1) water annealing
水韧[退火]处理
2) water toughening process
水韧处理
1.
In other words, when the water toughening process is applied, the operation temperature is not high enough, which causes some carbine is kept rather than dissolved, and uniform Austenite is not obtained.
水韧处理时加热温度不够高,未能把碳化物溶解,而使其保留了下来,未得到均匀的奥氏体组织。
2.
The different isothemal temperature of ZGMn13 steel during the water toughening process will pro-duce different microstructures.
ZGMn13钢水韧处理加热过程中不同等温温度将产生不同的显微组织,根据这个原理,分析了容易产生裂纹的等温温区,并推荐了最佳等温温度。
3) water toughening
水韧处理
1.
The control of chemical composition such as carbon,silicon and phosphorous in high manganese and complex high manganese steels and their as-cast structures,and classification of heat treatment processes as per as-cast structure and requirements for property and service conditions as well as the control of the water toughening process for the high manganese steel were summarized.
简述了高锰钢和多元合金高锰钢的碳、硅、磷等化学成分和铸态组织的控制,根据铸态组织、性能要求和使用条件对热处理工艺的分类,以及高锰钢水韧处理工艺的控制。
2.
In a temperature range of 1 020~1 140 ℃, the higher the water toughening temperature and the longer the holding time, the coarser the grains; the variation range of hardness is HBS 212-216, however, the impact toughness increases with the increase of temperature at first, then it will decrease after its value up to maximum.
在1020~1140℃温度范围内,随水韧处理温度的升高,保温时间越长晶粒越粗大;硬度变化范围HBS212~216,而冲击韧性随着温度的升高而增加,达到最大值后随温度升高而降低;在1110℃时,试样HBS215,αK=179J/cm2,且试样金相组织中奥氏体已转变完全,晶粒度达到5~6级。
3.
By comparing microstructures and properties,It has been found that the properties of the high Mn steel castings after direct water toughening is nearly equal to that after common water toughening.
通过对高锰钢常规水韧处理和浇注后铸件直接水韧处理试样的力学性能和金相组织的比较分析及实际检测, 证明高锰钢铸件浇注后直接进行水韧处理与常规水韧处理的力学性能接近。
4) water toughening treatment
水韧处理
1.
The effect of water toughening treatment on structure and properties of high manganese steel with trace Cr,V,Mo is studied in the present research.
研究了水韧处理工艺对Cr、V、Mo合金高锰钢金相组织和力学性能的影响。
5) annealing
[英][ə'ni:liŋ] [美][ə'nilɪŋ]
退火处理
1.
The effect of annealing on microstructure and high temperature erosion property of arc-spraying coatings containing nanosized ceramic powders;
退火处理对含纳米陶瓷粉电弧喷涂层组织结构与高温冲蚀性能的影响
2.
Effect of annealing on the oxidation behavior of peened 1Cr18Ni9Ti alloy;
喷丸及退火处理对1Cr18Ni9Ti合金抗高温氧化性能的影响
3.
Effect of Annealing on the Magnetism of Sintered NdFeB Magnets;
退火处理对烧结Nd-Fe-B永磁体磁性能的影响
6) annealing treatment
退火处理
1.
Effect of annealing treatment on microstructure and properties of as-cast austenitic-bainite nodular iron by permanent mold casting;
退火处理对金属型铸态奥—贝球铁组织和性能的影响
2.
Influence of annealing treatment on microstructure and properties of AZ31 magnesium alloy sheet processed by equal channel angular rolling;
退火处理对等径角轧制AZ31镁合金板材组织与性能的影响
3.
Effects of annealing treatment on electrochemical properties of Re_(0.92)Mg_(0.08)Ni_(2.81)Mn_(0.10)Co_(0.51)Al_(0.11) alloy electrodes;
退火处理对Re_(0.92)Mg_(0.08)Ni_(2.81)Mn_(0.10)Co_(0.51)Al_(0.11)贮氢合金电化学性能的影响
补充资料:电磁原理"水处理"和"水软化"的区别?
在软化过的水中,钙、镁等成分被钠所替代;而在被(经特定电磁原理)处理过的水中,只是钙离子的晶体结构被改变,使其以一种很小的颗粒状态溶于水中。这两种方法都能防止水管内的水垢生成。
在被"处理"过的水中,对人体有益的钙等成分还保留在水中,而且是以人体能吸收的状态(溶解状态)存在。
在被“软化”过的水中,水中的钙等矿物质成分被滤掉,而钠成分增多,使水不能用于饮用。
在被"处理"过的水中,对人体有益的钙等成分还保留在水中,而且是以人体能吸收的状态(溶解状态)存在。
在被“软化”过的水中,水中的钙等矿物质成分被滤掉,而钠成分增多,使水不能用于饮用。
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