Menu



Exportar registro bibliográfico

Metrics:

Artigo de periodico

Revised wide range compliance solutions for selected standard and non-standard fracture test specimens based on crack mouth opening displacement (2017)

  • Authors:
  • Autor USP: RUGGIERI, CLAUDIO - EP
  • Unidade: EP
  • DOI: 10.1007/s10704-017-0189-z
  • Subjects: MECÂNICA DA FRATURA; RESISTÊNCIA DOS MATERIAIS; FADIGA DOS MATERIAIS; TENACIDADE DOS MATERIAIS
  • Language: Inglês
  • Imprenta:
  • Source:
    • DOI
    Informações sobre o DOI: 10.1007/s10704-017-0189-z (Fonte: oaDOI API)
    • Este periódico é de assinatura
    • Este artigo NÃO é de acesso aberto
    • Cor do Acesso Aberto: closed
    How to cite
    A citação é gerada automaticamente e pode não estar totalmente de acordo com as normas

    • ABNT

      SOUZA, Rodolfo Ferronatto de; RUGGIERI, Claudio. Revised wide range compliance solutions for selected standard and non-standard fracture test specimens based on crack mouth opening displacement. Engineering Fracture Mechanics, Kidlington, v. 178, p. 77-92, 2017. DOI: 10.1007/s10704-017-0189-z.

    • APA

      Souza, R. F. de, & Ruggieri, C. (2017). Revised wide range compliance solutions for selected standard and non-standard fracture test specimens based on crack mouth opening displacement. Engineering Fracture Mechanics, 178, 77-92. doi:10.1007/s10704-017-0189-z

    • NLM

      Souza RF de, Ruggieri C. Revised wide range compliance solutions for selected standard and non-standard fracture test specimens based on crack mouth opening displacement. Engineering Fracture Mechanics. 2017 ; 178 77-92.

    • Vancouver

      Souza RF de, Ruggieri C. Revised wide range compliance solutions for selected standard and non-standard fracture test specimens based on crack mouth opening displacement. Engineering Fracture Mechanics. 2017 ; 178 77-92.

    Referências citadas na obra
    American Petroleum Institute (2007a) Fitness-for-service, API RP-579-1/ASME FFS-1
    American Petroleum Institute (2007b) Specification for line pipe, API 5L
    American Society for Testing and Materials (2009) Standard specification for nickel–chromium-molybdenum–columbium alloy (UNS N06625) and nickel–chromium–mlybdenum–slicon alloy (UNS N06219) plate, sheet, and strip, ASTM B443-00
    American Society for Testing and Materials (2011a) Standard specification for nickel–chromium-molybdenum–columbium alloys (UNS N06625 and UNS N06852) and nickel–chromium–molybdenum–silicon alloy (UNS N06219) pipe and tube, ASTM B444-06
    American Society for Testing and Materials (2011b) Standard test method for measurement of fracture toughness, ASTM E1820-2011
    American Society for Testing and Materials (2011c) Standard test methods for tension testing of metallic materials, ASTM E8-11
    American Society for Testing and Materials (2015) Standard test method for measurement of fracture toughness, ASTM E1820-2015
    Anderson TL (2005) Fracture mechanics: fundaments and applications, 3rd edn. CRC Press, Boca Raton
    British Institution (2014) Method of test for determination of fracture toughness in metallic materials using single edge notched tension (SENT) specimens, BS 8571
    Cravero S, Ruggieri C (2005) Correlation of fracture behavior in high pressure pipelines with axial flaws using constraint designed test specimens–part I: plane-strain analyses. Eng Fract Mech 72:1344–1360
    Cravero S, Ruggieri C (2007a) Estimation procedure of J-resistance curves for SE(T) fracture specimens using unloading compliance. Eng Fract Mech 74:2735–2757
    Cravero S, Ruggieri C (2007b) Further developments in J evaluation procedure for growing cracks based on LLD and CMOD data. Int J Fract 148:387–400
    Det Norske Veritas (2013) Submarine pipeline systems, Offshore Standard OS-F101
    Drexler E, Wang Y-Y, Sowards JW, Dvorak MD (2010) SE(T) testing of pipeline welds. In: 8th international pipeline conference (IPC), Calgary, Canada
    Healy B, Gullerud A, Koppenhoefer K, Roy A, RoyChowdhury S, Petti J, Walters M, Bichon B, Cochran K, Carlyle A, Sobotka J, Messner M, Dodds RH (2014) WARP3D: 3-D nonlinear finite element analysis of solids for fracture and fatigue processes, technical report, University of Illinois at Urbana–Champaign. http://code.google.com/p/warp3d
    Huang Y, Zhou W (2014) J-CTOD relationship for clamped SE(T) specimens based on three-dimensional finite element analyses. Eng Fract Mech 131:643–655
    Hutchinson JW (1983) Fundamentals of the phenomenological theory of nonlinear fracture mechanics. J Appl Mech 50:1042–1051
    Joyce JA, Hackett EM, Roe C (1993) Effects of crack depth and mode loading on the J–R curve behavior of a high strength steel. In: Underwood JH, Schwalbe K-H, Dodds RH (eds) Constraint effects in fracture, ASTM STP 1171. American Society for Testing and Materials, Philadelphia, pp 239–263
    Joyce JA, Link RE (1995) Effects of constraint on upper shelf fracture toughness. In: Reuter WG, Underwood JH, Newman J (eds) Fracture mechanics, ASTM STP 1256. American Society for Testing and Materials, Philadelphia, pp 142–177
    Kanninen MF, Popelar CH (1985) Advanced fracture mechanics. Oxford University Press, New York
    Kirk MT, Dodds RH (1992) Effect of weld strength mismatch on elastic–plastic fracture parameters, structural research series (SRS 570) UILU-ENG-92-2008. University of Illinois at Urbana–Champaign
    Kirk MT, Dodds RH (1993) J and CTOD estimation equations for shallow cracks in single edge notch bend specimens. J Test Eval 21:228–238
    Kirk MT, Wang Y-Y (1995) Wide range CTOD estimation formulae for SE(B) specimens. In: Reuter WG, Underwood JH, Newman J (eds) Fracture mechanics, ASTM STP 1256. American Society for Testing and Materials, Philadelphia, pp 126–141
    Kudari SK, Kodancha KG (2008) On the relationship between $$J$$ J -integral and CTOD for CT and SENB specimens. Frattura ed Integrità Struttturale 6:3–10
    Mathias LLS, Sarzosa DFB, Ruggieri C (2013) Effects of specimen geometry and loading mode on crack growth resistance curves of a high-strength pipeline girth weld. Int J Press Vessels Pip 111–112:106–119
    Nyhus B, Polanco M, Ørjasæter O, (2003) SENT specimens as an alternative to SENB specimens for fracture mechanics testing of pipelines. In: 22nd international conference on ocean, offshore and arctic engineering (OMAE), Vancouver, Canada
    Paredes M, Ruggieri C (2012) Further results in J and CTOD estimation procedures for SE(T) fracture specimens—part II: weld centerline cracks. Eng Fract Mech 89:24–39
    Pussegoda N, Tiku S, Tyson W (2014) Measurements of crack-tip opening displacement (CTOD) and $$J$$ J -fracture resistance curves using single-edge notched tension (SENT) specimens, technical report 30166-001-R01, BMT Fleet Technology
    Ruggieri C (2012) Further results in J and CTOD estimation procedures for SE(T) fracture specimens—part I: homogeneous materials. Eng Fract Mech 79:245–265
    Ruggieri C, Hippert E (2015) Test procedure for fracture resistance characterization of pipeline steels and pipeline girth welds using single-edge notched tension (SENT) specimens. University of São Paulo, technical report
    Sarzosa DFB, Ruggieri C (2014) Relationship between $$J$$ J and CTOD in SE(T) and SE(B) specimens for stationary and growing cracks. In: 10th international pipeline conference (IPC 2014), Calgary, Canada
    Sarzosa DFB, Souza RF, Ruggieri C (2015) $$J$$ J -CTOD relations in clamped SE(T) fracture specimens including 3-D stationary and growth analysis. Eng Fract Mech 147:331–354
    Shen G, Tyson WR (2009) Crack size evaluation using unloading compliance in single-specimen single-edge notched tension fracture toughness testing. J Test Eval 37(4):347–357
    Shen G, Bouchard R, Gianetto JA, Tyson WR (2008) Fracture toughness evaluation of high-strength steel pipe. In: ASME PVP 2008 pressure vessel and piping division conference, American Society of Mechanical Engineers, Chicago, IL
    Shih CF (1981) Relationship between the J-integral and the crack opening displacement for stationary and extending cracks. J Mech Phys Solids 29:305–326
    Silva LAL, Cravero S, Ruggieri C (2006) Correlation of fracture behavior in high pressure pipelines with axial flaws using constraint designed test specimens—part II: 3-D effects on constraint. Eng Fract Mech 76:2123–2138
    Souza RF, Ruggieri C (2016) Revised wide range compliance solutions for selected standard and non-standard fracture test specimens based on crack mouth opening displacement. Eng Fract Mech (Submitted for Publication)
    Sutton MA, Orteu JJ, Schreier H (2009) Image correlation for shape, motion and deformation measurements. Springer, Berlin
    Upstream ExxonMobil (2010) Measurements of crack-tip opening displacement. (CTOD) fracture resistance curves using single-edge notched tension (SENT) specimens, technical report
    Zhu XK, Joyce JA (2012) Review of fracture toughness (G, K, J, CTOD, CTOA) testing and standardization. Eng Fract Mech 86:1–46
    Zhu XK, McGaughy T (2014) A review of fracture toughness testing and evaluation using sent specimens. In: 10th international pipeline conference (IPC), Calgary, Canada
    Zhu XK, Leis BN, Joyce JA (2008) Experimental estimation of J–R curves from load-CMOD record for SE(B) specimens. J ASTM Int 5(5):1–15
    Últimas obras dos mesmos autores vinculados com a USP cadastradas na BDPI:

AGUIA

Digital Library of Intellectual Production of Universidade de São Paulo     2012 - 2021