torsion strain 中文意思是什麼
torsion strain
解釋
扭應變-
The equivalent effective stress - strain curve of pure torsion was five - six times longer than that of tension experiment
由純扭轉實驗得到的等效應力應變曲線較拉伸實驗延長5 - 6倍。 -
When we draw the stress - strain relation of monotonic tension and pure torsion at the same co - ordinate namely equivalent effective stress and equivalent effective strain co - ordinate, it is obviously that the equivalent effective stress - strain curve of monotonic tension and pure torsion are basicly superposition while the equivalent effective strain is smaller. but equivalent effective stress level of monotonic tension was higher a little than that of pure torsion
把a3鋼試件單一拉伸和純扭轉時應力應變關系繪于同一個坐標中即等效應力和等效應變坐標中,可以看出當等效應變較小時拉伸實驗得到的等效應力應變曲線與純扭轉實驗得到的等效應力應變曲線基本重合。但單一拉伸較純扭轉得到的等效應力要略高一些。 -
After pretorsion the successor tensile yield limit and strength limit both improved very highly, but the trend of the increase of the strength limit was suspended till the pretorsional capacity reached 17, when the pretorsional capacity was greater than17 ( prestrain value was 81. 19 % of total strain ), the successor strength limit rapid failed and approached the yield limit. this illustrate the a3 steel specimen translate from plasticity into friability after pretorsion strengthen. when the specimen was operated by tension - torsion action, the yield limit had very large improved, but the strength limit changed very little. furthermore, the trend of the increase of the strength limit was suspended till the pretension capacity reached 0. 25 ( prestrain value was 66. 93 % of total strain )
A3鋼試件在預扭轉后,后繼拉伸屈服極限和強度極限均有很大提高,但強度極限的增大趨勢到預扭轉量為17為止,預扭轉量大於17 (預應變值為總應變的81 . 19 )后強度極限迅速下降,與其屈服極限接近,這說明a3鋼試件經預扭轉強化后逐漸由塑性轉化為脆性。該預應變值為a3鋼試件的韌脆轉變點。 a3鋼試件在拉伸-扭轉作用下,屈服極限有很大提高,但強度極限沒有多大改變,而且,屈服極限的增大趨勢到預拉伸量為0 . 25應變(預應變量為總應變量的66 . 93 )后就不再增加。 -
Grain refinement and its correlation with strain for pure copper subjected to high pressure torsion
高壓扭轉致純銅晶粒細化及與應變的關系 -
The sensor utilizes the parallelism relationship of twisted axis twisting strain and torsion, axial strain and axial force, and also adopts signal transmission principle with non - contact
這種傳感器利用了受扭軸扭轉應變與扭矩、軸向應變與軸向力的對應關系,採用了信號非接觸傳輸原理。 -
It is importance of the experiment about measuring principal stress combined bending with torsion in mechanics of materials. this paper points out shortcomings in the traditional experimental devices combined bending with torsion and establishes theory and principles for designing superminiaturizational experimental device combined bending with torsion through analyses of stress and strain state at the measured point a ( b ). it also designs the superminiaturizational experimental device, which has smaller space and more precision and has more reasonable structure measurements in this paper
彎扭組合主應力測定實驗在材料力學實驗中佔有重要的地位,作者指出了老式彎扭組合實驗設備的缺點,通過對所測點a ( b )處應力應變狀態分析,確立了設計超小型化彎扭組合實驗裝置的理論基礎、設計原則,設計出了體積小,加載簡單,結構尺寸合理,精度高的超小型化彎扭組合實驗裝置。 -
Under macrostrain large strain, the equivalent effective stress of pure torsion was higher
在大應變下,由扭轉實驗測得的等效應力值較高。 -
By the experiment of tension and torsion test of thin walled tube on mts, the experimental strain increment was obtained and compared with theoretical strain increment which obtained by simulation with m value 2 and the identified m value. the results of comparison validated the correctness of identified m and deformation control method using the identified m
本文在mts實驗機上進行了薄壁管拉扭實驗,首先進行了識別材料物性參數m值的實驗,通過實驗中各階段的實際應變增量值與m值識別前後計算所得理論應變增量值的比較,驗證了識別所得m值的正確性以及根據識別所得m值進行應變控制可行性。 -
From several strain measurements of members, such as a tension plate with only a hole, or double troughs and a torsion shaft with a hole, the method is effective
該文對帶孔或槽的拉伸試件和帶孔的圓軸試件應變測量數據進行了分析計算,結果表明這是一種較實用的方法。 -
Furthermore by the experiment of tension and torsion test of thin walled tube on mts equipment, the experimental strain path was obtained and compared with target strain path. the results of comparison validated the correctness of the approach of controlling deformation path
其次,在正確識別材料物性參數m值的基礎上進行了應變路徑控制實驗,通過實驗過程中的實際應變路徑與想要得到的目標應變路徑的比較,驗證了在正確識別材料物性參數前提下,基於數值模擬和神經網路的應變路徑控制方法的正確性。
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