1.
Microhardness of RE-boron-vanadizing layer decreases for the influence of ihrigizing,and its hardness gradient is less.
稀土硼钒共渗层显微硬度受渗入硅的影响而减小,同时硬度梯度也较小;
2.
Study on Process and Microstructure Property of RE-boron-vanadizing for Carbon Steel;
碳钢硼钒稀土共渗工艺与组织性能研究
3.
RE-B-C-N multi-element penetration of 65Mn steel metal rubber with larger wire diameter
大丝径65Mn金属橡胶稀土硼碳氮共渗
4.
Surface Compound Treatment of C-N Multi-elements and RE-B-C-N Multi-elements Deep-penetrating
碳氮共渗-深层稀土硼碳氮共渗复合处理
5.
Microstructure of RE-B-Al Diffusion Layer of Armco Iron and the Formation Mechanism of Borides
工业纯铁稀土硼铝共渗的渗层组织及硼化物的形成机理
6.
The Study of Salt Bath Rare Earth (RE )--Boriding of 45 Steel at Low Temperature
45钢(α+γ)双相区温度盐浴稀土硼共渗的研究
7.
Application of RE-vanadizing Process in Manufacturing of ATY Nozzle
稀土钒共渗工艺及其在空气变形喷嘴制造中的应用
8.
Effect of Rare Earths on Kinetics of Boron-Aluminizing of Armco Iron and computer Fitting
稀土对工业纯铁共渗硼铝动力学的影响及计算机拟合
9.
Influence of Addition of RE Element on Effect of Pack Boronizing With Borax
稀土加入量对硼砂型固体渗硼效果的影响
10.
Surface combined treatment of carbonitriding and B-C-N-RE multi-elements deep-penetrating on 20Cr steel firebrick die
碳氮共渗-深层稀土硼碳氮共渗复合处理在20Cr钢耐火砖模具中的应用
11.
Wear and corrosion properties of 45 steel boronised using Nd_2O_3 as activator
稀土粉末渗硼45钢的磨损与腐蚀性能
12.
Research of the Rare-Earth Element Infiltration Catalytic Action on the 45 Steel in the Solid Boronizing
稀土元素对45钢固体渗硼催渗作用的研究
13.
The boronizing supply agent of a low-priced solid with RE was introduced, and the experiment of the boronizing process was studied.
介绍一种含稀土元素廉价的固体渗硼剂,并对其进行了渗硼工艺试验。
14.
The Study of Red Copper Penetrated by Al-Mo-Si-Re Multi-Element;
紫铜铝—钼—硅—稀土多元共渗的研究
15.
Properties of Rare Earth Multi-elements Penetrated Layer on W4Mo3Cr4V High Speed Steel
W4Mo3Cr4V高速钢稀土多元共渗层的性能
16.
RE-nitrocarburizing Technology for Piston Rod Made of 40CrMnMo
40CrMnMo活塞连杆稀土离子氮碳共渗工艺
17.
Study on Pulse Plasma RE Nitrocarburizing of Steel 17-4PH
17-4PH钢脉冲等离子体稀土氮碳共渗研究
18.
Effect of RE on Surface Layer Structure of Plasma Nitrocarbutized 42CrMo Steel
稀土对42CrMo钢等离子体氮碳共渗表层组织的影响