The results show that the hardening depth of steel by composite treatment is much larger than that of single treatment of ion nitriding.
结果证明:复合处理的淬硬层深度大于非氮化激光处理的硬化层。
Hardening depth related to the technical parameters and the quenching temperature field is an important target by plasma surface quenching.
硬化层深度是等离子弧表面淬火效果的重要指标之一,而硬化层深度与工艺参数、淬火过程中温度场的变化密切相关。
Conversely, according to the demand of hardening depth of a certain diameter of steel sphere, a steel kind of suitable hardenability can be selected.
反之,也可根据对某一直径钢球的淬硬层深度的要求,选择具有适当淬透性的钢种。
The simulation on medium frequency induction hardening process of crankshaft in 6110 engine is carried out by using FEA software ANSYS with hardening depth predicted and residual stress calculated.
利用A NSYS有限元分析软件,进行了6 110钢曲轴的中频感应淬火过程的模拟计算,并预测了淬硬层的深度,计算了淬火后的残余应力分布。
Methods: According to their effects on the hardening depth and surface characteristic of the set materials, the water-hardening components, excipient vehicles, coagulation accelerators were selected.
方法:通过测定材料在水中的凝固速度及凝固后材料表面性状,对水硬性材料成份的种类、赋形剂的种类及凝固促进剂的种类进行筛选。
The class covers security hardening, customizing authentication, integration, single sign on, and a variety of other related topics in depth.
这个课程深入讲解安全性加强、定制身份验证、集成、单点登录和各种其他相关主题。
The hardening case depth and hardness curve can be changed by adjusting heating time, heating power and cooling speed during induction hardening.
在感应淬火中,通过改变加热时间、加热功率和冷却速度可以改变淬硬层深度和硬度梯度。
The feature of hardening layer is usually expressed by its hardness and depth, and the micro-structure of its material is determined by the hardening process.
硬化层的特征通常由它的硬度、深度来表征。硬化层材料的微观结构又取决硬化过程。
The micro-structure of hardening layer and motherly-body is different, which provide passibility for measuring the depth of hardening layer by supersonic ware.
由于硬化层与基体的微观结构不同,也就为超声波测量硬化层的深度提供了条件。
Hardening layer depth is an important process requirements, it has great influence on the quality of products.
淬火层的深度是一个重要的工艺要求,它对产品的质量有很大影响。
Under these circumstances there would always be some finite depth of surface hardening regardless of size.
在这种情况下不管零件尺寸如何,其表面总归有一定深度被硬化。
The width and depth of laser transformation hardening zone and residual stress distribution were measured experimentally.
实测了激光相变硬化区的宽度和深度及残余应力分布。
The surface characteristic of the grinding hardening parts and effect of grinding parameters on the hardness penetration depth and the new process industrial application will be illustrated in detail.
主要论述了磨削淬硬零件的表面特性及磨削参数对磨削淬硬层深度的影响以及在工业中应用的可行性。
The laser hardening of the T10 steel specimens has been carried out and the effects of laser hardening technical parameters on hardened depth are discussed.
为探讨钢的激光淬火工艺参数对淬硬层深的影响,本文对T10钢进行了激光淬火试验。
For sections heavier than 20 mm the depth of hardening, i. e. the distance from the surface to the 550 HV level, is about 4 mm.
因为比20毫米变硬的深度沈重的区段,也就是距离从表面到550HV水平,是有关4毫米的事。
The study shows that there exist remarkable Ti catalysis effects, which can increase the depth of a nitrided layer, enhance its surface hardening and nitrocarburize rapidly.
研究结果表明;钛催渗具有明显的催渗效果,可使氮、碳原子的渗入速度显著加快,提高渗层深度和渗层硬度。
Abstract: The research of laser transformation hardening on steel 980 has been done in this paper. The width, depth and microhardness of quench zone was measured.
摘要:对980钢进行激光相变硬化研究,分别对其空冷和水冷时淬火硬化层的宽度和深度进行测量,对其组织和硬化层硬度进行分析。
Sim? ilarly, an increase in case depth, particularly uneven case depth in case hardening steels, increases warpage on quenching.
与此类似,渗碳层厚度越大,特别是对于渗碳层厚度不一的渗碳用钢,淬火时更易产生翘曲。
Sim? ilarly, an increase in case depth, particularly uneven case depth in case hardening steels, increases warpage on quenching.
与此类似,渗碳层厚度越大,特别是对于渗碳层厚度不一的渗碳用钢,淬火时更易产生翘曲。
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