Small punch creep (SPC) test has an important role in the remaining life calculation of in-service components functioningat high temperature and harsh ambience. Since the extraction of conventional full scale specimens from the components inservice impairs its integrity, SPC test can be used as an alternative technique. This test method requires very thin disc similar to those needed for transmission electron microscopy (~ 3 mm diameter and 0.5 mm thick). The pre-requisite to employthis test technique is to establish correlations between uniaxial creep and SPC tests in priori. The purpose and scope of thiswork is to present briefy the principle of SPC testing method in comparison with uniaxial creep test. The diferences interms of specimen geometry and deformation process have been clearly brought out. The correlations developed by severalresearchers for determining the creep properties from SPC test along with uniaxial creep results for comparison is presented.
The contributions by several authors in the direction of numerical simulation and fractography of SPC test is also briefed.

1 P. Dymacek, "creep and fracture testing of prospective Fe–Al-based alloys using miniature specimens" 99 : 18-26, 2019

2 S. Holmström, "Using small punch test data to determine creep strain and strength reduction properties for heat afected zones" 30 (30): 63-66, 2014

3 V. M. Radhakrishnan, "The relationship between minimum creep rate and rupture time in Cr–Mo steels" 1 : 123-128, 1992

4 F. Dobes, "The relation between minimum creep rate and time to fracture" 10 : 382-384, 1976

5 F. Cortellino, "The effects of geometrical inaccuracies of the experimental set-up on small punch creep test results" 49 (49): 571-582, 2014

6 R. Sturm, "Small-punch test testing of a weld’s heat afected zones’" 40 : 49-54, 2006

7 F. Dobes, "Small punch testing in creep conditions" 29 (29): 31-35, 2001

8 European Committee for Standardization, "Small punch test method for metallic materials" 2007

9 B. Ule, "Small punch test method assessment for the determination of the residual creep life of service exposed components : outcomes from an interlaboratory exercise" 192 : 1-11, 1999

10 Y. Z. Li, "Small punch test for weld heat afected zones" 23 (23): 225-232, 2006

11 J. P. Rouse, "Small punch creep testing : review on modelling and data interpretation" 29 (29): 1328-1345, 2013

12 S. Tettamanti, "Small punch creep test : a promising methodology for high temperature plant components life evaluation" 185 : 501-509, 1998

13 M.D. Mathew, "Small punch creep studies for optimization of nitrogen content in 316LN SS for enhanced creep resistance" 45 : 731-737, 2014

14 H. K. Al-Abedy, "Small punch creep property evaluation by finite element of Kocks–Mecking–Estrin model for P91 at elevated temperature" 98 : 244-254, 2018

15 F. Dobes, "Small punch creep in Fe28AlCr0.02Ce alloy" 12 : 1397-1401, 2004

16 G. J. Kumar, "Small punch creep deformation and rupture behaviour of 316L(N)stainless steel" 641 : 315-322, 2015

17 R.J. Lancaster, "Small Punch Creep" INTECH Open Science 151-172, 2018

18 A. Kanaya, "Residual creep life evaluation by small punch creep test" 5 (5): 331-332, 2005

19 T. H. Hyde, "Requirements for and use of miniature test specimens to provide mechanical and creep properties of materials : a review" 52 (52): 213-255, 2007

20 M. L. Saucedo-Muñoz, "Relation of small punch creep test properties with microstructure changes for an ASTM A387 Cr–Mo steel" 761 : 138033-, 2019

21 P. Dymacek, "Recent developments in small punch testing: applications at elevated temperatures" 86 : 25-33, 2016

22 D. Blagoeva, "Qualifcation of P91 welds through small punch creep testing" 409 (409): 124-130, 2011

23 S. Arunkumar, "Overview of Small Punch Test" 대한금속·재료학회 26 (26): 719-738, 2020

24 T. H. Hyde, "On the interpretation of results from small punch creep tests" 45 : 141-164, 2010

25 S. V. Raj, "On the grain size dependence of Harper–Dorn creep" 96 : 57-64, 1987

26 R. W. Evans, "Numerical modelling of small disc creep test" 22 (22): 1155-1162, 2006

27 P. C. Zhai, "Numerical analysis for small punch creep tests by finite element methods" 32 (32): 298-303, 2004

28 B. Ule, "Modifcation of θ projection creep law by introducing mean stress term" 13 : 555-559, 1997

29 M. Law, "Modelling creep of pressure vessels with thermal gradients using theta projection data" 79 (79): 847-851, 2002

30 G.E. Dieter, "Mechanical Metallurgy" McGraw-Hill Book Company 1988

31 Holmström, S, "Materials for Advanced Power Engineering" 627-635, 2014

32 B. Wilshire, "Long-term creep life prediction for a high chromium steel" 56 (56): 701-704, 2007

33 M. T. Whittaker, "Long-term creep data prediction for type 316H stainless steel" 552 : 145-150, 2012

34 L. Zhao, "Investigating creep rupture and damage behaviour of 41Fe–255Cr–23Ni alloy small punch creep specimens using a novel microstructure meshing approach" 766 : 138370-, 2019

35 R. V. Prakash, "Infuence of friction on the response of small punch test" 69 (69): 617-622, 2016

36 E. Nes, "Harper–Dorn creep and specimen size" 33 : 305-310, 2002

37 F. Cortellino, "Experimental and numerical analysis of initial plasticity in P91steel small punch creep samples" 57 : 1193-1212, 2017

38 K. Song, "Experimental and numerical analysis of creep and damage behaviour of P92 steel by small punch tests" 100 : 181-190, 2019

39 T. Sugimoto, "Evaluation of toughness and creep properties of aged main valve CrMoV casting steel by using small punch specimens" 91 (91): 46-51, 2005

40 S. Yang, "Evaluation of multiaxial creep and damage evolution for small punch creep test considering criticalstrain criterion" 91 : 99-107, 2018

41 R.V. Prakash, "Evaluation of Fatigue Data Through Miniature Specimen Test Techniques" American Society of Mechanical Engineers Pressure Vessels and Piping Division 2015

42 R.V. Prakash, "Evaluation of Damage in Materials due to Fatigue Cycling Through Static and Cyclic Small Punch Testing, Small Specimen Test Techniques" ASTM International 168-186, 2015

43 L. Zhao, "Evaluating of creep property of distinct zones in P92 steel welded joint by small punch creep test" 47 : 677-686, 2013

44 M. Bruchhausen, "European standard on small punch testing of metallic materials" 1 (1): 11-, 2018

45 S. Arunkumar, "Estimation of tensile properties of pressure vessel steel through automated ball indentation and small punch test" 69 (69): 1245-1256, 2016

46 M.F. Ashby, "Engineering Materials I—An Introduction to Properties, Applications and Design" Elsevier Butterworth-Heinemann 2005

47 S. P. Jefs, "Elevated temperature creep deformation of a single crystal super alloy through the small punch creep method" 626 : 330-337, 2015

48 Nishioka, T, "Effects of various factors on creep behaviour in low alloy steel by small punch testing methods, in Proceedings of 1st Annual International Conference on SSTT (Small Sample Test Techniques)" 63 : 34-38, 2010

49 J. D. Parker, "Disc-bend creep deformation behaviour of 1/2Cr1/2Mo1/4V low alloy steel" 651-660, 1993

50 S. Komazai, "Development of small punch tests for creep property measurement of tungstenalloyed 9%Cr ferritic steels" 28 (28): 249-256, 2000

51 T. Nakata, "Development of a small punch testing method to evaluate the creep property of high Cr ferritic steel: part II—stress analysis of small punch test specimen by finite element method" 666 : 80-87, 2016

52 R. J. Lancaster, "Development of a novel methodology to study fatigue properties using the small punch test" 748 : 21-29, 2019

53 F. Hou, "Determination of creep property of 1.25Cr0.5Mo pearlitic steels by small punch test" 28 : 215-221, 2013

54 L. Zhao, "Determination of creep properties of an advanced Fe–Cr–Ni alloy using small punch creep test with a modifed creep strain model" 104 : 102324-, 2019

55 B. Gulcimen, "Determination of creep properties of a P91 weldment by small punch testing and a new evaluation approach" 588 : 125-131, 2013

56 Y. Z. Li, "Determination of creep properties from small punch test" 3 : 741-752, 2009

57 Li, Y., "Determination of creep properties from small punch test" 2008

58 W. Wu, "Determination of creep damage properties from small punch creep tests considering prestraining effect using an inverse approach" 139 : 103171-, 2019

59 Thi Giang Le, "Degradation and reduction of small punch creep life of service-exposed Super304H steel" 대한기계학회 33 (33): 5243-5250, 2019

60 K. I. Kobayashi, "Deformation and fracture mode during small punch creep tests" 4 (4): 75-86, 2010

61 R.W. Hertzberg, "Deformation and fracture mechanics of engineering materials" Wiley 2013

62 P. Dymacek, "Creep small-punch testing and its numerical simulations" 510–511 : 444-449, 2009

63 M. L. Saucedo-Munoz, "Creep property measurement of service-exposed SUS 316 austenitic stainless steel by the small-punch creep-testing technique" 17 (17): 1945-1953, 2002

64 D. Andres, "Creep property evaluation of light alloys by means of small punch test : creep master curves" 96 : 122-130, 2016

65 G. S. Deshmukh, "Creep properties assessment of P92steel by small punch creep tests" 69 (69): 907-915, 2016

66 R.W. Evans, "Creep of metals and alloys" The Institute of Metals 197-243, 1985

67 S. P. Jefs, "Creep lifng methodologies applied to a single crystal super alloy by use of small scale test techniques" 636 : 529-535, 2015

68 Y. Zheng, "Creep life prediction of small punch creep testing specimens for service-exposed Cr5Mo using thetaprojection method" 72 : 58-66, 2017

69 X. Ling, "Creep damage in small punch specimens of type 304 stainless steel" 84 : 304-309, 2007

70 S. Yang, "Creep characteristics and deformation analysis of service-exposed material using small punch creep test" 195 : 242-252, 2018

71 S. Yang, "Creep behaviours evaluation of Incoloy800H by small punch creep test" 685 : 1-6, 2017

72 J. D. Parker, "Creep behaviour of miniature disc specimens of low alloy steel, developments in a progressing technology" 279 : 167-172, 1994

73 B. Wilshire, "Creep and creep fracture of polycrystalline copper" 443 (443): 156-166, 2007

74 C. Wen, "Correlation factor study of small punch creep test and its life prediction" 9 (9): 1-15, 2016

75 F. Dobes, "Comparison of conventional and small punch creep tests of mechanically alloyed Al–C–O alloys" 59 : 961-964, 2008

76 L. Y. Wang, "Comparative investigation of small punch creep resistance of Inconel 718fabricated by selective laser melting" 745 : 31-38, 2019

77 S. Yang, "Characterization of low-temperature creep deformation and primary creep stage of TA2 using small punch creep test" 205 : 1-9, 2019

78 X. Mao, "Characterization of fracture behavior in small punch test by combined recrystallization-etch method and rigid plastic analysis" 15 (15): 30-37, 1987

79 Y. W. Ma, "Assessment of power law creep constants of Gr91 steel using small punch creep tests" 32 : 951-960, 2009

80 D.T. Blagoeva, "Application of the CEN (European Committee for Standardization) small punch creep testing code of practice to a representative repair welded P91 pipe" 510–511 : 219-223, 2009

81 H. Chen, "Application of small punch creep testing to a thermally sprayed CoNiCrAlY bond coat" 47 : 677-686, 2013

82 A. Ortiz-Mariscal, "Application of small punch creep testing for evaluation of creep properties of as-received and artificially aged 5Cr-0.5Mo steel" Elsevier BV 709 : 322-329, 2018

83 F. Dobeš, "Application of creep small punch testing in assessment of creep lifetime" 510–511 : 440-443, 2009

84 P. J. M. Janssen, "An experimental assessment of grain size effects in the uniaxial straining of thin Al sheet with a few grains across the thickness" 419 : 238-248, 2006

85 F. C. Monkman, "An empirical relationship between rupture life and minimum creep rate in creep-rupture tests" 56 : 593-620, 1956

86 R. J. Lancaster, "An analysis of small punch creep behaviour in the γ titanium aluminide Ti–45Al–2Mn–2Nb" 626 : 263-274, 2015

87 V. Raman, "An analysis of Harper–Dorn creep based on the specimen size effects" 19 : 629-634, 1985

88 B. Cacciapuoti, "A study on the evaluation of contact angle of small punch creep test of ductile materials" 145 : 60-74, 2016

89 Z. Zhou, "A study of infuence factors of small punch creep test by experimental investigation and finite element analysis" 527 : 2784-2789, 2010

90 K. Maruyama, "A strain-time equation applicable up to tertiary creep stage" 34 (34): 1289-1295, 1985

91 T. Lee, "A direct methodology for small punch creep test" 56 : 395-405, 2016

92 J. H. Kim, "A direct assessment of creep life based on small punch creep test" 104 : 102346-, 2019

93 T. Izaki, "A creep life assessment method for boiler pipes using small punch creep test" 86 : 637-642, 2009

94 R. W. Evans, "A constitutive model for the high-temperature creep of particle-hardened alloys based on the θ projection method" 456 : 835-868, 2000

95 T. H. Hyde, "A basis for selecting the most appropriate small specimen creep test type" 136 : 1-6, 2014