martensitic

martensitic

1. OCr11Ni2MoVNb heat-resisting martensitic steel

0Cr11Ni2MoVNb马氏体热强钢

2. 17.4 ph stainless steel -- Is a martensitic precipitation/age hardening stainless steel offering high strength and hardness.

17.4 PH不锈钢--是一种经过沉降凝结/老化硬化处理的马氏体不锈钢,具有很高的硬度。

3. In 2003,the "martensitic stainless steel nitrading piston rings" were praised as one of the "National Key Torch Plan" programs.

2003年，“马氏体不锈钢氮化活塞环”被列为“重点国家级火炬计划”项目。

4. 2Cr11Mo1VNbN martensitic stainless steel

2Cr11Mo1VNbN马氏体不锈钢

5. 2Cr13 martensitic stainless steel

2Cr13马氏体不锈钢

6. China low activation martensitic steel

CLAM钢

7. CrMnMo martensitic liner board steel

CrMnMo马氏体衬板钢

8. Impact abrasion properties and mechanism of CrMnMo martensitic liner board steel in corrosive condition

CrMnMo马氏体衬板钢腐蚀条件下的冲击磨损特性及机理

9. CrNiMo martensitic liner board steel

CrNiMo马氏体衬板钢

10. MARTENSITIC TRANSFORMATION AND SHAPE MEMORY EFFECT OF Cu-32.23%Zn-1.84% Al ALLOY

Cu-32.23%Zn-1.84%Al合金的马氏体转变和形状记忆效应

11. METALLOGRAPHIC OBSERVATION OF THERMOELASTIC MARTENSITIC IN Cu-Al-Ni ALLOYS

Cu-Al-Ni合金热弹性马氏体的金相观察

12. A Better Approximation of Martensitic Transformation Temperature M.in Cu-Zn Alloy

Cu－Zn合金马氏体相变温度计算的改进

13. A Research on OCr13Ni4 Martensitic Stainless Cast Steel

OCr13Ni4型铸造马氏体不锈钢的研究

14. MARTENSITIC TRANSFORMATION OF PRESTRAINED TiNi SHAPE MEMORY ALLOY UNDER CONSTRAINT OF A CONSTANT STRAIN

TiNi形状记忆合金在定应变约束下的马氏体相变

15. WANG Ming-pu, CAO Ming-sheng.Effect of aging on thermoelastic martensitic transformation in Cu-Zn-Al alloy [J].Acta Metallugica Sinica, 1985, 21(6): A438-A443.

[4]汪明朴,曹明盛.时效对Cu-Zn-Al合金热弹性马氏体转变的影响[J].金属学报,1985,21(6): A438-A443.

16. ε martensitic transformation

ε马氏体相变

17. A METALLOGRAPHIC CORRADING AGENT SHOWING MARTENSITIC STAINLESS STEEL STRUCTURE

一种显示马氏体不锈钢组织的金相侵蚀剂

18. Standard Specification for Seamless and Welded Ferritic and Martensitic Stainless Steel Tubing for General Service

一般设备用无缝和焊接铁素体与马氏体不锈钢管

19. incomplete martensitic transformation

不完全马氏体相变

20. Study on Oil-tempered Technology of Two Kinds of High Chromium Martensitic Stainless Steels

两种高铬马氏体不锈钢油淬火回火工艺研究

21. In order to improve application temperature of aerial engine blade materials heat resistant martensitic steel 1Cr11Ni2W2MoV, it was hot-dipped Al-6%Si-4%Re.

为了提高航空发动机叶片材料1Cr11Ni2W2MoV马氏体热强钢的使用温度,本文对其进行了热浸镀Al-6%Si-4%Re处理。

22. For improving application temperature of heat resistant martensitic steel 1Cr11Ni2W2MoV as aerial engine blade materials,its surface was hot-dipped Al-6%Si-4%RE.

为满足航空发动机叶片材料1Cr11Ni2W2MoV钢在更加苛刻的使用温度下工作的要求,本试验对其表面进行了热浸镀Al-6%Si-4%RE处理。

23. The operating process, microstructures, mechanical properties and cost of the low alloy martensitic nodular cast iron grinding balls using EPC and immediate quenching were introduced in this paper.

介绍了采用真空消失模铸造(EPC)低合金余热淬火马氏体球墨铸铁磨球的工艺、磨球的组织、力学性能、生产成本以及使用性能,并与采用金属型铸造的相同材质的磨球进行了对比。

24. The forming of actuating force produced by the martensitic transformation and the effect of transformation resistance on it are introduced.

介绍了马氏体逆相变的驱动力的形成原因以及和相变阻力的关系。

25. Keywords low alloy ultra high strength steel;strain-induced precipitation;notch effect;fracture behavior;martensitic twining deformation;

低合金超高强度钢;应变诱发析出;缺口效应;断裂;马氏体孪生形变;

26. low activation martensitic steel

低活化马氏体钢

27. The microstructure and mechanical properties of China low activation martensitic steel

低活化马氏体钢的微观结构与力学性能

28. Standard Specification for Steel Castings, Ferritic and Martensitic, for Pressure-Containing Parts, Suitable for Low-Temperature Service

低温受压零件用铁素体和马氏体钢铸件规格

29. low carbon martensitic stainless steel

低碳马氏体不锈钢

30. low-carbon martensitic steels

低碳马氏体钢

31. Experiment of Welding Process on Low Carbon Martensitic Steel Without Prehcat and PWHT

低碳马氏体钢不预热及不热处理焊接工艺试验

32. A kinetics model of constrained transition in three dimensions for shape memory alloy particles is established according to consitutive relation of martensitic fraction temperature stress.

依据马氏体含量温度应力关系,建立了三维约束下形状记忆合金颗粒相变动力学模型。

33. GGDiscussion on Strengthening and Application of Low Carbon Martensitic Steel

关于低碳马氏体钢强化及其应用的探讨

34. Keywords Porous nickel-titanium shape memory alloys（SMAs）;martensitic transformation;pore-forming agent;internal friction;

关键词多孔镍钛形状记忆合金;马氏体相变;造孔剂;内耗;

35. Its sinter has high toughness, excellent sintered property and bending strength owing to martensitic transformation.

其烧结体由于马氏转变而具有高的韧性，优良的烧结性能和抗弯强度；

36. Impact-Induced Martensitic Transformation and Material Constitutive Equations

冲击诱发材料相变及本构模型

37. Martensitic Transformation and Microstructure of Several Industrial Steels

几种工业用钢的马氏体相变及组织

38. MOLECULAR DYNAMICS STUDY ON THE INFLUENCE OF SINGLE EDGE DISLOCATION ON MARTENSITIC TRANSFORMATIONS IN NiAl

分子动力学模拟研究单个刃型位错对NiAl马氏体相变的影响

39. The effects of Fe element on the martensitic and magnetic transformation of Co38Ni33Al29 and Co72-xNixAl28 alloys were investigated by optical micrography,DSC and VSM methods.

利用金相和SEM显微组织分析技术,示差扫描量热法(DSC)和振动磁力计(VSM)考察了Fe元素对Co38Ni33Al29和Co72-xNixAl28合金马氏体相变和铁磁性转变的影响。

40. Keywords medical shape memory alloy martensitic transformation austenitic transformation shape memory effect nitinol stent;

医用记忆合金;马氏体转变;奥氏体转变;形状记忆效应;镍钛诺支架;

41. The NiMnGa alloys in this paper were identified to be non-modulated tetragonal martensitic structure at room temperature.

压缩之后，自协作组织消失，相对于外力择优的变体体积增大，而其他变体收缩。

42. APPLICATION OF ATOMIC FORCE MICROSCOPY IN SHEAR ANGLE DETERMINATION IN MARTENSITIC TRANSFORMATION

原子力显微镜在马氏体相变切变角测定中的应用

43. Keywords antiferromagnetic transition;martensitic transformation;twin;transformation coupling;high damping;

反铁磁转变;马氏体相变;孪晶;相变耦合;高阻尼;

44. Keywords antiferromagnetic transition;martensitic transformation;soft modulus;coupling;

反铁磁转变;马氏体相变;软模效应;耦合;

45. Antiferromagnetic transition has soft modulus effect while martensitic transformation is also accompanied by a soft phonon mode.

反铁磁转变存在模量软化,马氏体相变也具有声学软模。

46. The structural parameter for austenitic phasetransformation has a great effect on the characteristic of martensitic transformation.

发现奥氏体相变结构参数对马氏体相变特性有很大影响。

47. Temperature-changed martensitic transformation

变温马氏体相变

48. The narrow temperature range, i.e. less than 5K, was observed for martensitic transformation process.

合金马氏体相变过程的温度范围很窄，约在5K以内。

49. Effect of Post Heat Treatment on Mechanical Performance of Martensitic Steel Weld

后热处理对新型马氏体耐热钢焊缝性能的影响

50. Ballistic behavior of nitrogen alloyed austenitic and martensitic steel plates

含氮奥氏体钢与马氏体钢的抗弹行为研究

51. Effect of nitrogen pressure on nitrogen content of nitrogen-contained martensitic stainless steel

含氮马氏体不锈钢氮含量控制的研究

52. Influence of Carbon Content on the Characteristic of Martensitic Steel in Abrasion

含碳量对马氏体钢磨料磨损特性的影响

53. STUDY ON HIGH CHROMIUM WHITE CAST IRON CONTAINING VANADIUM WITH MARTENSITIC MATRIX IN THE AS-CAST CONDITION

含钒铸态马氏体高铬铸铁的研究

54. Structure and Properties of Cu-Contained Antibacterial Martensitic Stainless Steel

含铜抗菌马氏体不锈钢的组织与性能

55. The effect of secondarv carbide on the wear resistance of martensitic wear-resistant steel was studied using low-speed three-body grinding abrasion tester.

在低速、碾磨式三体磨损系统中，使用不同粒度的石英砂及玻璃砂磨料，研究了马氏体钢中二次碳化物对其磨损特性的影响。

56. On this context, a nucleation mechanism was developed, attempting to explain the origin of martensitic nucleation in iron based alloys.

在动力学研究的基础上，提出了马氏体相变的形核机制。

57. During quenching, the austenitic microstructure transforms into a martensitic one because of rapid cooling (between 50 degrees C/second and 100 degrees C/second).

在淬火过程中，由于急剧冷却（冷却速度可以达到50-100摄氏度/秒），奥氏体转化成马氏体。

58. Keywords acoustic emission;shape memory alloy;martensitic transformation;

声发射;形状记忆合金;马氏体相变;

59. Keywords multilayer materials;diffusion bonding;quenching stress;finite element analysis;martensitic transformation;

多层材料;扩散焊接;淬火应力;有限元分析;马氏体相变;

60. Cavitation-Abrasion Behavior of Martensitic Stainless Steel Used for Hydraulic Turbine Blades

大型水轮机叶片马氏体不锈钢的多相流损伤行为

61. Cavitation Erosion Behavior of Martensitic Stainless Steel for Hydraulic Turbine Blades

大型水轮机叶片马氏体不锈钢的超声空蚀行为

62. Elastic Energy Releasing Wave Stimulating the Nucleation Mechanism of Martensitic Transformation in the Austenite

奥氏体弹性能释放波促发马氏体相变形核机理

63. Keywords austenitic steel;pearlitic steel;martensitic organization;shortness Layer;

奥氏体钢;珠光体钢;马氏体组织;脆性层;

64. Keywords soliton;martensitic transformation;interface energy;velocity of interface motion;interface width;

孤立子;马氏体相变;界面能;界面运动速率;界面宽度;

65. Its subject coverage includes: austenitic, ferritic, martensitic, and duplex steels;

它的主题涉及的范围包括：奥氏体、铁素体、马氏体和双重钢；

66. Its comprehensive coverage focuses on development of martensitic layers, ductility, and wear resistance because of direct quenching.

它的广泛报导集中在由于直接淬火马氏体层、延展性和耐磨性发展。

67. The early small particle experiments and relevant experimental data were analyzed，revealing that the homogeneous martensitic nucleation mechanism is compatible with the experimental results.

对早期的小颗粒实验以及铁基体材料中马氏体相变的相关实验结果进行了分析讨论，表明均匀形核机制和这些实验结果相一致。

68. Perspective in further study and applications of martensitic transformations was presented.

对马氏体相变的继续研究和应用作了展望。

69. Effect of Addition of Small Quantity of Strengthening Elements on Mechanical Properties of Heat Resistant Martensitic steels at Room Temperature

少量添加强化元素对马氏体耐热钢室温力学性能的影响

70. The reason of deduces deformation martensit in the drawing process is analysed also.

并分析了拉拔时产生形变马氏体的原因。

71. stress-induced martensitic transformation

应力诱发马氏体相变

72. Research on Deep-Drawn Strain of CR 304 Stainless Steel Plates Using Martensitic Transformation Analytical Method

应用马氏体转变分析方法对304不锈钢冷轧板拉深应变的研究

73. Study on Elimination of Martensitic Shortness Layer for Dissimilar Steel Weld

异种钢熔合区马氏体脆性层的消除

74. deformation induced martensitic transformation

形变马氏体

75. Keywords Fe-Mn-Si-C shape memory alloy;stress-induced martensitic phase transformation;predeformation;mechanical training times;restoring ratio;

形状记忆合金;应力诱发马氏体相变;预变形量;机械训练次数;回复率;

76. Keywords shape memory alloy;thermoelastic martensitic transformation;internal friction;dynamic modulus;

形状记忆合金;热弹性马氏体相变;内耗;动力学模量;

77. Keywords Shape memory alloy;Thermoelastic martensitic transition;Internal friction;Relative dynamic modulus;Phase interface;

形状记忆合金;热弹性马氏体相变;内耗;相对动力学模量;相界面;

78. Keywords shape memory alloys;martensitic transformation;deformation;dilatometry;

形状记忆合金;马氏体转变;形变;热膨胀;

79. Keywords shape memory effect;length change;martensitic transformation;

形状记忆效应;形变量;马氏体相变;

80. Keywords shape memory alloys;antiferromagnetism;martensitic transformation;

形状记记合金;反铁磁;马氏体相变;