蠕變壽命 的英文怎麼說

中文拼音 [biànshòumìng]
蠕變壽命 英文
creep life
  • : 動詞(蠕動) wriggle; squirm
  1. Because the pipeline system will not rust, corrosion, debris and other issues not readily available broken down to such an extent that almost no repair. prominent anti - stress and creep resistance of a pipeline rupture also guarantee long life

    由於管道系統內不會產生生銹、腐蝕、碎片等問題且不易破裂,所以幾乎不需要修理,突出的抗性及抗應力破裂性還保證了管道長久的
  2. Creep life - prediction model was put forward from creep experimental results

    數據得到蠕變壽命預測模型。
  3. The expressions of interaction fatigue - creep life and of thermal shock damage evaluated by modulus were obtained by the experimental analysis

    通過試驗分析,初步得到疲勞蠕變壽命表達式和模量表徵的熱震損傷表達式。
  4. We use the method of finite element analysis to find the most dangerous section of the rotator. through setting up a model of rotator, calculating the temperature and stress field of rotator, we get the section. then we supervise the section online, calculate the practical fatigue life loss and creep life loss

    我們使用有限元分析法,通過建模,計算轉子溫度場、應力場,得到最危險截面,然後對危險截面進行在線監測,計算實際運行中的疲勞損耗和蠕變壽命損耗,為安全經濟運行提供有效監控手段。
  5. Accounting for creep and stress relaxation, a long - term life and low cycle fatigue life prediction method for gas turbine engine hot section is established

    摘要建立了考慮和應力鬆弛的航空發動機渦輪葉片等高溫構件的持久和低循環疲勞預測方法。
  6. The influence factors of fracture life are composites boards lay structure, wood - lacuna, and bamboo structure

    影響疲勞斷裂分散性的因素主要有層合板的鋪設結構、木材缺陷和竹材結構等的影響。
  7. During the operation of equipments in the modern industry, the interaction of fatigue - creep under complex condition is often the cause of the failure of equipments. for the other side, with the rapid development of science and technology, the study like this is booming, and the subject is becoming an integrated subject including macro - mechanics, metal microstructure and so on

    現代石化行業中的設備在操作過程中,疲勞破壞以及材料的交互作用影響著設備的使用;隨著科學技術的飛速發展,疲勞-交互作用研究也已經成為宏觀力學理論與金屬微觀結構學等綜合為一體的新興學科。
  8. And the finite element method ( fem ) was used to simulate the stress and deformation of the outer casing and the bearing chock. on the basis of the experiments and fem analysis, the strength and fatigue lifetime, the interaction of creep and fatigue lifetime, the creep lifetime of outer casing and bearing chock have been analyzed, at the end of trail, sem analyses of failure section has been conducted

    同時對航空發動機燃氣渦輪外機匣和軸承座進行了有限元模擬計算,得到外機匣和軸承座的焊接處的強度和形情況的模擬結果。根據試驗數據和有限元的計算結果,對發動機燃燒室外機匣和軸承座兩種結構(包含焊縫)進行靜強度分析、疲勞分析、蠕變壽命分析、疲勞交互作用分析以及斷口的金相分析。
  9. This paper discusses life - wastage of creep - fatigue for headers of superheater and reheater and algorithm of this two kinds wastage. based on these theories, b - p neural network with self - organized function has been introduced detailedly to calculate the fatigue wastage. at the same time, the paper introduces the calculation method of stress

    本文主要介紹了過熱器和再熱器聯箱的疲勞和蠕變壽命損耗的問題以及這兩種損耗的計算方法,並在此基礎上採用前饋型網路( b - p )來計算高溫低周疲勞的損耗(疲勞和交互作用) 。
  10. Fatigue experiments were performed to obtain the fatigue lifetime under the different loading. the parameters for law of the fatigue crack growth were obtained by crack growth experiments. in order to study the fatigue characteristics at high temperature, creep tests were also done

    本文對多種典型焊接試件開展了諸多的試驗研究工作:進行單軸靜載拉伸試驗以確定構件的強度;進行疲勞試驗以測得疲勞曲線;進行疲勞裂紋擴展試驗以獲得試件的疲勞裂紋擴展規律paris公式;進行試驗以考察焊接試件疲勞持久特性;進行剩餘試驗以獲得試件的剩餘
  11. The conclusions and the fit equations were got. 3 - d braiding composite ' s life span is predicted by extrapolating its creep behavior based on the combination of testing data and theory formula

    在實驗數據和理論公式相結合的基礎上,對三維編織復合材料行為進行外推,預測了三維編織復合材料的長期使用
  12. The larson - miller method and the superheater wall temperature computation model brought forward by soviet criterion are adopted to calculate the life loss caused by creep. and a simplification formula is put forward to apply in the on - line life inspection system

    本文採用拉森米勒參數法,結合前蘇聯1973年熱力計算標準中的過熱器壁溫計算模型,對前期蠕變壽命損耗進行了計算;並提出簡化方法,用於在線監測系統中。
  13. In this paper, the strength theory is adopted to analyze the stress of the pressure component of boiler, and the calculation method of metal fatigue and creep is adopted to estimate the life loss of the boiler. meanwhile, the short - cut calculation method is put forward which can meet the requirement of on - line monitoring. on the basis of above, the on - line monitoring and management system of boiler life is developed

    本文採用強度理論和疲勞、蠕變壽命計算方法,分別對電站鍋爐的爐外、爐內主要承壓部件進行了應力分析和計算,並提出滿足在線監測要求的簡化計算方法,在此基礎上,開發了鍋爐承壓部件的在線監測和管理系統。
  14. The pressure component inside the boiler, represented by superheater, whose main reason of life loss is long - term creep

    對于以高溫過熱器為代表的爐內承壓部件,其損耗的主要方式主要是長期
  15. The empirical relation, the monkman - grant relationship and the larson - miller parameter can be used for creep rupture life prediction for the three - dimensional c / sic composite, the damage can be accumulated during the tensile creep tests at elevated temperature

    用應力經驗公式, monkman - grant關系和larson - miller參數這三種方法來估算3d - c sic復合材料的持久
  16. The expressions of the creep damage is acquired by performing the plexiglas creep test and the fatigue test at the different frequencies. the method for separating the creep damage from the fatigue damage is set up through the analysis. the life under the joint action of the creep and the fatigue was estimated with this method, which is compatible with the test results, so this method is of satisfactory ability in life prediction

    開展了有機玻璃試驗和不同頻率下的疲勞試驗,擬合得出了損傷計算公式,通過研究,建立了損傷和純疲勞損傷的分離方法,並用此方法對/疲勞共同作用下的進行了預測,與試驗結果吻合較好,說明該方法有很好的預測能力。
  17. Undoubtedly, deterioration and damage accumulation occur in high temperature and high pressure. with the consumption of their use, the failure accidents occur more frequently, which will bring threatening to the life of people and the poverties of enterprise. so the failure analysis and the residual life assessment of the main steam pipe become more and more urgent and important

    性能作為設計指標的主蒸汽管道是發電廠的關鍵部件,由於長期在高溫高壓的惡劣工況下運行,容易發生材質老化和損傷積累,突發性事故也會頻頻發生,給企業職工的生安全和國家財產帶來嚴重威脅,因此對主蒸汽管道進行失效分析與預測尤為迫切和重要。
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