高强韧厚壁炮钢材料的发展Progress in high strength and toughness of steel material for thick-wall cannon
胡士廉;吕彦;胡俊;李登仁;黄建文;
摘要(Abstract):
综述高强韧厚壁炮钢材料的成分、性能的发展历程和现状,分析炮钢材料发展方向及存在问题,提出炮钢发展的新思路:采用新的合金化和氧化物控制方式,提高材料的纯净度,大幅提高炮钢的强韧性,避免炮钢在生产中为提高钢的性能过度控制低氧,可大大降低工艺成本和设备成本。
关键词(KeyWords): 炮钢;纯净度;氧化物控制;合金化
基金项目(Foundation):
作者(Author): 胡士廉;吕彦;胡俊;李登仁;黄建文;
Email:
DOI: 10.14024/j.cnki.1004-244x.20181105.003
参考文献(References):
- [1]BURTON L,CARTER R,CHAMPAGNE R,et al. Army targetsage old problems with new gun barrel materials[J]. AmptiacQuarterly,2004,18(4):49-56.
- [2]ASTM Committee Standards. A723/A723M-02:Standard speci-fication for alloy steel forging for high-strength pressure compo-nent application[S]. United States:ASTM Committee on Stan-dards,2002.
- [3]Ministry of Defence. 10-13/Issue 4:Steel forgings for guns:de-fence standard[S]. Britian:Ministry of Defence,2005.
- [4]VISHEYSKY C,STEIGERWALD E A. Influence of alloying el-ements on the toughness of low alloy martensitic high strengthsteels[R]. AD680298,1968.
- [5]KWON H,KIM C M,LEE K B. Effect of alloy additions on sec-ondary hardening behavior of Mo—containing steels[J]. MetallMater transA,1997,28A(3):621-627.
- [6]钟家湘,郑秀华,徐宗瑞. 4335V钢中碳化物的研究[J].金属学报,1989,25(1):31-36.
- [7]周淑兰. Cr-Mo-V系炮钢中磷锡的控制容限[J].兵器材料科学与工程,1998,21(1):13-19.
- [8]孙文山,丁桂荣.残铝对35CrNiMoV钢晶粒度的影响[J].兵器材料科学与工程,2002,25(5):21-23.
- [9]孙文山.残铝在35CrNiMoV钢中的作用[J].兵工学报,1996,17(3):238-242.
- [10]TROIANO E,VIGILANTE G N,UNDERWOOD J H. Experi-ences and modeling of hydrogen cracking in a thick-walledpressure vessel[R]. US Benet Laboratories,Technical ReportARCCB-TR-01016,2001.
- [11]LIU Y,WANG M. Effect of hydrogen on ductility of highstrength 3Ni-Cr-Mo-V steels[J]. Materisls Science and Engi-neering,2014,594(1):40-47.
- [12]张树松.稀土在Cr-Mo-V系炮钢中的作用[J].兵器材料科学与工程,1997,20(6):19-25.
- [13]张树松,贾佩璋.提高Cr-Mo-V系炮钢韧性的有效途径[J].兵器材料科学与工程,1997,20(1):3-10.
- [14]DONG Yanchi. Study of rare earth segregation to grain bound-aries in gun steel[J]. Acta Metal Sin,1986,22A:149.
- [15]TROIANO E,PARKER A P,UNDERWOOD J H. Mecha-nisms and modeling comparing HB7 and A723 high strengthpressure vessel steels[J]. Journal of Pressure Vessel Technol-ogy,2004,126(11):473-477.
- [16]张志刚,李宝臣,董霞,等.电渣重熔PCrNi3MoVA钢的过热特性[J].兵器材料科学与工程,1990,13(7):30-33.
- [17]宁建荣.稀土渣系在电渣重熔过程中的应用[J].兵器材料科学与工程,1994,17(5):71-72.
- [18]白徳忠,黄通伟.论炮钢生产技术的转折与开发[J].兵器材料科学与工程,1987,10(4):75-83.
- [19]孙钟尧,黄可平.厚壁炮钢冶炼工艺的重大变革[J].兵器材料科学与工程,1988,11(10):62-66.
- [20]孙文山.电渣重熔是生产高强度高韧性厚壁炮钢经济有效的工艺途径[J].兵器材料科学与工程,1985,8(4):12-20.
- [21]黄通伟,白徳忠.高强度高韧性钢的电渣重熔[J].兵器材料科学与工程,1986,9(5):34-39.
- [22]杨书武,白徳忠.大锻件生产工艺的若干进展[J].热加工工艺,1986,15(1):5-12.
- [23]白徳忠.大型锻件冶金技术的转折对身管设计提出的要求[J].兵器材料科学与工程,1987,10(3):47-51.
- [24]王瑞清,雷经义.用双炼-联锻方法生产厚壁炮管[J].兵器材料科学与工程,1990,13(5):31-36.
- [25]王毓麟,万洪,李宪文,等.高强度厚壁无缝钢管制造工艺的研究[J].兵器材料科学与工程,1985,8(4):62-64.
- [26]中国军工材料体系总编委会.中国军工材料体系(兵器)[M].北京:国防工业出版社,2007:316-323.
- [27]张锐生.近代高强度炮钢[J].兵器材料科学与工程,1995,18(3):3-9.
- [28]TROIANO E,UNDERWOOD J H,CRAYON D,et al. Low cy-cle notched fatigue behavior and life predictions of A723 highstrength steels[R]. US Benet Laboratories,Technical ReportARCCB-TR-95026,1995.
- [29]张锐生.高强度炮钢的断裂韧度[J].兵器材料科学与工程,1997,20(5):45-52.
- [30]张树松,张金孝.炮钢的KIC与炮管的安全性[J].兵器材料科学与工程,1996,19(5):3-9.
- [31]白徳忠.身管失效与炮钢材料[M].北京:兵器工业出版社,1989:120-136.
- [32]马德林.常用黑色金属材料断裂力学性能参数手册[M].北京:兵器工业出版社,1994:6-9.
- [33]VIGILANTE G N,FISH A,G P O’Hara,et al. Elevated tem-perature properties of steels[R]. US Benet Laboratories,Technical Report ARCCB-TR-96023,1996.
- [34]PETITPAS E,CAMPION B. Crack propagation in a gun bar-rel due to the firing thermo-mechanical stresses[J]. PressureVessel Technology,2003,125(3):293-298.
- [35]梁波. G4335V钢冷脆转变温度分析[J].兵器材料科学与工程,1990,13(7):36-37.
- [36]白德忠.厚壁炮钢的生产与科研[J].兵器材料科学与工程,1980,3(1):73-80.
- [37]张树松.材料、工艺与枪炮身管寿命[J].西安工业学院学报,1989,9(1):1-8.
- [38]王毓麟.近二十年来薄壁炮钢之进展[J].兵器材料科学与工程,1980,3(2):43-57.
- [39]孙文山.高强度厚壁自紧炮管用钢的强韧性探讨[J].兵器材料科学与工程,1986,9(3):15-19.
- [40]UNDERWOOD J H,TROIANO E. Critial fracture processesin army cannons:a review[J]. Journal of Pressure VesselTechnology,2003,125(3):287-292.
- [41]Department of the Army. MIL-T-10458C(MR):Steel forg-ings,tubular parts for cannons over 30 mm[J]. United States:Military of Refence,1963.
- [42]Department of the Army. MIL-S-46119(MR):Steel forgings,tubular parts for cannon[S]. United States:Military of Refence,1967.
- [43]Department of the Army. MIL-S-46119A(MR):Steel forg-ings,tubular parts for cannon[S]. United States:Military ofRefence,1973.
- [44]Department of the Army. Steel forgings,tubular parts for can-non:MIL-S-46119B(MR)[S]. United States:Military ofRefence,1983.
- [45]龚长红.现代火炮炮膛烧蚀磨损机理及控制措施[J].四川兵工学报,2014,35(11):127-129.
- [46]张小兵,金志明.枪炮内弹道学[M].北京:北京理工大学出版社,2014:326-335.
- [47]闽恩则.枪管用钢的热强性与抗烧蚀性能的关系[J].金属材料与热加工工艺,1979,4(8):15-24.
- [48]黄进峰.不同表面处理条件下身管烧蚀研究[J].北京科技大学学报,2014,36(3):323-327.
- [49]彭小敏.火炮身管烧蚀及其防护研究进展[J].四川兵工学报,2014,35(3):11-17.
- [50]王升,熊党生,李建亮,等.熔盐电镀钽及其耐磨损烧蚀性能[J].中国表面工程,2015,28(2):101-107.
- [51]MYERS S,LIN J L,Souza R M,et al. Theβtoαphase transi-tion of tantalum coatings deposited by modulated pulsed pow-er magnetron sputtering[J]. Surface and Coatings Technolo-gy,2013,214:38-45.
- [52]中国兵器工业集团. GJB 5207-2003火炮炮身零件用钢锻件规范[S].国防科学技术工业委员会,2003.
- [53]Department of the Army. MIL-S-46119C(MR):Tubular partsfor cannon[S]. United States:Military of Refence,1988.