1) high temperature heat treatment
高温热处理
1.
The influence of high temperature heat treatment on microstructure and microhardness of (DS)NiAl-Cr(Mo)-Hf eutectic alloy fabricated with directional solidification under high temperature gradient was investigated.
采用高温度梯度定向凝固装置制备NiAl-28cr-5Mo-1Hf(原子分数,%,下同)共晶合金,研究了高温热处理对合金显微组织和显微硬度的影响。
2.
The high temperature heat treatment technology and graphitization apparatus are the key in the manufacture of graphite fiber.
从高温热处理技术方面介绍了碳纤维在石墨化过程中微观结构的变化和宏观力学性能的改变。
3.
It was pointed out that the high temperature heat treatment method is the key factor preparing HMCF.
指出高温热处理是制备高模量碳纤维的关键技术;介绍了制备 PAN 基高模量碳纤维的 3 种高温热处理技术。
2) high temperature treatment
高温热处理
1.
Study on the effects of high temperature treatment on performance of C/C composites;
高温热处理与C/C复合材料性能关系研究
2.
Effect of high temperature treatment on properties of polyimide films;
高温热处理对聚酰亚胺薄膜性能的影响
3.
The effects of different carbon coatings and high temperature treatment on the flexural strength and fracture modes of C/C-SiC composites were studied.
以针刺整体炭毡为坯体 ,采用CVD和树脂浸渍 /炭化混合法增密制备了 4种C/C多孔体 ,然后熔硅浸渗C/C多孔体制备了C/C SiC复合材料 ;研究了不同炭涂层、高温热处理对C/C SiC复合材料弯曲强度和断裂方式的影响。
3) high-temperature heat treatment
高温热处理
1.
Influence of high-temperature heat treatment on the oxidation inhibition of PAN-based carbon fibers;
高温热处理对PAN基炭纤维抗氧化性的影响
2.
In order to improve the oxidation resistance of C/C composites,carbon felt was treated by high-temperature heat treatment with addition of boric acid.
采用对碳纤维毡体添加硼酸高温热处理的方法提高C/C复合材料的整体抗氧化性,考察了添加硼酸高温热处理的C/C复合材料和未经处理的C/C复合材料的氧化行为。
4) high-temperature hydrothermal process
高温热湿处理
1.
Study on the microstructure and properties of wool fibers under the high-temperature hydrothermal process;
高温热湿处理羊毛纤维的微观结构与性能研究
2.
The microscopic structure and crystallinity of wool fibers after high-temperature hydrothermal process have been analyzed using scanning elecrron microscopy and X-ray diffractometer.
采用扫描电子显微镜及X射线衍射仪,对羊毛纤维经高温热湿处理后微观结构形态及结晶度进行了分析。
5) high temperature thermomechanical treatment
高温形变热处理
1.
The high temperature thermomechanical treatment of spring steel 35Si2CrVB has been studied and the process is determined.
对 35Si2CrVB钢的高温形变热处理工艺进行了研究 ,确定形变热处理工艺为 :95 0℃奥氏体化后 ,立即进行高温轧制 ,形变量ε =2 7。
补充资料:内燃机油高温热稳定性试验
分子式:
CAS号:
性质:评定内燃机油高温变质生成沉积物趋势的实验室模拟方法。常用的方法是:斜板法、成焦板法、热管法、热重分析法等。热重分析法是通过比较氧化前后试油失重,而其他方法均为通过观察沉积物生成量及颜色来评价油品的高温稳定性。
CAS号:
性质:评定内燃机油高温变质生成沉积物趋势的实验室模拟方法。常用的方法是:斜板法、成焦板法、热管法、热重分析法等。热重分析法是通过比较氧化前后试油失重,而其他方法均为通过观察沉积物生成量及颜色来评价油品的高温稳定性。
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