.], 1966, no. 4, pp. 27-34 (in
Russ.).
[6] Semenenko A.N. Carring capability of the axisymmetric spherical shell both loaded
by internal pressure and conjugated with a blank off cylindrical pipe branch.
Izv.
Vyssh. Uchebn. Zaved., Mashinostr.
[Proc. Univ., Mech. Eng.], 1966, no. 5, pp. 31–
37 (in Russ.).
[7] Palusamy S., Lind N.C. Influence of external loads on pressure carring capability of
outlet connections.
Int. Engrg. Ind.
, 1973, no. 2, pp. 113–120.
[8] Hsieh M.F., Moffat D.G., Mistry J. Nozzles in the knuckle region of a torispherical
head: limit load interaction under combined pressure and piping loads.
Int. J. Pressure
Vessels and Piping
, 2000, vol. 77, no. 13, pp. 807–815.
[9] Hsieh M.F., Moreton D.N., Mistry J., Moffat D.G. Limit loads for knuckle-
encroaching nozzles in torispherical heads: experimental verification of finite element
predictions.
J. Strain Analysis
, 2002, vol. 37, no. 4, pp. 313–326.
[10] Naruse T., Mackenzie D., Camilleri D. Gross plastic deformation of a hemi-spherical
head with cylindrical nozzle: a comparative study.
Proc. ASME 2007. Pressure Vessels
and Piping Conf.
San Antonio, Texas, USA. July 22–26. 2007, vol. 3: Design and
Analysis, pp. 431–438.
[11] Gerdeen J.C. A critical evaluation of plastic behavior data and a unified definition of
plastic loads for pressure components.
WRC Bulletin
, 1979, no. 254, pp. 1–64.
[12] Muscat M., Mackenzie D., Hamilton R. A work criterion for plastic collapse.
Int. J.
of Pressure Vessels and Piping
, 2003, vol. 80, no. 1, pp. 49–58.
[13] Skopinskiy V.N. Napryazheniya v peresekayushchikhsya obolochkakh [Stresses in
crossing shell]. Moscow, Fizmatlit Publ., 2008. 400 p.
ISSN 0236-3941. Вестник МГТУ им. Н.Э. Баумана. Сер. “Машиностроение” 2014. № 2 13
