| Citation: |
WANG Gen-shi, LI Zhuo-xin, WEI Fu-jun, LI Hong. Progress in Research of Welding Joint Properties and Welding Consumables of P92 Steel[J]. Materials and Mechanical Engineering, 2007, 31(8): 1-4.
|
| [1] |
Jbrozda.New generation creep-resistant steels,their weldability and properties of welded joints:T/P 92 steel[J].Welding International,2005,19(1):5-13.
|
| [2] |
Kondo M,Tabuchi M,Tsukamoto S,et al.Suppressing type IV failure via modification of heat affected zone microstructures using high boron content in 9Cr heat resistant steel welded joints[J].Science and Technology of Welding and Joining,2006,11(2):216-223.
|
| [3] |
Abe F,Masaaki Tabuchi.Microstructure and creep strength of welds in advanced ferritic power plant steels[J].Science and Technology of Welding & Joining,2004,9(1):22-30.
|
| [4] |
Abe F,Horiuchi T,Taneike M,et al.Stabilization of martenstic microstructure in advanced 9Cr steel during creep at high temperature[J].MaterialsScience and Engineering,2004,A378:299-303.
|
| [5] |
Kim B J,Lim B S.Microstructure and fatigue crack growth behavior of heat affected zone in P92 steel weldment[J].Key Engineering Materials,2004,261/263:1185-1190.
|
| [6] |
Lim B,Kim B,Park M,et al.Elevated temperature behavior of creep and fatigue in welded P92 steel[J].International Journal of Modern Physics B,2003,17(8/9):1621-1626.
|
| [7] |
Ryu S H,Lee K W,Lee Y S,et al.Characteristics of the welded joints of ferritic heat resistant pipe and tube steels for advanced steam power plants[C]//Proceedings of the 6th International Conference on Power Engineering.Kobe,Japan:Japan Society of Mechanical Engineers,2003:279-284.
|
| [8] |
陈跃胜.热处理对9%Cr系耐热钢热影响区组织和蠕变特性的影响[J].国外金属热处理,2004,25(2):27-31.
|
| [9] |
Christina Berger,Akfred Scholz,Yan Wang,et al.Creep and creep rupture behaviour of 650 ℃ ferritic / martensitic super heat resistant steels[J].Metallkd,2005,96(6):668-674.
|
| [10] |
Kondo M,Tabuchi M,Tsukamoto S,et al.Suppression of Type IV Failure in High-B Low-N9Cr-3W-3Co-NbV Steel Welded Joint[C]//Proceedings of the Fourth International Conference on Advances in Materials Technology for Fossil Power Plants.OH ,USA:ASM-International,Materials Park,2005:987-998.
|
| [11] |
Michael Santella.Evaluation of new ferritic steels by synchrotron radiation[C]//Proceedings of the 19th annual conference on fossil energy materials,Ornl,USA:2005.
|
| [12] |
Masuyama F,Komai N.Evaluation of long-term creep rupture creep rupture strength of tungsten strengthed advanced 9~12% Cr steels[J].Key Engineering Materials,2000(171/174):179-188.
|
| [13] |
Ennis P J,Czyrska-Filemonowicz A.Recent advance in creep-resistant steels for power plant applications[J].Sadhana,2003,28(3/4):709-730.
|
| [14] |
Babcock-Hitachi KK,Creep damage evaluation method for martensitic high chromium content ferritic steel welded junction-involves evaluating creep damage from assay curve created based on micro:structural state in creep rupture part and notch bottom cross-section at other parts of test piece:Japanese,11064326-A[P].1999-03-05.
|
| [15] |
Kim B J,Lim B S.Effect of creep holding time on the fatigue behavior in P92 steel weldment at high temperature[J].Materials Science Forum,2005,475/479:4211-4214.
|
| [16] |
Ryu S H,Lee Y S,Kong B O.The fracture behaviors of the welded joints in P92,P122 and P23 pipe steels for fossil power plants[C]//Proceedings of the 4th International Conference on Advances in Materials Technology for Fossil Power Plants,OH,USA:ASM-International,Materials Park,2005:930-934.
|
| [17] |
Lim B S,Jeong C S,Keum Y T.Effect of temperature on fatigue crack growth in P92 steel[J].Metals and Materials International,2003,9(6):543-547.
|
| [18] |
Lim B S,Kim B J,Song S J,et al.Evaluation of creep-fatigue life using backscattering of Rayleigh surface wave[J].Advanced in Fracture and Strength,PTS1-4 Engineering Matrials,2005,297/300:415-420.
|
| [19] |
Marshall A W,Zhang Z,Holloway G B.Welding consumables for P92 and T23 creep resisting steels[C]//Welding and repair technology for power plants fifth international EPRI RRAC conference.Alabama.USA:ASM-International,2002.
|
| [20] |
范长信,张红军,周荣灿,等.超超临界机组锅炉用新型耐热钢的焊接[J].电力设备,2006,17(4):11-14.
|
| [21] |
山下贤,原则行,村上俊夫,等.用于改性9Cr-1Mo钢的焊丝以及埋弧焊材料.中国,1727108A[P].2006-02-01.
|
| [22] |
Mitsubishi Jukogyo KK.High strength,heat resisting steel welding electrode for welding boilers for power generation and pressurised chemical containers-consists of carbon,silicon,manganese,phosphorous,sulphur,chromium,nickel,molybdenum,vanadium,tungsten,niobium,rhenium,aluminium,boron and nitrogen at predetermined weight percentage.Japanese,3426880-B2[P].2003-07-14.
|
| [23] |
Kobe Steel Ltd.Weld metal for high chromium ferritic heat resistant steel used in pipes of boilers in electric power generation plant-has predetermined composition containing fixed ratio of niobium against vanadium in sodium chloride type carbonitride precipitated after stress relaxation process after welding.Japanese,3527640-B2[P].2004-05-17.
|
| [24] |
Coleman K K,Gandy D W,Viswanathan R,et al.Weld filler composition for use in welding steel pieces with different alloy content,such as low alloy ferritic steel and high alloy ferritic steel,comprises nickel,iron,chromium,niobium,carbon,manganese,molybdenum,and silicon.United States,2005247763-A1[P].2005-11-10.
|
| [25] |
Kobe Steel Ltd.Wire for gas shielded arc welding of low-alloy heat resistant steel,has flux coating which contains sodium,potassium and lithium compounds,titania and metal fluoride.Japanese,3815984-B2[P].2006-08-30.
|
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