Add to ORKGQuite often in order to improve the performance of a product it is necessary to form a strengthened structure that will be extremely hard and have good plasticity at the same time. One way to meet this challenge is to apply shock wave mechanical hardening to produce micro- or nanocrystalline heterogeneous structures in homogeneous metals or alloys. A peculiar feature of such structure is its layer-by-layer for-mation with smooth transition between hard and plastic areas, which improves the performance of the strengthened item significantly When you are citing the document, use the following link http://essuir.sumdu.edu.ua/handle/123456789/3638
The aim of the article is a hardening of the surface steel layers due to the combination treatment. ...
The demands on innovative materials given by the ever-increasing requirements of contemporary indust...
During high strain rate scenarios such as an impact event, a compressive shock wave will propagate t...
The paper discusses possibilities and conditions needed to obtain a super small grain and nanocrysta...
Techniques for making materials with advanced performance attributes at the expense of blanket heter...
The article deals with the machine parts hardening by means of deformation waves generated by th...
In the work we demonstrate the possibility of forming thin surface and near-surface layers with subm...
The technology of wave deformation hardening of metal machine parts is described, which allows obtai...
The technology of wave deformation hardening of metal machine parts is described, which allows obtai...
With two structural steels (the steels 50 and 09G2S) as examples, the paper studies the effectivenes...
The article presents results of study possibility of hardening of high-manganese steel X120Mn12 by a...
In article two technologies of hardening of metals and alloys are presented: volume hardening of met...
Cheiliakh, A. P. Strengthening Technologies of Materials Treatmentм : textbook / A. P. Cheiliakh, Y....
Surface enhancement methods induce a layer of beneficial residual compressive stress to improve the ...
The paper shows scientific substantiation and practical confirmation of possibility, application exp...
The aim of the article is a hardening of the surface steel layers due to the combination treatment. ...
The demands on innovative materials given by the ever-increasing requirements of contemporary indust...
During high strain rate scenarios such as an impact event, a compressive shock wave will propagate t...
The paper discusses possibilities and conditions needed to obtain a super small grain and nanocrysta...
Techniques for making materials with advanced performance attributes at the expense of blanket heter...
The article deals with the machine parts hardening by means of deformation waves generated by th...
In the work we demonstrate the possibility of forming thin surface and near-surface layers with subm...
The technology of wave deformation hardening of metal machine parts is described, which allows obtai...
The technology of wave deformation hardening of metal machine parts is described, which allows obtai...
With two structural steels (the steels 50 and 09G2S) as examples, the paper studies the effectivenes...
The article presents results of study possibility of hardening of high-manganese steel X120Mn12 by a...
In article two technologies of hardening of metals and alloys are presented: volume hardening of met...
Cheiliakh, A. P. Strengthening Technologies of Materials Treatmentм : textbook / A. P. Cheiliakh, Y....
Surface enhancement methods induce a layer of beneficial residual compressive stress to improve the ...
The paper shows scientific substantiation and practical confirmation of possibility, application exp...
The aim of the article is a hardening of the surface steel layers due to the combination treatment. ...
The demands on innovative materials given by the ever-increasing requirements of contemporary indust...
During high strain rate scenarios such as an impact event, a compressive shock wave will propagate t...