Derivation of 'γ' parameter from limit load expression of cracked component to evaluate J-R curve

被引:36
作者
Chattopadhyay, J [1 ]
Dutta, BK [1 ]
Kushwaha, HS [1 ]
机构
[1] Bhabha Atom Res Ctr, Reactor Safety Div, Trombay 400085, Mumbai, India
关键词
J-integral; 'eta' factor; 'gamma' function; J-R curve; limit load; pipe; elbow; crack;
D O I
10.1016/S0308-0161(01)00053-9
中图分类号
T [工业技术];
学科分类号
08 ;
摘要
Experimental evaluation of the J-integral requires the 'eta (pl)' function, proposed by Rice et al. [Progress in flaw growth and fracture toughness testing (1973) 231], to multiply the area under the load vs. plastic load-line-displacement curve. However, the J-integral, thus evaluated, requires modification if crack growth occurs. A 'gamma' term was proposed by Hutchinson and Paris [Elastic-plastic fracture (1979) 37] and later generalised by Ernst et al. [Fracture mechanics (1979) 581] and Ernst and Paris [Techniques of analysis of load-displacement records by J-integral methods (1980)] to correct the J-integral to account for crack growth. The eta (pl), and gamma functions are available for very few geometries under specific loading conditions. A limit load-based general expression of eta (pl) was given by Roos et al. [Int J Pres Ves Piping 23 (1986) 81], but no such expression is available for gamma functions. The advantage of having limit load-based general expressions for eta (pl) and gamma functions is that the limit load for a particular geometry subjected to a specific loading condition is easily available in the open literature. In the present paper, a limit load-based general expression for the gamma function is derived. The general expression is then validated by deriving the known gamma functions of various geometries subjected to various loading conditions, which are available in the open literature. The general expressions are then used to derive new eta (pl) and gamma functions for same pipe and elbow geometries with various crack configurations under different loading conditions, for which no solutions are available in the open literature. Finally, experiments have been carried out on 200 mm. nominal bore (NB) elbows with throughwall circumferential cracks under in-plane bending moment. The proposed new expressions of eta (pl) and gamma functions for this geometry are used to obtain the J-R curve from the experimental load vs. load-line-displacement and load vs. crack growth data. (C) 2001 Elsevier Science Ltd. All rights reserved.
引用
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页码:401 / 427
页数:27
相关论文
共 44 条
[1]  
*ASTM, 1999, 182099 ASTM E
[2]  
BEGLEY JA, 1972, ASTM STP, V514, P1
[3]   Leak-before-break qualification of primary heat transport piping of 500 MWe Tarapur atomic power plant [J].
Chattopadhyay, J ;
Dutta, BK ;
Kushwaha, HS .
INTERNATIONAL JOURNAL OF PRESSURE VESSELS AND PIPING, 1999, 76 (04) :221-243
[4]   Experimental and analytical study of three point bend specimen and throughwall circumferentially cracked straight pipe [J].
Chattopadhyay, J ;
Dutta, BK ;
Kushwaha, HS .
INTERNATIONAL JOURNAL OF PRESSURE VESSELS AND PIPING, 2000, 77 (08) :455-471
[5]   A DATABASE TO EVALUATE STRESS INTENSITY FACTORS OF ELBOWS WITH THROUGHWALL FLAWS UNDER COMBINED INTERNAL-PRESSURE AND BENDING MOMENT [J].
CHATTOPADHYAY, J ;
DUTTA, BK ;
KUSHWAHA, HS ;
MAHAJAN, SC ;
KAKODKAR, A .
INTERNATIONAL JOURNAL OF PRESSURE VESSELS AND PIPING, 1994, 60 (01) :71-83
[6]  
CHATTOPADHYAY J, 1998, BARC1997E017
[7]  
CHATTOPADHYAY J, 2000, T ASME, V122, P431
[8]  
CHATTOPADHYAY J, 1998, BARC1998E015
[9]  
Ernst H., 1981, ASTM SPEC TECH PUBL, V743, P476
[10]  
Ernst H, 1979, 677 ASTM STP, P581, DOI DOI 10.1520/STP34937S