1) wound temperature
切口温度
1.
Purpose:To comparatively study the wound temperature in bimanual microphacoem-ulsification and conventional phacoemulsification.
目的:研究白星系统在双手微切口超声乳化术中对切口温度的影响,在切口安全性方面与常规术式进行对比。
2) notch toughness-temperature curve
切口韧性-温度曲线
3) cutting temperature
切削温度
1.
Development of the dynamic measurement system of cutting temperature based on computer technology;
切削温度计算机动态测试系统的研制开发
2.
A virtual instrument for measuring cutting temperature and cutting force;
切削温度与切削力综合测量的虚拟仪器
3.
The milling mechanism of Ti6Al4V was studied by means of comparing cutting temperature,cutting force,cutting vibration and chip deformation based on average cutting thickness.
选用航空领域应用最广泛的钛合金TC4,基于平均切削厚度进行大量铣削试验,通过切削温度、切削力、切削振动、切屑变形等方面研究其铣削机理。
4) shearing temperature
剪切温度
1.
A theoretical expression about the rational shearing temperature of high-speed shearing was put forward,which is an important influencing parameter on the section-quality of shearing process.
针对高速剪切技术中影响断面质量的重要参数—温度,通过考虑形变功和剪切过程中的热量散失影响而引起的剪切带温度变化,推导出径向夹紧状态下高速剪切适宜剪切温度的理论表达式。
5) tangential temperature
切线温度
6) switching temperature
切换温度
补充资料:铂电阻温度表(见电阻温度表)
铂电阻温度表(见电阻温度表)
表。bod旧nZu wendubiao铂电阻温度表见电阻温
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条