1) proportion loading
等比加载
2) equivalent load to omitted strata
等值加载
3) constant-K loading
等K加载
1.
The analysis focused on the effects of different specimen geometries(middle crack tension and central hole tension),different material work hardening models(linear-kinematic hardening and nonlinear-kinematic hardening), different loading conditions(constant amplitude cyclic loading,constant-K loading),and different stress ratios on crack opening/closing levels.
结果表明,在等K加载条件下,用瞬时最大应力正则化的裂纹张开、闭合应力水平和张开应力强度因子与应力比有关,但与裂纹长度无关。
2.
The constant-K loading makes more sense than the constant amplitude cyclic loading in distingui-shing the effects of load level and crack length on the PICC and offers a new idea to characterize crack growth behavior.
采用了等K加载方式,即在裂纹扩展中裂尖应力强度因子的最大值Kmax保持不变(给定R比,最大应力σmax随裂纹长度变化)。
4) medium-heavy loading
中等加载
5) Proportional loading
比例加载
1.
Multiaxial fatigue behavior of superalloy GH4169 was investigated by using the thin tubular multiaxial fatigue specimens under proportional and non-proportional loadings at high temperature.
高温多轴疲劳试验采用比例与非比例加载路径。
2.
Biaxial fatigue behaviors of the Zr-4 alloy under proportional and non-proportional loading with the phase angles of 30°, 60° and 90° were studied.
研究了冷变形Zr-4合金在双轴比例和非比例加载下的循环变形行为,结果表明:当循环应变幅较低时,Zr-4合金表现为循环初始硬化随后饱和的特征;随着应变幅提高,初期硬化后,表现为连续循环软化特征;高应变幅下,初期硬化消失,表现为急剧的循环软化。
3.
The deformation behavior of hydrided zircaloy-4 under tension-torsion proportional loading was investigated using the quantitative metallography and the finite element method(FEM).
采用有限元数值分析方法,模拟了含氢化物Zr-4合金拉-扭双轴比例加载下的变形行为。
6) bit-loading
比特加载
1.
This thesis focuses on physical layer adaptive transmission techniques, especially the key of adaptive algorithm in SC-FDE system -Bit-loading, which is based on similar algorithms in OFDM system.
本文的主要工作是研究单载波频域均衡(SC-FDE)系统中的自适应算法的关键技术——比特加载,这些算法是在研究SC-FDE系统本身特点和正交频分复用(OFDM)系统中自适应算法的基础上提出的。
补充资料:等比
1.同辈;同列。 2.一同;共同。 3.相等;匹敌。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
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