浅切,alertness and apprehensibility(浅切),在线英语词典,英文翻译,专业英语

1) alertness and apprehensibility(浅切)

浅切

2) shallow notch

浅切口

Stressdistribution near tip of shallow notch for power-work-hardening material;

幂硬化材料浅切口根部附近的应力分布

In the present paper, both the stress-strain distribution near shallow notch ti p for work-hardening material under plane strain condition and the stress balan ce method are used to study the effectiveness of Neuber’s rule and that of Mosk i -Glinka’s (M-K’s) relation.

以含浅切口的硬化材料为对象，以平面应变条件下切口根部附近的应力-应变分布为出发点，利用应力平衡法，研究了Neuber准则及Moski-Glinka公式的有效性。

3) Plain and easy

平易浅切

4) higher speed and lower depth

快速浅切

For the same saw blade,lower speed and deeper depth consumes less power and abrades less than higher speed and lower depth in test.

试验证明,对于同一片锯片,慢速深切比快速浅切消耗功率少,且锯片磨损更小。

5) dimension saw

浅切锯

6) shallow cut

浅切削

补充资料：浅切

1.浅易切当。

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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1) alertness and apprehensibility(浅切) 浅切 2) shallow notch 浅切口 1. Stressdistribution near tip of shallow notch for power-work-hardening material; 幂硬化材料浅切口根部附近的应力分布 2. In the present paper, both the stress-strain distribution near shallow notch ti p for work-hardening material under plane strain condition and the stress balan ce method are used to study the effectiveness of Neuber’s rule and that of Mosk i -Glinka’s (M-K’s) relation. 以含浅切口的硬化材料为对象，以平面应变条件下切口根部附近的应力-应变分布为出发点，利用应力平衡法，研究了Neuber准则及Moski-Glinka公式的有效性。 3) Plain and easy 平易浅切 4) higher speed and lower depth 快速浅切 1. For the same saw blade,lower speed and deeper depth consumes less power and abrades less than higher speed and lower depth in test. 试验证明,对于同一片锯片,慢速深切比快速浅切消耗功率少,且锯片磨损更小。 5) dimension saw 浅切锯 6) shallow cut 浅切削补充资料：浅切 1.浅易切当。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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